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SECTION 14400 VEHICLE LIFTS Display hidden notes to specifier. (Don't know how? Click Here)

Copyright 2017 ARCAT, Inc. - All rights reserved

PART 1 GENERAL

1.1 SECTION INCLUDES

1.A. Heavy Duty Vehicle lifts including safety equipment, controls and accessories of the following types: 1.A.1. Modular inground axle engaging lifts 2 and 3 post MOD35 series. 1.A.2. 25,000 lb-130,000 lb parallelogram drive on surface and flush mounted lifts. 1.A.3. 52,000 lb/78,000 lb capacity surface mounted wheel engaging mobile column lifts MACH 413 series - MACH 613 series. 1.A.4. 56,000 lb/84,000 lb capacity surface mounted wheel engaging mobile column lifts FLEX M414 series / M614 series. 1.A.5. 72,000 lb/108,000 lb capacity surface mounted wheel engaging mobile column lifts M418 series - M618 series. 1.A.6. 75,200 lb/112,800 lb capacity surface mounted wheel engaging mobile column lifts with remote control M419 series - M619 FLEX series. 1.A.7. Hydraulic / mechanical in-ground lifts - EFX series. 1.A.7.a. Flush installation. 1.A.7.b. Flush installation with precast concrete vault. 1.A.8. 30,000 lb. four post surface mounted drive on general service lifts SM30S - SM30L - SM30EL series. 1.A.9. Four post runway/platform vehicle lifts. 1.A.10. Vertical rise platform lifts. 1.A.11. 50,000 lb two post-adjustable axle (continuous trench design) - 70Q. 1.A.12. 75,000 lb three post-adjustable, axle engaging (continuous trench design) - 703Q.

1.B. Light Duty Vehicle Lifts including safety equipment, controls and accessories of the following types: 1.B.1. 7,000 lb. capacity asymmetric two post surface mounted frame contact lifts SPOA7-MP - SPOA7-MPSW series. 1.B.2. 10,000 lb. capacity asymmetric two post surface mounted frame contact lifts SPOA10 14400-1 series. 1.B.3. 10,000 lb. capacity symmetric two post surface mounted frame contact lifts SPO10 series. 1.B.4. 12,000 lb. capacity symmetric two post surface mounted frame contact lifts SPO12 series. 1.B.5. 15,000 lb. / 18,000 capacity symmetric two post surface mounted frame contact lifts SPO15 - SPO18 series. 1.B.6. 8,000 lb / 10,000 lb / 12,000 lb. capacity self-contained inground two post frame contact lifts SL210-MP8 - SL210 - SL212 series. 1.B.7. 14,000 lb. four post surface mounted drive on alignment rack AR14 - ARO14 series. 1.B.8. 14,000 lb. four post surface mounted drive on general service lifts SM14 - SMO14 series. 1.B.9. 18,000 lb. four post surface mounted drive on general service lifts SM18L - SM18EL series. 1.B.10. 18,000 lb. four post surface mounted drive on alignment rack AR18L - AR18-EL series. 1.B.11. Vehicle alignment lifts.

1.2 RELATED SECTIONS

2.A. Section 14450 - Heavy Duty Vehicle Lifts.

2.B. Section 14451 - Light Duty Vehicle Lifts.

2.C. Section 15050 - Basic Mechanical Materials and Methods: Hydraulic lines, fittings, and related accessories.

2.D. Section 16050 - Basic Electrical Materials and Methods: Service, circuiting, wiring, and connections for power and controls.

1.3 REFERENCES

3.A. ALI: Automotive Lift Institute.

3.B. ANSI/ALI ALCTV: Safety Requirements for the Construction, Testing, and Validation of Automotive Lifts.

3.C. International Standards Organization (ISO): ISO 9001 Quality management systems - Requirements.

3.D. Underwriters Laboratories Inc. (UL): UL201 - These requirements cover garage equipment, rated not more than 600 volts, for use in accordance with the National Electrical Code, NFPA 70.

1.4 SUBMITTALS 14400-2 4.A. Submit under provisions of Section 01300.

4.B. Product Data: Manufacturer's data sheets on each product to be used, including: 4.B.1. Preparation instructions and recommendations. 4.B.2. Storage and handling requirements and recommendations. 4.B.3. Installation manual. 4.B.4. Operations manual. 4.B.5. Maintenance manual. 4.B.6. Safety manual.

4.C. Shop Drawings: Template drawings and load reactions for lift application.

4.D. BIM Models: Manufacturer's Building Information Model for lifts.

1.5 QUALITY ASSURANCE

5.A. Installer Qualifications: Factory trained authorized company, company insured for completed operations of installing lift.

5.B. In addition to the other requirements outlined herein, the lift or lifts, shall comply with all applicable requirements of ANSI standards. "Safety Requirements for the Construction, Care and Use of Automotive Lifts " as published by the American national Standards Institute. The lift company Quality Management System shall be ISO9001 certified.

5.C. Lift and all components shall be new. Used or refurbished lift and components not acceptable.

1.6 PROJECT CONDITIONS

6.A. Maintain environmental conditions (temperature, humidity, and ventilation) within limits recommended by manufacturer for optimum results. Do not install products under environmental conditions outside manufacturer's recommended limits.

1.7 WARRANTY

7.A. Manufacturer's Warranty: Provide manufacturer's standard warranty for failures due to defective materials and workmanship. Manufacturer will not assume responsibility, or compensation, for unauthorized repairs or labor.

PART 2 PRODUCTS

2.1 MANUFACTURERS

1.A.

14400-3 Acceptable Manufacturer: Rotary Lift, which is located at: 2700 Lanier Dr.; Madison, IN 47250; Toll Free Tel: 800-640-5438; Tel: 812-273-1622; Fax: 800-578-5438; Email: [email protected]; Web: www.rotarylift.com

1.B. Substitutions: Not permitted.

2.2 MODULAR INGROUND AXLE ENGAGING LIFTS 2 AND 3 POST MOD35 SERIES

2.A. Two Post Inground Lift Model MOD235: As manufactured by Rotary Lift. 2.A.1. Capacity: 70,000 lb (31752 kg). 2.A.2. Lifting cylinder assemblies: 2. 2.A.3. Movable lifting cylinder assemblies: 1.

2.B. Three Post Inground Lift Model MOD335: As manufactured by Rotary Lift. 2.B.1. Capacity: 105,000 lb (47627 kg). 2.B.2. Lifting cylinder assemblies: 3. 2.B.3. Movable lifting cylinder assemblies: 2.

2.C. Lift Characteristics/Construction Features: 2.C.1. Lifting Units: Lift shall consist of two or three individual modular lifting assemblies in line with the longitudinal axis of the vehicle, each lifting cylinder so equipped as to engage the axle and suspension, as specified herein. Each modular lifting assembly, including the hydraulic system, shall be housed in a totally contained, environmentally safe containment. The movable post shall be equipped with automatic shutter-plate covers that move with the post so as to keep the trench opening covered at all times. All trench cover plates, including recess covers shall be permanently attached to the floor openings for safety of the technician (trip hazard). The modular lifting system shall be a variable speed computer controlled equalization system to ensure vehicle stability based upon direct post height measurement. The operation of the lift shall be electro hydraulic.

2.D. Movable Post Modular: The movable post shall be equipped with a carriage assembly with permanent lubricated bearing wheels for smooth and proper movement in the structural channel track. The casing of the movable post shall be coated with EnviroGuard to a minimum 1/10 inch (2.5 mm) thickness for ultimate durability and maximum protection against deterioration due to electrolysis and/or harsh contaminates for ultimate durability and maximum protection against deterioration due to electrolysis and/or harsh contaminates. 2.D.1. Recessed track properly sized for movable post to provide proper engagement for vehicles ranging in wheel bases specified by fleet demand. The track shall have a pocket location to house the saddle and adapter assembly when lift is in the lowered position providing an unobstructed clear floor. The recess shall allow the superstructure and adapters to be stored completely below grade. When lowered, no part of the saddle or its adapters shall interfere with the drive over clearance of the bay. It shall not be necessary to remove adapters to achieve full drive over clearance and it shall not be required to remove or reposition the adapters in order to close the pit covers. All openings in the floor and gaps between floor and superstructure must be covered when the lift is down. Wheelbase adjustment shall be accomplished by a high efficiency system utilizing a 1/2 hp explosion proof electric motor, protected by a slip clutch. 2.D.2.

14400-4 Moveable superstructure shall be of a low profile design. 2.D.3. Piston Design, Capacity, and Rise: 2.D.3.a. 2-Stage piston with chrome surface not exposed to fluids in the containment. Seals should be accessed from floor level to reduce maintenance. 2.D.3.b. Minimum Full Rated Capacity: 35,000 lbs (15,876 kg). 2.D.3.c. Rise: 70 inches. 2.D.3.d. Lift locks: The lift lock shall be rated at same capacity as the corresponding jacking unit. The lock leg shall be a two-stage telescoping. The lock leg shall be equipped with 18 locking positions. The locking latch shall be spring-loaded to the lock position and shall be released at the control console. The locking latch shall be gravity activated with a spring-loaded assist. Release mechanism shall be an air cylinder to minimize potential hydraulic leaks. Hydraulically operated or electrically operated safeties are not acceptable. 2.D.4. Electro-Hydraulic Power Unit: The moveable modular unit shall be equipped with a 5 HP, explosion proof 3-phase motor. (All Models Bio-Fluid Compatible) The hydraulic system shall be completely housed within the modular containment unit. 2.D.5. Modular Containment: The containment shall be coated internally and externally with EnviroGuard minimum coating of 1/10 inch (2.5 mm) thickness for ultimate durability and maximum protection against deterioration due to electrolysis and/or common environmental - shop fluids. EnviroGuard shall be an impermeable shell that is watertight, encapsulated against corrosion and electrolysis. All units shall be tested against electrolysis by way of a 30,000-volt stray current test. Parts treated with the EnviroGuard coating shall be warranted against corrosion or electrolysis for a prorated period of 10 years. The Containment shall be equipped with a Liquid Detection System that shall relay visual notification to the lift control system upon detection of liquid accumulation in the containment. Fluids must be removed upon detection with optional automatic evacuation kit to an environmental location. Fluids can also be remove manually. The containment shall be equipped with a standard evacuation pipe.

2.E. Stationary Post Modular (Reference Model Number MODX35-S) shall include: The stationary post shall be of the same design construction and rise as the moveable post. 2.E.1. Stationary Frame: The stationary frame unit will provide integral wheel chocks at floor level in order to accurately locate vehicle Wheel chocks shall be embedded below grade on both sides of the stationary module. No part of the wheel spotting system shall protrude above the floor surface to minimize trip hazards. The spotting dish shall be provided on both sides of the module 2.E.2. The recess shall allow the superstructure and adapters to be stored completely below grade. When lowered, no part of the saddle or its adapters shall interfere with the drive over clearance of the bay. It shall not be necessary to remove adapters to achieve full drive over clearance or to close the pit covers. The recess area shall have cover doors to close over the opening when lift is not in use. 2.E.3. Lift locks: The lift locks shall be of the same design and construction as the moveable post. 2.E.4. Electro-Hydraulic Power Unit: The power unit shall be of the same construction and design as the moveable post.

2.F. Stationary Modular Containment: The stationary modular containment shall be of the same design as the moveable post containment (refer to shop drawings for size exceptions)

14400-5 2.G. Controls Wall Mount with Pendant: The control system shall be a variable speed computer controlled equalization system to ensure vehicle stability based upon direct post height measurement and shall be in a wall mounted enclosure with pendant control to minimize shop floor footprint and maximize workspace. Complete lift features are operable at the pendant control to maximize shop productivity and visibility of the vehicle during operation. The pendant control shall include the following features and functions. 2.G.1. The pendant control shall be equipped with a joystick for infinitely variable speed control of fore and aft movement of the piston and up down operation of the lift. The joystick shall permit fine adjustment of the lifting carriage or moveable piston to permit accurate alignment of axles, unloading of wheels, and reinstallation of drive-train components. The joystick control shall be equipped with protective guard to prevent accidental engagement of the control when not in use. 2.G.2. The control system shall actively monitor all lifting assemblies in relation to each other based on actual jack height measurement. The equalization shall be accomplished through variable motor speed. Systems that do not use motor speed manipulation are susceptible to contamination, reduced accuracy and increased maintenance. 2.G.3. The pendant control shall be equipped with technology allowing system communication through the use of a digital display that shows Fault Codes, and site specific presets. 2.G.4. The system shall provide the ability for the following facility required settings: Up to 25 memorized wheelbase locations as required by fleet. Up to 25 memorized height requirements locations as required by facility. 2.G.5. Programming features are limited to service operation and can be accomplished at the pendant control. Service menus are not accessible in normal operation to prevent unauthorized program modifications. 2.G.6. The control system shall indicate to the operator when the lift is fully lowered to prevent damage to the vehicle, the lift and to eliminate tire damage. 2.G.7. The pendant control shall indicate to the operator which lifting pistons are activated, when the moveable piston is moving fore and aft, when the moveable post is in its "home" position and when each piston is fully recessed below grade. 2.G.8. Automatic operational positioning shall be accessed from a single button press once a vehicle profile has been selected. 2.G.9. Pendant Control shall be of durable construction but still allow one hand operation in a compact design that provides important information on a digital display.

2.H. Controls Console Floor Mounted in Bay Only: The VEC equalized controls shall be in a surface mounted console 4 feet 3-7/32 inches (1300 mm) high by 2 feet (610 mm) wide. The control shall include the following features and functions. 2.H.1. The control panel shall be equipped with a joystick type control for fore and aft movement of the piston and up down operation of the lift. The joystick control shall be equipped with a locking ring to prevent accidental engagement of the control when not in use. The joystick shall permit fine adjustment of the lifting carriage or moveable piston to permit accurate alignment of axles, unloading of wheels, and reinstallation of drive-train components 2.H.2. The VEC equalization shall monitor all jacking assemblies in relation to each other. The equalization shall be accomplished through variable motor rotation without the use of flow metering valves or fluid measurement. 2.H.3. The lift control panel shall be equipped with Inbay Technology allowing system communication through the use of an LCD Screen. The LCD screen shall provide 14400-6 onboard; Fault Codes, and site specific presets. 2.H.4. The system shall provide the ability for the following facility required settings: Up to (25) memorized wheelbase locations as required by fleet. Up to (25) memorized height requirements as required by facility. 2.H.5. The control system shall indicate to the operator when the lift is fully lowered to prevent damage to the vehicle, the lift and to eliminate tire damage. 2.H.6. The control system shall indicate to the operator which lifting pistons are activated, when the moveable piston is moving fore and aft, when the moveable post is in its "home" position and when each piston is fully recessed below grade. 2.H.7. The control system shall be compliant with the requirements of ANSI, ALI, UL201 and all other applicable NEC requirements. 2.H.8. The pendant control (Optional) shall be compliant with the requirements of ANSI, ALI, UL201 and all other applicable NEC requirements for operational positions.

2.I. Saddle and Adapter Kit: The lift shall include a Saddle and Adapter Kit designed to properly engage and lift specified vehicles. 2.I.1. The lift superstructure shall include sliding adapters that include both types of essential adapters; flip up and pinned stackable inserts which can be to engage axles at different heights as standard equipment. 2.I.2. Flip-up adapters, ideal when lifting low profile vehicles, shall be built into the sliding adapter and optimize ease/speed of axle engagement. When the axle is obstructed by leaf springs, steering components or accessory equipment the use of included pinned, stackable adapters may be necessary. 2.I.3. The included height extensions shall be constructed of lightweight aluminum and using a single pin to allow for easy placement. Stackable height adapters shall be anodized for resistance to corrosion at pinning location. Stackable adapters and height extensions shall pivot 360 degrees to permit maximum flexibility when cradling vehicle axles or frames. 2.I.4. A unique saddle and adapter package that is optimized for most vehicles in a Generic Municipal, School bus, Heavy Truck, or Transit/Low Profile application. Generic adapter packages may require additional customization by the manufacturer.

2.J. Optional Accessories: 2.J.1. Automatic Fluid Evacuation System that is pneumatically operated. Fluid displacement 4GPM at 90PSI. Refer to drawings.

2.K. Control Panel: 2.K.1. 230V Control Panel. 2.K.2. 460V Control Panel. 2.K.3. 575V Control Panel.

2.L. Recessed track properly sized for movable post to provide proper engagement for vehicles ranging in wheel bases: 2.L.1. From _____ inches minimum to _____ inches maximum. 14400-7 2.L.2. From _____ inches minimum to _____ inches maximum (front to middle). 2.L.3. From _____ inches minimum to _____ inches maximum (middle to rear).

2.M. Lift shall be 3rd party certified by ETL testing laboratory and labeled with the ETL/Automotive Lift Institute (ALI) label that affirms the lifts meet conformance to all applicable provisions of American National Standard ANSI/ALI ALCTV and in compliance with IBC chapter 30.

2.3 30,000 LB-100,000 LB PARALLELOGRAM DRIVE ON SURFACE AND FLUSH MOUNTED LIFTS

3.A. Lift Characteristics: 3.A.1. Assembly shall consist of an electro-hydraulic lift unit, a control console and accessories. The control console shall be connected by required lengths of stainless steel hydraulic pipe or steel reinforced hydraulic hose, nylon compressed air line and electrical cable approved for use by the code authority of jurisdiction. 3.A.1.a. Each platform shall be constructed of steel plate supported by steel tubes. 3.A.2. Paint: 3.A.2.a. Marine grade paint zinc primer and epoxy top coats on baseplates. The control panel, lift legs and runways are epoxy coated only. 3.A.2.b. Optional Marine grade paint for the entire lift and on the control panel. 3.A.3. Hydraulic System: 3.A.3.a. Each hydraulic cylinder shall have a flow check integrally mounted to prevent collapse in the event of a major fluid leak. 3.A.3.b. The lift shall be driven by a hydraulic pump of U.S. manufacturer, capable of supplying the appropriate psi and gpm to operate the lift. 3.A.3.c. The lift shall be able to be lowered from any raised position by operation of a manual pump and valve. 3.A.4. Safety Locks: 3.A.4.a. Steel safety locks with a safety factor of not less than 3:1 shall be mounted one set to each lifting cylinder and shall allow the lift to be locked at a minimum of 8 different levels. 3.A.5. Optional full-length continuous safety edges mounted to the lower surface of the main lifting platform. Safety tape switch will be located on the outside of both platforms. When any of these safety edges are displaced horizontally or vertically, the lift will stop. Safety edges inside are also optional. 3.A.6. Control console shall house the following equipment: 3.A.6.a. Oil reservoir, suction strainer, low pressure return filter, hydraulic gear pump and manual pump. 3.A.6.b. Electrical enclosures for control components shall be NEMA 12 rated (minimum) and have the following controls mounted on them while still maintaining their sealing ability: 3.A.6.c. Systems disconnect. 14400-8 3.A.6.d. "Power-On" pilot lamp. 3.A.6.e. "Raise" and "Lower" controls and "Press to lock lift" control. 3.A.6.f. "Operator Lock-Out" pilot lamp. 3.A.7. The control system shall be operated by a Programmable Logic Control (PLC) and lock- out all operations of lift controls if an unsafe condition exists due to insufficient air pressure to operate safety locks; displaced safety edges, locks not disengaged or uneven platform heights. This lock-out shall not be able to be reset unless unsafe condition has been corrected. 3.A.7.a. The control system shall ensure that lifting platforms differ in height by no more than 2 inches (51 mm). If platforms become uneven by a greater amount, the lift shall stop and lock-out operator.

3.B. Capacity: 3.B.1. Models 30/26S - 30/26F: 30,000 lbs. (13630 kg). 3.B.2. Models 36/28S - 36/28F: 36,000 lbs. (16300 kg). 3.B.3. Models 45/35S - 45/35F: 45,000 lbs. (20412 kg). 3.B.4. Models 50/26S - 50/26F: 50,000 lbs. (22680 kg). 3.B.5. Models 50/32S - 50/32F: 50,000 lbs. (22680 kg). 3.B.6. Models 50/48S - 50/48F: 50,000 lbs. (22680 kg). 3.B.7. Models 75/30S - 75/30F: 75,000 lbs. (34019 kg). 3.B.8. Models 75/48S - 75/48F: 75,000 lbs. (34019 kg). 3.B.9. Models 100/42S - 100/42F: 100,000 lbs. (45359 kg).

3.C. Minimum Floor Thickness: 3.C.1. Model 30/26S: 6-3/4 inch (152 mm). 3.C.2. Model 30/26F: 9 inch (229 mm). 3.C.3. Model 36/28S: 4-1/2 inch (114 mm). 3.C.4. Model 36/28F: 9 inch (229 mm). 3.C.5. Model 45/35S: 4-1/2 inch (114 mm). 3.C.6. Model 45/35F: 9 inch (229 mm). 3.C.7. Model 50/26S: 6 inch (152 mm). 3.C.8. Model 50/26F: 9 inch (229 mm). 3.C.9. Model 50/32S: 4-1/2 inch (114 mm). 3.C.10. Model 50/32F: 9 inch (229 mm). 3.C.11. Model 50/48S: 6 inch (152 mm). 14400-9 3.C.12. Model 50/48F: 9 inch (229 mm). 3.C.13. Model 75/30S: 6 inch (152 mm). 3.C.14. Model 75/30F: 9 inch (229 mm). 3.C.15. Model 75/48S: 6 inch (152 mm). 3.C.16. Model 75/48F: 9 inch (229 mm). 3.C.17. Model 100/42S: 6 inch (152 mm). 3.C.18. Model 100/42F: 9 inch (229 mm).

3.D. Equipment Foundation Requirements: 3.D.1. Consult factory for drawings.

3.E. Electronic Programmable Control Panel With Electric Power Unit, UL201 Compliant, 208/230/460 volt 3 phase 60 Hz Over Hydraulic Cylinder Drive: All models bio-fluid compatible.

3.F. Rise: 63 inches (All Models from top of runway to floor).

3.G. Retracted Height Of Runways: 3.G.1. Model 30/26S: 12-7/8 inch (327 mm). 3.G.2. Model 30/26F: 12-7/8 inch (327 mm). 3.G.3. Model 36/28S: 11-7/8 inch (302 mm). 3.G.4. Model 36/28F: Flush With Floor. 3.G.5. Model 45/35S: 11-7/8 inch (302 mm). 3.G.6. Model 45/35F: Flush With Floor. 3.G.7. Model 50/26S: 12-7/8 inch (327 mm). 3.G.8. Model 50/26F: Flush With Floor. 3.G.9. Model 50/32S: 11-7/8 inch (302 mm). 3.G.10. Model 50/32F: Flush With Floor. 3.G.11. Model 50/48S: 12-7/8 inch (327 mm). 3.G.12. Model 50/48F: Flush With Floor. 3.G.13. Model 75/30S: 12-7/8 inch (327 mm). 3.G.14. Model 75/30F: Flush With Floor. 3.G.15. Model 75/48S: 16 inch (406 mm). 3.G.16. Model 75/48F: 9 inch (229 mm). 3.G.17. 14400-10 Model 100/42S: 6 inch (152 mm). 3.G.18. Model 100/42F: 9 inch (229 mm).

3.H. Platform Length: 3.H.1. Model 30/26S: 26 feet (7925 mm). 3.H.2. Model 30/26F: 26 feet (7925 mm). 3.H.3. Model 36/28S: 28 feet (8534 mm). 3.H.4. Model 36/28F: 28 feet (8534 mm). 3.H.5. Model 45/35S: 35 feet (1668 mm). 3.H.6. Model 45/35F: 35 feet (1668 mm). 3.H.7. Model 50/26S: 26 feet (7925 mm). 3.H.8. Model 50/26F: 26 feet (7925 mm). 3.H.9. Model 50/32S: 32 feet (9754 mm). 3.H.10. Model 50/32F: 32 feet (9754 mm). 3.H.11. Model 50/48S: 48 feet (14630 mm). 3.H.12. Model 50/48F: 48 feet (14630 mm). 3.H.13. Model 75/30S: 30 feet (9144 mm). 3.H.14. Model 75/30F: 30 feet (9144 mm). 3.H.15. Model 75/48S: 48 feet (14630 mm). 3.H.16. Model 75/48F: 48 feet (14630 mm). 3.H.17. Model 100/42S: 42 feet (12802 mm). 3.H.18. Model 100/42F: 42 feet (12802 mm).

3.I. Overall Length: 3.I.1. Model 30/26S: 34 feet-3-3/16 inch (10440 mm). 3.I.2. Model 30/26F: 26 feet (7295 mm). 3.I.3. Model 36/28S: 36 feet-3-3/16 inch (11050 mm). 3.I.4. Model 36/28F: 28 feet (8534 mm). 3.I.5. Model 45/35S: 43 feet-3-3/16 inch (13190 mm). 3.I.6. Model 45/35F: 35 feet (1668 mm). 3.I.7. Model 50/26S: 34 feet-3-3/16 inch (10400 mm). 3.I.8. Model 50/26F: 26 feet (7925 mm). 3.I.9. 14400-11 Model 50/32S: 40 feet-3-3/16 inch (12270 mm). 3.I.10. Model 50/32F: 32 feet (9754 mm). 3.I.11. Model 50/48S: 56 feet-3-3/16 inch (17150 mm). 3.I.12. Model 50/48F: 48 feet (14630 mm). 3.I.13. Model 75/30S: 38 feet-3-3/16 inch (11660 mm). 3.I.14. Model 75/30F: 30 feet (9144 mm). 3.I.15. Model 75/48S: 56 feet-3-3/16 inch (17150 mm). 3.I.16. Model 75/48F: 48 feet (14630 mm). 3.I.17. Model 100/42S: 50 feet-3-3/16 inch (15320 mm). 3.I.18. Model 100/42F: 42 feet (12802 mm).

3.J. Overall Width: 3.J.1. Model 30/26S: 109 inch (2768 mm). 3.J.2. Model 30/26F: 109 inch (2768 mm). 3.J.3. Model 36/28S: 105 inch (2667 mm). 3.J.4. Model 36/28F: 105 inch (2667 mm). 3.J.5. Model 45/35S: 105 inch (2667 mm). 3.J.6. Model 45/35F: 105 inch (2667 mm). 3.J.7. Model 50/26S: 109 inch (2768 mm). 3.J.8. Model 50/26F: 109 inch (2768 mm). 3.J.9. Model 50/32S: 105 inch (2667 mm). 3.J.10. Model 50/32F: 105 inch (2667 mm). 3.J.11. Model 50/48S: 109 inch (2768 mm). 3.J.12. Model 50/48F: 109 inch (2768 mm). 3.J.13. Model 75/30S: 109 inch (2768 mm). 3.J.14. Model 75/30F: 109 inch (2768 mm). 3.J.15. Model 75/48S: 109 inch (2768 mm). 3.J.16. Model 75/48F: 109 inch (2768 mm). 3.J.17. Model 100/42S: 109 inch (2768 mm). 3.J.18. Model 100/42F: 109 inch (2768 mm).

3.K. Finishes: 3.K.1. 14400-12 Red, RAL3002.

3.L. Optional Accessories: 3.L.1. RJ25: Rolling Jacks 25,000 LB (11340 kg) capacity (each) 100 psi minimum - 120 psi maximum required. 3.L.2. RJ42: Rolling Jacks 42,000 LB (19051 kg) capacity (each) 100 psi minimum - 120 psi maximum required. 3.L.3. RJ50: Rolling Jacks 50,000 LB (22680 kg) capacity (each) 100 psi minimum - 120 psi maximum required. 3.L.4. Built-In Air Line Kit 100 psi minimum - 120 psi maximum required. 3.L.5. Lighting System: 3.L.5.a. Main lifting platforms shall have fluorescent or LED lights installed on their inner edges to illuminate the work area beneath the vehicle when raised on the lift. 3.L.5.b. Lighting system shall turn on automatically when lift unit is raised above 22 inches (559 mm), (18 inch (457 mm) lamp height), and shall turn off automatically when lift unit descends below 22 inches (559 mm) per National Electric Code Section 511-1 through 511-3. 3.L.6. Ramp Kits for drive-thru bays two each extended length available. 3.L.7. Wash Bay (WB) Configurations: Lift will include zinc galvanized primer with marine grade epoxy top coat, environmental coated control panel, stainless remote panel and stainless steel hydraulic fittings and tubing. 3.L.8. Stainless steel baseplates. 3.L.9. Safety switches inside, outside or both side of runways.

3.M. Lift shall be 3rd party certified by ETL testing laboratory and labeled with the ETL/Automotive Lift Institute (ALI) label that affirms the lifts meet conformance to all applicable provisions of American National Standard ANSI/ALI ALCTV and in compliance with IBC chapter 30 section 3001.2.

2.4 52,000 LB./78,000 LB. CAPACITY SURFACE MOUNTED WHEEL ENGAGING MOBILE COLUMN LIFTS MACH 413 SERIES / MACH 613 SERIES

4.A. Lift Characteristics: 4.A.1. The intent of this specification is to establish the minimum standards of quality and performance for portable mobile column lifts which will be used to lift a variety of vehicles including Trucks, Buses, Passenger Vehicles, Fork Lifts and other general service vehicles. This specification shall describe a mobile column surface mounted, wheel engaging lifting system designed to elevate vehicles for the purpose of inspection and maintenance. One Lifting System shall consist of four electric-hydraulic mobile columns sustaining 52,000 lbs (23,636 kg) capacities or six electric-hydraulic mobile columns sustaining 78,000 lbs (35,455 kg) capacities (13,000 lbs (5909 kg) per mobile column). Mobile columns may be added, (not exceeding 8 columns), removed, or changed out. All mobile columns shall operate synchronously from any one of the lifting units by means of a control interface. The mobile columns shall be battery operated with a DC charging system built into each column for easy recharge.

14400-13 4.B. MACH 4 Series - 4 Mobile Columns: Capacity 52,000 lb (23,636 kgs); 13,000 lbs (5909 kgs) per column.

4.C. MACH 6 Series - 6 Mobile Columns: Capacity, 108,000 lbs (48988 kg); 13,000 lbs (5909 kgs) per column.

4.D. Shipping Weight: 1320 lbs (600 kg).

4.E. Weight Per Column: 1200 lbs. (555 kg).

4.F. Lifting Fork Length: 14 inches (356 mm) forks accommodate rim sizes 9 inches (229 mm) minimum to 24-1/2 inches (622 mm) maximum.

4.G. Floor requirements 4-1/2 inches (114 mm) thick (minimum) 3000 psi (20,684 kPa) concrete not to exceed a side to side floor slope of 1/8 inch per 1 foot 0 inches (10.4 mm per meter) and not to exceed a 1/4 inch per 1 foot 0 inches (20.8 mm per meter) floor slope fore and aft.

4.H. Motor: 3 kW, 24 volt minimum.

4.I. Hydraulic Tank Capacity: 10.5 quarts (10 liters) mobile columns will require 11-1/2 quarts (11 liters) of fluid to fill tank, hoses, and cylinders. Bio-Fluid compatible.

4.J. Overall Height at Full Lower: 89 inches (2261 mm).

4.K. Overall Height at Full Rise: 157.7 inches (4006 mm).

4.L. Overall Width: 43 inches (1092 mm).

4.M. Overall Length: 50 inches (1270 mm).

4.N. Turning Radius: 45 inches (1143 mm).

4.O. Rise: 69 inches (1753 mm).

4.P. Lifting/Lowering Speed: 68 seconds to full rise, 54 seconds to fully lowered position (at capacity).

4.Q. Control Voltage: 24 volts DC. Rechargeable by 110 Volt Automatic Charger.

4.R. Battery Charge Cycle: (New Battery) 20 cycles per charge at rated load of the lift. Lifting less than rated load will allow more cycles per charge.

4.S. Optional Accessories: 4.S.1. Fore and Aft Truck Frame Adapter Kit: for lifting front and rear end of vehicle with stacking adapters. 12,000 lbs (5455 kg.) capacity, 6,000 lbs (2727 kg.) per end. 14400-14 4.S.2. High Efficiency LED Undercarriage lighting system for hands-free illumination of work area and vehicle undercarriage. 4.S.3. Runway Kit with a capacity of 35,900 lbs (16284 kg). Simulates a 4 post lift. 4.S.4. Pallet jack steering system.

4.T. Fabrication: 4.T.1. Column Assemblies: 4.T.1.a. Columns shall be constructed of formed channel fabrication from a single steel plate and shall not require welded seams to form the column structure. 4.T.1.b. Columns shall be further reinforced externally along their back face with structural steel angle for additional rigidity and extended service life. Rigid column design shall be protected from corrosion via sand blasted enamel painting of metal surfaces. 4.T.1.c. Each column shall be fabricated to a set of legs and wheels that will sit directly on the floor and provide a stable platform when lifting a load. When unloaded the mobile columns ride on a set of wheels to allow the units to be moved. 4.T.1.d. Each of the lifting units shall contain a mechanical locking latch mechanism completely separate from the drive of lifting system. This lock shall be gravity actuated with a spring-loaded assist to ensure engagement at any position. Spacing between locking positions shall be a maximum of 3 inches (76 mm) in accordance with ALCTV. 4.T.1.e. The column structures shall be easily moveable on three wheels consisting of two fixed heavy duty steel wheels and a dual rubber steering wheel mounted at the rear of the column. Columns shall come equipped with a hoisting hook for lifting by overhead crane and a fork lift pocket lifting points on each column for ease of relocation by standard fork lift. 4.T.2. Carriage Assemblies: 4.T.2.a. Each column assembly shall include a carriage assembly which consists of 4 roller bearings. These bearings shall be oil impregnated and shall not require any greasing or maintenance of any kind. 4.T.2.b. Each carriage assembly shall include a full enclosure for the lifting cylinder chrome rod. No part of the chrome lifting cylinder shall be exposed to impact at any time during the lifting stroke. 4.T.2.c. Forks shall provide a minimum of 10 inches of sufficient safety clearance between column and body of vehicle. 4.T.2.d. Carriage assemblies shall come equipped with adjustable lifting forks to allow for adjustment of lifting forks for small tire applications to standard large tire applications without need for adapter sleeves. Forks shall include handles to facilitate the lateral adjustment of forks for narrower and wider tires. 4.T.3. Hydraulic System: 4.T.3.a. Each lifting unit shall be equipped with an electric hydraulic power unit, consisting of a DC motor, gear pump, reservoir, check valve, pressure relief valve, and two control valves. Entire power unit totally enclosed to protect from dirt and water. 4.T.3.b. The direct drive lifting cylinder shall be installed in such a manner as to push the 14400-15 carriage up, using no chains or cables. The extension of the cylinder shall occur inside of the carriage as to keep the plunger of the cylinder protected from dirt, sand, or any possible mechanical damage. 4.T.3.c. Hydraulic check valve shall hold load at any position of the cylinder. Redundant mechanical safety lock shall be continuously engaged except while lift is being lowered. 4.T.3.d. Solid zinc plated steel pipes are used to circulate all hydraulic fluids in the system. 4.T.3.e. Pressure relief valve shall prevent overloading of the lifting unit. 4.T.3.f. Unit shall be equipped with two control valves that shall be used to maintain synchronous operation when a lifting system of more than one column is being commanded to raise or lower. 4.T.3.g. Hydraulic system is self-lubricating and shall require no maintenance or lubrication of the hydraulic cylinder. 4.T.3.h. A velocity fuse shall be installed directly to the end of the cylinder in order to keep hydraulic fluids from discharging if there is a fast leak somewhere after the cylinder, which could cause the load to unintentionally be lowered. 4.T.4. Control System: Standard system with cord reel communication. 4.T.4.a. All mobile columns shall have identical control panels and shall be designed to be interchangeable without regard to master/slave relationships. 4.T.4.b. All mobile control panels are waterproof NEMA Type 4. 4.T.4.c. All control circuits and motor power supply circuits shall be 24 volts. 4.T.4.d. Circuit board programming is upgradeable. Upgrades in software or control programming shall be available by swapping a memory stick only and board replacement or reprogramming by the user shall not be necessary. 4.T.4.e. All mobile columns shall have a manual lowering override due to loss of power to the unit. 4.T.4.f. Indication lights on each control panel shall show mobile column configurations for an individual mobile column, paired mobile columns, grouped mobile columns, or all mobile columns. 4.T.4.g. "UP" and "Down" buttons shall have momentary function "Dead Man" type switches while depressed and operate from only one control panel at a time. 4.T.4.h. "Select" button shall permit operation of an individual mobile column, paired mobile columns, grouped mobile columns, or all mobile columns. 4.T.4.i. "Emergency Stop Button" on each panel will shut down all connected mobile columns. 4.T.4.j. All columns have automatic synchronization through the full stoke of the hydraulic cylinder with a maximum tolerance of 1 inch. 4.T.4.k. Control system will actively control hydraulic correction to maintain level synchronization, unless a column deviates more than 3.5 inches from any other column, at which point all motion halts and an error alert is generated. 4.T.4.l. Error codes and other diagnostic information is automatically provided when a fault is detected via alpha-numeric display, and visual indicator. 4.T.4.m. 14400-16 Programmable height limit settings with no external limit switches. 4.T.4.n. Lift shall come equipped with a lower to lock function. 4.T.4.o. Lift shall come equipped with a slow lowering function. 4.T.4.p. Each column shall have its own 110 volt, two (5) amp, 2 -bank battery smart- charger. The battery charger shall have two independent 12 VDC output leads and incorporate automatic 3-stage charging to minimize charge time and maximize battery life. Total recovery time for a completely discharged system is less than 12 hours. All battery chargers in a system can be connected together into a single 110V receptacle. 4.T.4.q. The lift control interfaces shall include visual representations showing the relationships between the lift columns and a vehicle, such as lift column icons positioned around a vehicle icon. 4.T.4.r. Lift shall come equipped with a three color battery charge indicator. The charger shall also indicate the status of the battery. 4.T.5. Steering: 4.T.5.a. The steering assembly shall consist of a fully automatic, spring-loaded steering handle. The steering handle shall lock the movement of the rear wheel when it is in the vertical position. 4.T.5.b. The steering assembly shall allow the lift to be moved around the shop floor without the need to pump up a hydraulic jack or pallet jack mechanism. 4.T.5.c. The rear wheel shall be spring loaded as to retract when weight is applied to the column. All other wheels will automatically retract when the lift is loaded with the weight of a vehicle. All wheels shall be equipped with sealed ball bearings. 4.T.6. Lift shall be 3rd party certified by ETL testing laboratory and labeled with the ETL/Automotive Lift Institute (ALI) label that affirms the lifts meet conformance to all applicable provisions of American National Standard ANSI/ALI ALCTV and in compliance with IBCchapter 30 section 3001.2.

2.5 HEAVY DUTY 56,000 lb/84,000 lb LB. CAPACITY SURFACE MOUNTED WHEEL ENGAGING MOBILE COLUMN LIFTS FLEX M414 SERIES / M614 SERIES

5.A. Lift Characteristics: 5.A.1. The intent of this specification is to establish the minimum standards of quality and performance for portable mobile column lifts which will be used to lift a variety of vehicles including Trucks, Buses, Passenger Vehicles, Fork Lifts and other general service vehicles. This specification shall describe a mobile column surface mounted, wheel engaging lifting system designed to elevate vehicles for the purpose of inspection and maintenance. One Lifting System shall consist of four electric-hydraulic mobile columns sustaining 56,000 lb (25401 kgs) capacities or six electric-hydraulic mobile columns sustaining 84,000 lb (38101 kgs) capacities (14,000 lbs (6350 kgs) per mobile column). Mobile columns may be added, (not exceeding 8 columns), removed, or changed out. The mobile columns shall be battery operated with a DC charging system built into each column for easy recharge.

5.B. MACH FLEX 4 Series - 4 Mobile Columns: Capacity 56,000 lbs (25401 kg); 14,000 lbs. (6350 kg) per column.

5.C. 14400-17 MACH 6 Series - 6 Mobile Columns: Capacity, 84,000 lbs (38101 kg); 14,000 lbs (6350 kgs) per column.

5.D. Shipping Weight: 1320 lbs (600 kg).

5.E. Weight Per Column: 1200 lbs. (555 kg).

5.F. Lifting Fork Length: 14 inches (356 mm) forks accommodate rim sizes 9 inches (229 mm) minimum to 24-1/2 inches (622 mm) maximum.

5.G. Floor requirements 4-1/2 inches (114 mm) thick (minimum) 3000 psi (20,684 kPa) concrete not to exceed a side to side floor slope of 1/8 inch = 1 foot 0 inches and not to exceed a 1/4 inch = 1 foot 0 inches floor slope fore and aft.

5.H. Motor: 3kw, 24 volt minimum.

5.I. Hydraulic Tank Capacity: 10.5 quarts (10 liters) mobile columns will require 11-1/2 quarts (11 liters) of fluid to fill tank, hoses, and cylinders. Bio-Fluid compatible.

5.J. Overall Height at Full Lower: 89 inches (2261 mm).

5.K. Overall Height at Full Rise: 157.7 inches (4006 mm).

5.L. Overall Width: 43 inches (1092 mm).

5.M. Overall Length: 50 inches (1270 mm).

5.N. Turning Radius: 45 inches (1143 mm).

5.O. Rise: 70 inches (1778 mm).

5.P. Lifting/Lowering Speed: 68 seconds to full rise - 54 seconds to fully lowered position.

5.Q. Control Voltage: 24 volts DC. Rechargeable by 110 Volt Automatic Weather Tight Marine Charger.

5.R. Battery Charge Cycle: (New Battery) approximately 20 cycles per charge at rated load of the lift. Lifting less than rated load will allow more cycles per charge.

5.S. Optional Accessories: 5.S.1. Fore and Aft Truck Frame Adapter Kit: for lifting front and rear end of vehicle with stacking adapters. 12,000 lbs (5455 kg.) capacity, 6,000 lbs (2727 kg.) per end. 5.S.2. High Efficiency LED Undercarriage lighting system for hands-free illumination of work area and vehicle undercarriage. 5.S.3. Runway Kit with a capacity of 35,900 lbs (16284 kg). Simulates a 4 post lift. 14400-18 5.S.4. Pallet jack steering system.

5.T. Fabrication: 5.T.1. Column Assemblies: 5.T.1.a. Columns shall be constructed of formed channel fabrication from a single steel plate and shall not require welded seams to form the column structure. 5.T.1.b. Columns shall be further reinforced externally along their back face with structural steel angle for additional rigidity and extended service life. Rigid column design shall be protected from corrosion via sand blasted enamel painting of metal surfaces. 5.T.1.c. Each column shall be fabricated to a set of legs and wheels that will sit directly on the floor and provide a stable platform when lifting a load. When unloaded the mobile columns ride on a set of wheels to allow the units to be moved. 5.T.1.d. Each of the lifting units shall contain a mechanical locking latch mechanism completely separate from the drive of lifting system. This lock shall be gravity actuated with a spring loaded assist to ensure engagement at any position. Spacing between locking positions shall be a maximum of 3 inches (76 mm) in accordance with ALCTV. 5.T.1.e. The column structures shall be easily moveable on three wheels consisting of two fixed heavy duty steel wheels and a dual rubber coated steel steering wheel mounted at the rear of the column. Columns shall come equipped with a hoisting hook for lifting by overhead crane and a fork lift pocket lifting points on each column for ease of relocation by standard fork lift. 5.T.2. Carriage Assemblies: 5.T.2.a. Each column assembly shall include a carriage assembly which consists of 4 roller bearings. These bearings shall be oil impregnated and shall not require any greasing or maintenance of any kind. 5.T.2.b. Each carriage assembly shall include a full enclosure for the lifting cylinder chrome rod. No part of the chrome lifting cylinder shall be exposed to impact at any time during the lifting stroke. 5.T.2.c. Forks shall provide a minimum of 10 inches of sufficient safety clearance between column and body of vehicle. 5.T.2.d. Carriage assemblies shall come equipped with adjustable lifting forks to allow for adjustment of lifting forks for small tire applications to standard large tire applications without need for adapter sleeves. Forks shall include handles to facilitate the lateral adjustment of forks for narrower and wider tires. 5.T.3. Hydraulic System: 5.T.3.a. Each lifting unit shall be equipped with an electric hydraulic power unit, consisting of a DC motor, gear pump, reservoir, check valve, pressure relief valve, and two control valves. Entire power unit totally enclosed to protect from dirt and water. 5.T.3.b. The direct drive lifting cylinder shall be installed in such a manner as to push the carriage up, using no chains or cables. The extension of the cylinder shall occur inside of the carriage as to keep the plunger of the cylinder protected from dirt, sand, or any possible mechanical damage. 5.T.3.c. Hydraulic check valve shall hold load at any position of the cylinder. Redundant 14400-19 mechanical safety lock shall be continuously engaged except while lift is being lowered. 5.T.3.d. Solid zinc plated steel pipes are used to circulate all hydraulic fluids in the system. 5.T.3.e. Pressure relief valve shall prevent overloading of the lifting unit. 5.T.3.f. Unit shall be equipped with two control valves that shall be used to maintain synchronous operation when a lifting system of more than one column is being commanded to raise or lower. 5.T.3.g. Hydraulic system is self-lubricating and shall require little to no maintenance or lubrication of the hydraulic cylinder. 5.T.3.h. A velocity fuse shall be installed directly to the end of the cylinder in order to keep hydraulic fluids from discharging if there is a fast leak somewhere after the cylinder, which could cause the load to unintentionally be lowered. 5.T.4. Flex Control System: Remote Control Wireless Operation (No Cord) 5.T.4.a. Handheld wireless remote control capable of controlling a system of 2, 4, 6, or 8 columns. With a battery life is 16 hours of continuous operation on a full charge. 5.T.4.b. "Resume" button to recall previous system ID and column assignments 5.T.4.c. "Press Protect" mode enables after 5 seconds. Waking the system from this mode results in all the columns in the system beeping and flashing, to confirm to the user which columns are being controlled, with a second button press required to start motion and protect against inadvertent button presses. 5.T.4.d. Guided quick set-up process, with the remoted control indicating the order of column power on around the vehicle. 5.T.4.e. Class I division 2 group D rated remote control 5.T.4.f. Charging cradle, with 50% re-charge in a half-hour. 5.T.4.g. Battery can be changed by removing one screw 5.T.4.h. Ergonomic rubberized grip area 5.T.4.i. One-handed operation 5.T.4.j. Recessed motion buttons to guard against accidental press 5.T.4.k. All mobile control panels and remote control are waterproof NEMA Type 4. 5.T.4.l. Column control circuits and motor power supply circuits shall be 24 volts. 5.T.4.m. Circuit board programming is upgradeable. Upgrades in software or control programming shall be available by swapping a SD card or wireless connection. Board replacement for reprogramming by the user shall not be necessary. 5.T.4.n. All mobile columns shall have a manual lowering override due to loss of power to the unit. 5.T.4.o. "UP" and "Down" buttons on the columns shall have momentary function "Dead Man" type switches while depressed and operate from only one control panel at a time. The joystick operation on the remote control is also "dead man". 5.T.4.p. "Emergency Stop Button" on each column or remote control will shut down all connected mobile columns. 14400-20 5.T.4.q. All columns have automatic synchronization through the full stoke of the hydraulic cylinder with a maximum tolerance of 1 inch. 5.T.4.r. Control system will actively control hydraulic correction to maintain level synchronization, unless a column deviates more than 3.5 inches from any other column, at which point all motion halts and an error alert is generated. 5.T.4.s. Error codes and other diagnostic information is automatically provided when a fault is detected via alpha-numeric display, audible alarm and visual indicator. 5.T.4.s.1) Alpha-numeric display will show height of column fork, system id and weight being picked up by that column in hundreds of pounds. 5.T.4.s.2) System can display both SI and Metric units. 5.T.4.t. Programmable height limit settings with no external limit switches. 5.T.4.u. Lift system shall come equipped with a lower to lock function. 5.T.4.v. Lift system shall come equipped with a slow lowering function. 5.T.4.w. Each column shall have its own 110 volt, two (5) amp, 2 -bank battery smart- charger. The battery charger shall have two independent 12 VDC output leads and incorporate automatic 3-stage charging to minimize charge time and maximize battery life. Total recovery time for a completely discharged system is less than 12 hours. All battery chargers in a system can be connected together into a single 110V receptacle. 5.T.4.x. The lift control interface (remote control) shall include visual representations showing the relationships between the lift columns and a vehicle, such as lift column icons positioned around a vehicle icon. 5.T.4.y. Lift shall come equipped with a three color battery charge indicator. The charger shall also indicate the status of the battery. 5.T.4.z. Lift will be equipped with a LockLight (tm) to show when the lift has been lowered to its locks. This light should be easily seen from more than 50 feet by a casual observer.

2.6 72,000 LB./108,000 LB. CAPACITY SURFACE MOUNTED WHEEL ENGAGING MOBILE COLUMN LIFTS M418 SERIES / M618 SERIES

6.A. Lift Characteristics: 6.A.1. The intent of this specification is to establish the minimum standards of quality and performance for portable mobile column lifts which will be used to lift a variety of vehicles including Trucks, Buses, Passenger Vehicles, Fork Lifts and other general service vehicles. This specification shall describe a mobile column surface mounted, wheel engaging lifting system designed to elevate vehicles for the purpose of inspection and maintenance. One Lifting System shall consist of four electric-hydraulic mobile columns sustaining 72,000 lbs (32659 kg) capacities or six electric-hydraulic mobile columns sustaining 108,000 lbs (48988 kg) capacities (18,000 lbs (8165 kg) per mobile column). Mobile columns may be added, (not exceeding 8 columns), removed, or changed out. All mobile columns shall operate synchronously from any one of the lifting units by means of a control interface. The control system shall have replaceable printed circuit boards equipped with quick-connect electrical couplers. The mobile columns shall be battery operated with a DC charging system built into each column for easy recharge.

6.B. 14400-21 MACH 4 Series - 4 Mobile Columns: Capacity 72,000 lbs (32659 kg); 18,000 lbs. (8165 kg) per column.

6.C. MACH 6 Series - 6 Mobile Columns: Capacity, 108,000 lbs (48988 kg); 18,000 lbs. (8165 kg) per column.

6.D. Shipping Weight: 1485 lbs (674 kg).

6.E. Weight Per Column: 1400 lbs. (635 kg).

6.F. Lifting Fork Length: 14 inches (356 mm) forks accommodate rim sizes 9 inches (229 mm) minimum to 24-1/2 inches (622 mm) maximum.

6.G. Floor requirements 4-1/2 inches thick (minimum) 3000 psi concrete not to exceed a side to side floor slope of 1/8 inch = 1 foot 0 inches and not to exceed a 1/4 inch = 1 foot 0 inches floor slope fore and aft.

6.H. Motor: 3kw, 24 volt minimum.

6.I. Hydraulic Tank Capacity: 10.5 quarts (10 liters) mobile columns will require 11-1/2 quarts (11 liters) of fluid to fill tank, hoses, and cylinders. Bio-Fluid compatible.

6.J. Overall Height at Full Lower: 102 inches (2591 mm).

6.K. Overall Height at Full Rise: 144-3/8 inches (3677 mm).

6.L. Overall Width: 45-1/2 inches (1156 mm).

6.M. Overall Length: 48-9/16 inches (1234 mm).

6.N. Turning Radius: 45 inches (1143 mm).

6.O. Rise: 70 inches (1778 mm).

6.P. Lifting/Lowering Speed: 78 seconds to full rise - 54 seconds to fully lowered position.

6.Q. Control Voltage: 24 volts DC. Rechargeable by 110 Volt Automatic Weather Tight Marine Charger.

6.R. Battery Charge Cycle: (New Battery) 20 cycles per charge at rated load of the lift. Lifting less than rated load will allow more cycles per charge.

6.S. Optional Accessories: 6.S.1. Fore and Aft Truck Frame Adapter Kit: for lifting front and rear end of vehicle with stacking adapters. Fore Aft Kit is rated at 7500 lbs per column. 6.S.2. 14400-22 Frame Engaging Cross Beam: for use laterally across the vehicle for wheels free lifting with sliding adapters. Capacity at 49 inches (1243mm) 32,000 lbs. (14,515 kg). Capacity at 72 inches (1243mm) 24,000 lbs. (10,886 kg). 6.S.3. High Efficiency LED Undercarriage lighting system for hands-free illumination of work area and vehicle undercarriage. 6.S.4. Fork-Lift ramp adapters for lifting material handling trucks up to 10,000 lbs (4535 kg) Capacity. 6.S.5. Extended Fork Adapter for lifting flotation tires and dual rear tires. Fork Extension shall be rated at 12,000 lbs (5443 kg) and shall require use of a leg extension kit (included). 6.S.6. Extended Fork Adapter for lifting flotation tires and dual rear tires. Fork Extension shall be rated at 14,500 lbs (5443 kg) and shall require use of a leg extension kit (included). 6.S.7. Drive on runway system (4 Mobile Column Needed). 6.S.8. Pallet jack steering system

6.T. Fabrication: 6.T.1. Column Assemblies: 6.T.1.a. Columns shall be constructed of formed channel fabrication from a single steel plate and shall not require welded seams to form the column structure. 6.T.1.b. Columns shall be further reinforced externally along their back face with structural steel angle for additional rigidity and extended service life. Rigid column design shall be protected from corrosion via sand blasted enamel painting of metal surfaces. 6.T.1.c. Each column shall be fabricated to a set of legs that will sit directly on the floor and provide a stable platform when lifting a load. When unloaded the mobile columns ride on a set of wheels to allow the units to be moved. When a vehicle is lifted, the wheels shall automatically retract and the lift shall sit down flat on its steel base and no lifted weight shall remain on the casters. Legs have an extended fork configuration that allows for extensions to be added at any time. Such extensions will permit the addition of longer forks to lift dual wheel assemblies or optional assemblies for lifting vehicles further away from the column assembly. 6.T.1.d. Each of the lifting units shall contain a mechanical locking latch mechanism completely separate from the drive of lifting system. This lock shall be gravity actuated with a spring loaded assist to ensure engagement at any position. Spacing between locking positions shall be a maximum of 3 inches (76 mm) in accordance with ALCTV. 6.T.1.e. The column structures shall be easily moveable on three wheels consisting of two fixed heavy duty steel wheels and a dual rubber steering wheel mounted at the rear of the column. Columns shall come equipped with a hoisting hook for lifting by overhead crane and a fork lift pocket lifting points on each column for ease of relocation by standard fork lift. 6.T.2. Carriage Assemblies: 6.T.2.a. Each column assembly shall include a carriage assembly which consists of 4 Ultra High Molecular Weight (UHMW) roller bearings. These bearings shall be oil impregnated and shall not require any greasing or maintenance of any kind. 6.T.2.b. Each carriage assembly shall include a full enclosure for the lifting cylinder chrome rod. No part of the chrome lifting cylinder shall be exposed to impact at any time 14400-23 during the lifting stroke. 6.T.2.c. Forks shall provide a minimum of 12 inches of sufficient safety clearance between column and body of vehicle. Forks shall also be available in an extended configuration capable of supporting inboard tires on dual-wheeled axles. 6.T.2.d. Carriage assemblies shall come equipped with adjustable lifting forks to allow for adjustment of lifting forks for small tire applications to standard large tire applications without need for adapter sleeves. Forks shall include handles to facilitate the lateral adjustment of forks for narrower and wider tires. Adjustment shall be accomplished by release of a spring-loaded lock on the top of the fork. When adjustment of the forks is complete, locks shall automatically re-engage to secure forks from further movement. 6.T.3. Hydraulic System: 6.T.3.a. Each lifting unit shall be equipped with an electric hydraulic power unit, consisting of a DC motor, gear pump, reservoir, check valve, pressure relief valve, and two control valves. Entire power unit totally enclosed to protect from dirt and water. 6.T.3.b. The direct drive lifting cylinder shall be installed in such a manner as to push the carriage up, using no chains or cables. The extension of the cylinder shall occur inside of the carriage as to keep the plunger of the cylinder protected from dirt, sand, or any possible mechanical damage. 6.T.3.c. Hydraulic check valve shall hold load at any position of the cylinder. Redundant mechanical safety lock shall be continuously engaged except while lift is being lowered. 6.T.3.d. Solid zinc plated steel pipes are used to circulate all hydraulic fluids in the system. 6.T.3.e. Pressure relief valve shall prevent overloading of the lifting unit. 6.T.3.f. Unit shall be equipped with two control valves that shall be used to maintain synchronous operation when a lifting system of more than one column is being commanded to raise or lower. 6.T.3.g. Hydraulic system is self-lubricating and shall require little to no maintenance. 6.T.3.h. A velocity fuse shall be installed directly to the end of the cylinder in order to keep hydraulic fluids from discharging if there is a fast leak somewhere after the cylinder, which could cause the load to unintentionally be lowered. 6.T.4. Control System: Standard system (wired control system). 6.T.4.a. All mobile columns shall have identical control panels and shall be designed to be interchangeable without regard to master/slave relationships. 6.T.4.b. All mobile control panels are waterproof NEMA Type 4. 6.T.4.c. All control circuits and motor power supply circuits shall be 24 volts. 6.T.4.d. Circuit board programming is upgradeable. Upgrades in software or control programming shall be available by swapping a memory stick only and board replacement or reprogramming by the user shall not be necessary. 6.T.4.e. All mobile columns shall have a manual lowering override due to loss of power to the unit. 6.T.4.f. Indication lights on each control panel shall show mobile column configurations for an individual mobile column, paired mobile columns, grouped mobile columns, or all mobile columns. 14400-24 6.T.4.g. "UP" and "Down" buttons shall have momentary function "Dead Man" type switches while depressed and operate from only one control panel at a time. 6.T.4.h. "Select" button shall permit operation of an individual mobile column, paired mobile columns, grouped mobile columns, or all mobile columns. 6.T.4.i. "Emergency Stop Button" on each panel will shut down all connected mobile columns. 6.T.4.j. All control panels have automatic synchronization through the full stoke of the hydraulic cylinder with a maximum tolerance of 1 inch. 6.T.4.k. Control system will actively control hydraulic correction to maintain level synchronization, unless a column deviates more than 3.5 inches from any other column, at which point all motion halts and an error alert is generated. 6.T.4.l. Error codes and other diagnostic information is automatically provided when a fault is detected via alpha-numeric display, audible alarm and visual indicator. 6.T.4.m. Programmable height limit settings with no external limit switches. 6.T.4.n. Communication cables shall connect from one column to the next in any order in a single loop forming a horse shoe pattern allowing ingress and egress into the mobile columns without driving over cables. Connecting cables are 50 feet (15240 mm). 6.T.4.o. Lift shall come equipped with a lower to lock function. 6.T.4.p. Lift shall come equipped with a slow lowering function. 6.T.4.q. Each column shall have its own 110 volt waterproof marine, two (5) amp, 2 -bank battery smart-charger. The battery charger shall have two independent 12 VDC output leads and incorporate automatic 3-stage charging to minimize charge time and maximize battery life. Total recovery time for a completely discharged system is less than 12 hours. All battery chargers in a system can be connected together into a single 110V receptacle. 6.T.4.r. The lift control interfaces shall include visual representations showing the relationships between the lift columns and a vehicle, such as lift column icons positioned around a vehicle icon. 6.T.4.s. Lift shall come equipped with a three color battery charge indicator. The charger shall also indicate the status of the battery. 6.T.4.t. Custom features as indicated on Drawings. 6.T.5. Control System: Premium, wireless system. Patent 8,083,034. 6.T.5.a. All mobile columns shall have identical control panels and shall be designed to be interchangeable without regard to master/slave relationships. 6.T.5.b. All mobile control panels are waterproof NEMA Type 4. 6.T.5.c. All control circuits and motor power supply circuits shall be 24 volts. 6.T.5.d. Circuit boards are upgradeable. Upgrades in software or control programming shall be available by swapping a memory stick only and board replacement or reprogramming by the user shall not be necessary. 6.T.5.e. All mobile columns shall have a manual lowering override due to lose of power to the unit. 14400-25 6.T.5.f. Indication lights on each control panel shall show mobile column configurations for an individual mobile column, paired mobile columns, grouped mobile columns, or all mobile columns. 6.T.5.g. "UP" and "Down" buttons shall have momentary function "Dead Man" type switches while depressed and operate from only one control panel at a time. 6.T.5.h. "Select" button shall permit operation of an individual mobile column, paired mobile columns, grouped mobile columns, or all mobile columns. 6.T.5.i. "Emergency Stop Button" on each panel will shut down all connected mobile columns. 6.T.5.j. All control panels have automatic wireless synchronization through the full stoke of the hydraulic cylinder with a maximum tolerance of 1 inch. 6.T.5.k. Control system will actively control hydraulic correction to maintain level synchronization, unless a column deviates more than 3.5 inches from any other column, at which point all motion halts and an error alert is generated. 6.T.5.l. Error codes and other diagnostic information is automatically provided when a fault is detected via alpha-numeric display. 6.T.5.m. Programmable height limit settings with no external limit switches. 6.T.5.n. Lift shall come equipped with a lower to lock function. 6.T.5.o. Lift shall come equipped with a slow lowering function. 6.T.5.p. Each column shall have its own 110 volt, two (5) amp, 2 -bank battery smart- charger. The battery charger shall have two independent 12 VDC output leads and incorporate automatic 3-stage charging to minimize charge time and maximize battery life. Total recovery time for a completely discharged system is less than 12 hours. All battery chargers in a system can be connected together into a single 110V receptacle. 6.T.5.q. The lift control interfaces shall include visual representations showing the relationships between the lift columns and a vehicle, such as lift column icons positioned around a vehicle icon. 6.T.5.r. Lift shall come equipped with a three-color battery charge indicator. The charger shall also indicate the status of the battery. 6.T.5.s. System set up must be accomplished in a single trip set up around columns to minimize set up time and user confusion, direction and operation will not matter. 6.T.6. Steering: 6.T.6.a. The steering assembly shall consist of a fully automatic, spring-loaded steering handle. The steering handle shall lock the movement of the rear wheel when it is in the vertical position. 6.T.6.b. The steering assembly shall allow the lift to be moved around the shop floor without the need to pump up a hydraulic jack or pallet jack mechanism. 6.T.6.c. The rear wheel shall be spring loaded as to retract when weight is applied to the column. All other wheels will automatically retract when the lift is loaded with the weight of a vehicle. All wheels shall be equipped with sealed ball bearings. 6.T.7. Lift shall be 3rd party certified by ETL testing laboratory and labeled with the ETL/Automotive Lift Institute (ALI) label that affirms the lifts meet conformance to all 14400-26 applicable provisions of American National Standard ANSI/ALI ALCTV and in compliance with IBC chapter 30 section 3001.2.

2.7 HEAVY DUTY 75,200 LB./112,800 LB. CAPACITY SURFACE MOUNTED WHEEL ENGAGING MOBILE COLUMN LIFTS FLEX M419 SERIES / M619 SERIES

7.A. Lift Characteristics: 7.A.1. The intent of this specification is to establish the minimum standards of quality and performance for portable mobile column lifts which will be used to lift a variety of vehicles including Trucks, Buses, Passenger Vehicles, Fork Lifts and other general service vehicles. This specification shall describe a mobile column surface mounted, wheel engaging lifting system designed to elevate vehicles for the purpose of inspection and maintenance. One Lifting System shall consist of four electric-hydraulic mobile columns sustaining 75,200 lb (32659 kgs) capacities or six electric-hydraulic mobile columns sustaining 112,800 lb (48988 kgs) capacities (18,800 lbs (8165 kgs) per mobile column). Mobile columns may be added, (not exceeding 8 columns), removed, or changed out. The mobile columns shall be battery operated with a DC charging system built into each column for easy recharge.

7.B. MACH FLEX 4 Series - 4 Mobile Columns: Capacity 75,200 lbs (34,110 kg); 18,800 lbs. (8,528 kg) per column.

7.C. MACH FLEX 6 Series - 6 Mobile Columns: Capacity, 112,800 lbs (51,165 kg); 18,800 lbs. (8,528 kg) per column.

7.D. Shipping Weight: 1485 lbs (674 kg).

7.E. Weight Per Column: 1400 lbs. (635 kg).

7.F. Lifting Fork Length: 14 inches (356 mm) forks accommodate rim sizes 9 inches (229 mm) minimum to 24-1/2 inches (622 mm) maximum.

7.G. Floor requirements 4-1/2 inches thick (minimum) 3000 psi concrete not to exceed a side to side floor slope of 1/8 inch = 1 foot 0 inches and not to exceed a 1/4 inch = 1 foot 0 inches floor slope fore and aft.

7.H. Motor: 3kw, 24 volt minimum.

7.I. Hydraulic Tank Capacity: 10.5 quarts (10 liters) mobile columns will require 11-1/2 quarts (11 liters) of fluid to fill tank, hoses, and cylinders. Bio-Fluid compatible.

7.J. Overall Height at Full Lower: 102 inches (2591 mm).

7.K. Overall Height at Full Rise: 144-3/8 inches (3677 mm).

7.L. Overall Width: 45-1/2 inches (1156 mm).

7.M. Overall Length: 48-9/16 inches (1234 mm).

14400-27 7.N. Turning Radius: 45 inches (1143 mm).

7.O. Rise: 70 inches (1778 mm).

7.P. Lifting/Lowering Speed: 78 seconds to full rise - 54 seconds to fully lowered position.

7.Q. Control Voltage: 24 volts DC. Rechargeable by 110 Volt Automatic Weather Tight Marine Charger.

7.R. Battery Charge Cycle: (New Battery) 20 cycles per charge at rated load of the lift. Lifting less than rated load will allow more cycles per charge.

7.S. Optional Accessories: 7.S.1. Fore and Aft Truck Frame Adapter Kit: for lifting front and rear end of vehicle with stacking adapters. Fore Aft Kit is rated at 7500 lbs per column. 7.S.2. Frame Engaging Cross Beam: for use laterally across the vehicle for wheels free lifting with sliding adapters. Capacity at 49 inches (1243mm) 32,000 lbs. (14,515 kg). Capacity at 72 inches (1243mm) 24,000 lbs. (10,886 kg). 7.S.3. High Efficiency LED Undercarriage lighting system for hands-free illumination of work area and vehicle undercarriage. 7.S.4. Fork-Lift ramp adapters for lifting material handling trucks up to 10,000 lbs (4535 kg) Capacity. 7.S.5. Extended Fork Adapter for lifting flotation tires and dual rear tires. Fork Extension shall be rated at 12,000 lbs (5443 kg) and shall require use of a leg extension kit (included). 7.S.6. Extended Fork Adapter for lifting flotation tires and dual rear tires. Fork Extension shall be rated at 14,500 lbs (5443 kg) and shall require use of a leg extension kit (included). 7.S.7. Drive on runway system (4 Mobile Column Needed). 7.S.8. Pallet jack steering system

7.T. Fabrication: 7.T.1. Column Assemblies: 7.T.1.a. Columns shall be constructed of formed channel fabrication from a single steel plate and shall not require welded seams to form the column structure. 7.T.1.b. Columns shall be further reinforced externally along their back face with structural steel angle for additional rigidity and extended service life. Rigid column design shall be protected from corrosion via sand blasted enamel painting of metal surfaces. 7.T.1.c. Each column shall be fabricated to a set of legs that will sit directly on the floor and provide a stable platform when lifting a load. When unloaded the mobile columns ride on a set of wheels to allow the units to be moved. When a vehicle is lifted, the wheels shall automatically retract and the lift shall sit down flat on its steel base and no lifted weight shall remain on the casters. Legs have an extended fork configuration that allows for extensions to be added at any time. Such extensions

14400-28 will permit the addition of longer forks to lift dual wheel assemblies or optional assemblies for lifting vehicles further away form the column assembly. 7.T.1.d. Each of the lifting units shall contain a mechanical locking latch mechanism completely separate from the drive of lifting system. This lock shall be gravity actuated with a spring loaded assist to ensure engagement at any position. Spacing between locking positions shall be a maximum of 3 inches (76 mm) in accordance with ALCTV. 7.T.1.e. The column structures shall be easily moveable on three wheels consisting of two fixed heavy duty steel wheels and a dual rubber coated steering wheel mounted at the rear of the column. Columns shall come equipped with a hoisting hook for lifting by overhead crane and a fork lift pocket lifting points on each column for ease of relocation by standard fork lift. 7.T.2. Carriage Assemblies: 7.T.2.a. Each column assembly shall include a carriage assembly which consists of 4 Ultra High Molecular Weight (UHMW) roller bearings. These bearings shall be oil impregnated and shall not require any greasing or maintenance of any kind. 7.T.2.b. Each carriage assembly shall include a full enclosure for the lifting cylinder chrome rod. No part of the chrome lifting cylinder shall be exposed to impact at any time during the lifting stroke. 7.T.2.c. Forks shall provide a minimum of 12 inches of sufficient safety clearance between column and body of vehicle. Forks shall also be available in an optional extended configuration capable of supporting inboard tires on dual-wheeled axles. 7.T.2.d. Carriage assemblies shall come equipped with adjustable lifting forks to allow for adjustment of lifting forks for small tire applications to standard large tire applications without need for adapter sleeves. Forks shall include handles to facilitate the lateral adjustment of forks for narrower and wider tires. Adjustment shall be accomplished by release of a spring loaded lock on the top of the fork. When adjustment of the forks is complete, locks shall automatically re-engage to secure forks from further movement. 7.T.3. Hydraulic System: 7.T.3.a. Each lifting unit shall be equipped with an electric hydraulic power unit, consisting of a DC motor, gear pump, reservoir, check valve, pressure relief valve, and two control valves. Entire power unit totally enclosed to protect from dirt and water. 7.T.3.b. The direct drive lifting cylinder shall be installed in such a manner as to push the carriage up, using no chains or cables. The extension of the cylinder shall occur inside of the carriage as to keep the plunger of the cylinder protected from dirt, sand, or any possible mechanical damage. 7.T.3.c. Hydraulic check valve shall hold load at any position of the cylinder. Redundant mechanical safety lock shall be continuously engaged except while lift is being lowered. 7.T.3.d. Solid zinc plated steel pipes are used to circulate all hydraulic fluids in the system. 7.T.3.e. Pressure relief valve shall prevent overloading of the lifting unit. 7.T.3.f. Unit shall be equipped with two control valves that shall be used to maintain synchronous operation when a lifting system of more than one column is being commanded to raise or lower. 7.T.3.g. Hydraulic system is self-lubricating and shall require little to no maintenance or lubrication of the hydraulic cylinder. 14400-29 7.T.3.h. A velocity fuse shall be installed directly to the end of the cylinder in order to keep hydraulic fluids from discharging if there is a fast leak somewhere after the cylinder, which could cause the load to unintentionally be lowered. 7.T.4. Flex Control System: Remote Control Wireless Operation (No Cord) 7.T.4.a. Handheld wireless remote control capable of controlling a system of 2, 4, 6, or 8 columns. With a battery life is 16 hours of continuous operation on a full charge. 7.T.4.b. "Resume" button to recall previous system ID and column assignments 7.T.4.c. "Press Protect" mode enables after 5 seconds. Waking the system from this mode results in all the columns in the system beeping and flashing, to confirm to the user which columns are being controlled, with a second button press required to start motion and protect against inadvertent button presses. 7.T.4.d. Guided quick set-up process, with the remoted control indicating the order of column power on around the vehicle. 7.T.4.e. Class I division 2 group D rated remote control 7.T.4.f. Charging cradle, with 50% re-charge in a half-hour. 7.T.4.g. Battery can be changed by removing one screw 7.T.4.h. Ergonomic rubberized grip area 7.T.4.i. One-handed operation 7.T.4.j. Recessed motion buttons to guard against accidental press 7.T.4.k. All mobile control panels and remote control are waterproof NEMA Type 4. 7.T.4.l. Column control circuits and motor power supply circuits shall be 24 volts. 7.T.4.m. Circuit board programming is upgradeable. Upgrades in software or control programming shall be available by swapping a SD card or wireless connection. Board replacement for reprogramming by the user shall not be necessary. 7.T.4.n. All mobile columns shall have a manual lowering override due to loss of power to the unit. 7.T.4.o. "UP" and "Down" buttons on the columns shall have momentary function "Dead Man" type switches while depressed and operate from only one control panel at a time. The joystick operation on the remote control is also "dead man". 7.T.4.p. "Emergency Stop Button" on each column or remote control will shut down all connected mobile columns. 7.T.4.q. All columns have automatic synchronization through the full stoke of the hydraulic cylinder with a maximum tolerance of 1 inch. 7.T.4.r. Control system will actively control hydraulic correction to maintain level synchronization, unless a column deviates more than 3.5 inches from any other column, at which point all motion halts and an error alert is generated. 7.T.4.s. Error codes and other diagnostic information is automatically provided when a fault is detected via alpha-numeric display, audible alarm and visual indicator. 7.T.4.s.1) Alpha-numeric display will show height of column fork, system id and weight being picked up by that column in hundreds of pounds. 14400-30 7.T.4.s.2) System can display both SI and Metric units 7.T.4.t. Programmable height limit settings with no external limit switches. 7.T.4.u. Lift system shall come equipped with a lower to lock function. 7.T.4.v. Lift system shall come equipped with a slow lowering function. 7.T.4.w. Each column shall have its own 110 volt, two (5) amp, 2 -bank battery smart- charger. The battery charger shall have two independent 12 VDC output leads and incorporate automatic 3-stage charging to minimize charge time and maximize battery life. Total recovery time for a completely discharged system is less than 12 hours. All battery chargers in a system can be connected together into a single 110V receptacle. 7.T.4.x. The lift control interface (remote control) shall include visual representations showing the relationships between the lift columns and a vehicle, such as lift column icons positioned around a vehicle icon. 7.T.4.y. Lift shall come equipped with a three color battery charge indicator. The charger shall also indicate the status of the battery. 7.T.4.z. Lift will be equipped with a LockLight (tm) to show when the lift has been lowered to its locks. This light should be easily seen from more than 50 feet by a casual observer.

2.8 HYDRAULIC / MECHANICAL IN-GROUND LIFTS

8.A. Hydraulic-Mechanical In-Ground Lifts: EFX60 Series Ultra-Shallow High Pressure / Low Volume Axle-Engaging Lifts as manufactured by Rotary Lift. 8.A.1. Model EFX60_____ 8.A.2. Model EFX90_____ 8.A.3. Model EFX90 (Tandem) ______8.A.4. Description: The lift shall consist of two or three lifting assemblies in line with the longitudinal axis of the vehicle, each lifting mechanism so equipped as to engage the axle and/or suspension as specified herein. One of the lifting mechanisms, will be movable fore and aft, to affect variable spacing between lifting mechanisms. The other lift assembly will be fixed. 8.A.5. Environmental Hydraulic Oil: Biodegradable, vegetable based hydraulic oil, such as Mobil Envirosyn Series EAL 224H, or manufacturer approved equivalent by Shell or ISO32 weight hydraulic oil.

8.B. Lift Type: Hydraulic / Mechanical In-Ground scissor style lifts manufactured by Rotary Lift. 8.B.1. Lift shall meet the following description: axle engaging, hydraulic / mechanical in-ground scissor articulating lift, with a fixed rear and movable front lifting unit. Total pit depth shall not exceed 34 inch (864 mm) below finished floor when installed in a concrete containment. The safety system shall include lockable, "press-to-lock" mechanical locks, and the lift shall have high pressure / low volume cylinders operated from a main console or optional pendant. The front lifting unit shall move fore and aft while fully recessed below floor and the entire lift system shall be drop-in, bolt-in and be completely removable and re-locatable. 8.B.2. 14400-31 Lift is to be installed in a shallow concrete containment or precast pit, and equipment is not to exceed 34 inches (864 mm) below finished floor; any fluids in the containment shall drain to the oil/water separator or be ejected into the user's specified collection system; cylinders shall operate at greater than 2500 psi and require less than a total of 3.5 gallons (13.25 L) each of hydraulic oil for lifting to full height; electric motors and reservoirs for oil shall be above ground in the control console; cylinders shall be double- acting with internal seals and have a maximum piston rod extension of 21 inches (533 mm) to reduce vulnerability to damage and increase maintenance reliability; the moveable lifting unit shall recess below floor anywhere within the travel range and shall be movable fore and aft when fully recessed; mechanical locking system shall have a "press-to-lock" push button to seat the locks in a fully engaged and locked position and relieve the hydraulic pressure; lift shall have a manual hand pump located in the console capable of lowering the lift in the event of a power or component failure to remove the vehicle; structural pit covers with a continuous hinge capable of supporting a 13,500 lb (6123 kg) drive over load; movable front lifting carriage that slides over low friction, low wear Nylatron in lieu of rollers and axles; the lift system shall not be embedded in concrete and shall be completely removable and re-locatable.

8.C. Dimensions and Capacities: 8.C.1. Lifting Capacity: Lift shall be capable of raising 30,000 lbs. (13608 kg) per scissor section. The lift system can be operated with two or three scissor assemblies. 8.C.2. Unbalanced Loads, Front to Rear: Lift shall be capable of raising 30,000 lbs (13608 kg) on one unit and 0 (zero) lbs. on the other unit. 8.C.3. Design Load Factor of Safety: 3:1. 8.C.4. Number of Mechanical Lock Stops: 12, minimum. 8.C.5. Vertical height spacing between each lock stop: 5 inches (127 mm), maximum. 8.C.6. Vertical rise to first lock stop: 14 inches (356 mm), maximum. 8.C.7. Rise: 70 inches (1778 mm) A.F.F. (above finished floor) 8.C.8. Lifting Rate: 80 seconds; 50 inches (1270 mm) per minute, minimum. 8.C.9. Maximum Depth Below Finished Floor for any structural component or member: 34 inches (864 mm) maximum. 8.C.10. Front and Rear Synchronization: 2 inches (51 mm) 8.C.11. Bolster Width: 40 inches (1016 mm) minimum. 8.C.12. Adapter Adjustment: Minimum 18 inches (457 mm); Maximum 52 inches (1321 mm) 8.C.13. Bolster and Base Adapters for both lifting units, movable and fixed, shall recess below finished floor. Base adapters shall not require pinning or locking mechanisms, but shall have retaining bolts. 8.C.14. Travel Range: ______8.C.15. Wheelbases: From ______to ______. 8.C.16. Drive-over capacity for interlocking, extruded structural aluminum covers: 13,500 lbs (6123 kg).

8.D. Lift Units: 8.D.1. 14400-32 Independent Lifting Units, Front and Rear, shall be exactly identical, completely interchangeable and share the same operating and performance parameters for capacity, lifting rate, height and stroke. 8.D.2. Movable lifting unit shall be mounted inside a steel insert, also known as a continuous recess. 8.D.3. Lift units and continuous recess insert shall be completely removable with no lift components or structural framing permanently embedded in the concrete. 8.D.4. Lift unit shall be a hydraulically powered, mechanically articulating scissor lift, complete with a mechanical locking system. 8.D.5. Hydraulic cylinder shall be dual acting so that the lift descends and then retracts below finished floor into the recess under power, after disengaging from the axle load. 8.D.6. Lift units shall be able to disengage from the axles at differing times and elevations and power down to their retracted positions at the same rate of descent as when fully loaded. 8.D.7. Lift unit shall be constructed of 2 inch (51 mm) thick bars, 2 inch (51 mm) thick inner leg assembly weldments, 2.25 inch (57 mm) diameter 4140 pins, greaseless polygon bushings, a 3/4 inch (19 mm) thick T-1 steel dual lock-jaw weldment, 7 inch (178 mm) diameter double-acting hydraulic cylinder, and UHMW slide blocks. 8.D.8. All steel surfaces shall be finished in a high wear epoxy coated paint. 8.D.9. By means of a centering link, the lifting structure shall articulate symmetrically about the center axis of the lift unit as it raises and lowers. As the lift raises and lowers, the top and bottom pins and sliding load blocks, shall travel toward and away from the centerline of the longitudinal axis of the lift at an equal rate and distance.

8.E. Continuous Recess / Movable Carriage Lifting Units: 8.E.1. The front unit shall be movable fore and aft while in the fully retracted position. The travel frame for the movable carriage shall be comprised of a drop-in, bolt-in-place open floor steel box insert that is completely removable and re-locatable. 8.E.2. When the entire travel frame insert has the covers in place and the lift is operational, it forms a continuous recess that shall meet the following design and performance criteria: 8.E.2.a. The movable lift unit shall not be required to recess, or park, in only one "pocketed" location, providing increased productivity in servicing fleet vehicles of varying wheelbases. 8.E.2.b. The movable lifting unit may be recessed below finished floor at any position between the minimum and maximum dimensions of the travel range. 8.E.2.c. The lift unit shall be capable of fore and aft travel while recessed below floor. 8.E.3. Maximum depth below finished floor for the continuous recess insert, shall be 34 inches (864 mm) 8.E.4. The steel box insert shall have an open floor design, mounted off the concrete floor of the trench to allow for the collection, cleaning and drainage of all liquids and solids that accumulate in the trench. 8.E.5. The continuous recess shall have structurally shaped inter-locking extrusions that form a continuous movable cover that conveys along a top and bottom track and remains in the recess. These covers shall provide continuous closure over the trench as the carriage unit moves fore and aft. Flat plates that slide along the floor past the trench ends are not acceptable. 14400-33 8.E.6. The covers shall be anodized structural 6061 aluminum extrusions engineered to accept a 7500 pound (3402 kg) point load and shall be shaped to include a full-length interlocking hinge. Covers shall fit together tightly and uniformly to promote smooth and even travel and prevent jamming and twisting. Covers that have open gaps and are loosely fastened together by cotter pins or other fasteners will not be accepted. 8.E.7. The covers shall be extruded with an anti-skid surface. 8.E.8. For service and repair, the cover plates shall be removable by sliding the covers apart to provide quick and easy access to the trench. 8.E.9. The movable carriage lifting unit shall be positioned by a bi-directional hydraulic drive motor mounted on the carriage to position it fore and aft to match the wheelbase. 8.E.10. The travel frame shall have a machined UHMW cover guide block at each end that tapers and self-aligns the covers about the centerline of the lift unit as the covers travel in and out of the recess. 8.E.11. The movable carriage unit and the covers shall bear on and slide over low friction, low maintenance, low wearing Nylatron surfaces. Rollers and axles will not be accepted. 8.E.12. The powered carriage drive shall have rack and gear engagement on both the left and right sides for smooth and even fore-aft travel without binding. 8.E.13. The rack shall be inverted and positioned under the load channel of the insert where it is protected so as not to collect dirt, grease etc. 8.E.14. The hydraulic drive motor shall freewheel such that, if the unloaded lift unit accidentally gets bumped, it will move freely without breaking any chains, racks or gears. 8.E.15. The hydraulic drive motor shall have a pre-set pressure switch to prevent fore-aft movement of a loaded lift unit carriage. The pressure switch will also prevent overdriving of the motor once it reaches either end of the travel frame. 8.E.16. No chains, sprockets or point-loading tapered rollers to power the movable carriage will be accepted. 8.E.17. Access holes for PVC conduits and wall fastener locations shall be provided in the walls of the continuous recess insert. 8.E.18. All hydraulic and compressed air service lines shall be fed from the control console to the insert through one PVC conduit. 8.E.19. Hose connections shall be made at a single bracket with bulkhead fittings. The hydraulic and pneumatic service lines from the bulkhead to the carriage shall be pre-piped at the factory. 8.E.20. All low voltage and intrinsically safe electrical components shall be fed to/from the control console to the lifting units via a rigid conduit that meets local requirements. 8.E.21. The concrete containment shall either be drained to the oil/water separator, or be sloped to a sump. In the case of the latter, any fluids collected in the sump shall be automatically evacuated and pumped into a waste container or into the oil/water drainage system.

8.F. Fixed Lifts: 8.F.1. The stationary lift shall be of the same design and construction as the moveable lift unit. 8.F.2. The base of the fixed lift shall be installed 34 inches (964 mm) below finished floor. 8.F.3. 14400-34 The rear lift unit shall be drop-in, and bolted in-place with eight (8) 3/4 inches (19 mm) anchors.

8.G. Hydraulic Systems: 8.G.1. System shall be comprised of two (2) high pressure, low volume, double-acting 7 inches (178 mm) diameter cylinders, one at each lifting unit, operating at greater than 2500 psi (17237 kPa). 8.G.2. Combined, the two cylinders shall only require 7 gallons (26.5 L) of AW 32 hydraulic oil for lifting to full height. 8.G.3. Each cylinder shall have a hose break velocity fuse (safety check valve) integrally mounted to prevent excessive loss of fluid from the cylinder. 8.G.4. Each double acting cylinder shall have both power-up and power-down capability to ensure smooth and efficient ascent/descent. Lifts designed to operate with power up, gravity down are not acceptable. 8.G.5. There shall be two hoses to each cylinder, one each for extend and retract. 8.G.6. The hoses shall be of steel reinforced construction and have O-ring Face Seal fittings throughout. 8.G.7. The lift shall be driven by matched gear pumps of U.S.manufacturer, readily available as an off-the-shelf component. 8.G.8. The lift shall be able to be raised from the locked position, and lowered from any position by means of a manual hand pump and manual override valves located in the control console. 8.G.9. High pressure seals shall be internal to the cylinder where they are protected from salt, dirt, corrosives etc. Low pressure seals for cylinders operating at 550 psi or less, which are exposed and vulnerable, are not acceptable. 8.G.10. The power unit shall be equipped with a replaceable filter element mounted in the tank top. The element must be a super fine, high efficiency, high capacity micro glass element to provide maximum service life with consistent removal efficiency. 8.G.11. The hoses feeding the front movable lift carriage shall be supported and contained by a cable carrier to prevent the hoses from dragging or tangling. The cable carrier shall be aligned and mounted to the carriage to ensure smooth operation of the carriage through its fore/aft travel.

8.H. Control Systems: 8.H.1. The control system shall conform to all current NEC, UL 201 and OSHA codes. 8.H.2. The control system shall be PLC operated and continuously monitor all operating functions and safety systems of the lifting units and movable carriage. The control system shall utilize intrinsically safe components that constantly monitor the lift system to ensure synchronized and equalized operation. 8.H.3. Audio and visual feedback controls that communicate operating fault codes and lockouts to the operator shall be part of the control system. 8.H.4. The electrical enclosure for control components shall be NEMA 4X rated and have following controls mounted on the front cover: 8.H.4.a. Disconnect Switch, 3-phase. 14400-35 8.H.4.b. Power On-Off Switch. 8.H.4.c. Push/Turn E-Stop Button. 8.H.4.d. Push buttons for Lift Raise, Lower and Lock. 8.H.4.e. Power On and fault code indicator lamps. 8.H.4.f. Selector switch for synchronized, front, or rear lifting. 8.H.4.g. Push buttons for hydraulic movable carriage drive. 8.H.5. Hardwired, redundant Emergency E-Stop circuit that de-energizes the motor outputs shall be standard. 8.H.6. Multi-voltage 208/230/460 3 phase, 60 Hz TEFC 10 Hp motor of U.S.manufacture. 8.H.7. Control console shall be equipped with a main power disconnect switch which interrupts all incoming power. Main power disconnect shall be lock-out capable. 8.H.8. Control door access shall be restricted. 8.H.9. Console access panels shall be easy to remove and install. 8.H.10. Automatic Wheel Base Positioning shall be standard. 8.H.10.a. The control system shall be equipped with a programmable wheelbase positioning system. The system shall be capable of storing up to 16 different vehicle profiles. This positioning system will allow a user to select and position vehicles easier. 8.H.11. The control system shall prohibit horizontal movement of the moveable lifting assembly when the unit is raised 1" above finished floor. 8.H.12. The control system shall illuminate a blue light on the control panel when the lift has reached its fully retracted position (HOME). This light is an indicator that the lift stored and it is clear to move a vehicle into or out of a bay.

8.I. Safety Systems: 8.I.1. Each lifting unit shall be equipped with double lock jaw, gravity engaging mechanical locks with the first lock position at a minimum lock height of 14 inches (356 mm). 8.I.2. The mechanical locks shall be made of high strength T-1 steel 8.I.3. The control system shall monitor locks open. 8.I.4. Each lifting cylinder shall be equipped with a hydraulic velocity fuse to prevent excessive loss of fluid from the cylinder in the event of a hose failure. 8.I.5. All push buttons shall be of the momentary contact, dead man type. 8.I.6. The control systems and optional pendant shall be equipped with an emergency E-Stop button that de-energizes power to all outputs of the PLC. Re-activation of the control system requires resetting the E-stop the control system. 8.I.7. The control system shall be designed to prevent accidental use of the main operator controls when the pendant is connected. Any attempt to use main controls with pendant attached will result in an operator lock-out. 8.I.8. Control console shall monitor for low air to prevent operating the lift without sufficient air 14400-36 pressure to open locks.

8.J. Site Construction Requirements: 8.J.1. Lift pit shall not require a pit depth of more than 34 inches (864 mm). 8.J.2. No special rebar or elaborate pit construction shall be required (subject to soil conditions). Refer to manufacturer's Equipment Foundation Requirement drawings for concrete construction details. 8.J.3. An embedded nosing angle (supplied by others) is required around the top perimeter of the lift pits. 8.J.4. There shall be no embedded lift components in the lift pit. No lift components shall need to be shipped to the construction site until after the lift pit is constructed. 8.J.5. The lift shall be drop-in, bolt-in-place design and shall be fully removable by simply unbolting and disconnecting hydraulic lines. 8.J.6. Drains or a sump shall be provided to allow the lift pit to be washed down. 8.J.7. The containment pit floor shall be sloped to a gravity drain(s) or sump that will collect all fluids. If a sump is used, then a pump shall be provided and installed that will automatically evacuate all fluids collected in the sump and eject them into the trench drain or waste collection system. 8.J.8. There shall be no electrical motors mounted in the lift pits. 8.J.9. Hydraulic hose from the console to lift shall be installed in PVC conduit to allow easy removal or replacement. 8.J.10. The control console can be located anywhere within line of sight on either the left or right side of the lift. 8.J.11. The lift components, lift base inserts and coverplates shall be flush with the finished floor when fully retracted.

8.K. Adapters: 8.K.1. The lift superstructure shall include both flip-up adapters and single pin, stackable axle engaging height extensions as standard equipment. 8.K.2. Flip-up adapters shall be built into the carriage and it shall not be necessary to use additional pinned, stackable adapters for axle engagement unless the axle is obstructed by leaf springs, steering components or accessory equipment. 8.K.3. It shall not be necessary to remove the flip-up adapters in order to use the protective cover plates over exposed floor openings (for OSHA compliance). 8.K.4. The accessory height extensions shall be constructed of lightweight machined aluminum to allow for easy placement and removal while under the vehicle. Stackable height adapters shall be anodized for resistance to corrosion and electrolysis. 8.K.5. On low profile vehicles, axles engagement shall be accomplished through the permanently attached folding adapters which can raise the vehicle in the lowered or raised position 8.K.6. The base adapter shall be infinitely adjustable within the carriage. Each base adapter shall have an adjustable range of 11.5 inches (292 mm) for a total range of adjustment of 23 inches (584 mm) per carriage. 14400-37 8.K.7. The carriage shall allow for a narrow setting of 7.5 inches (190 mm) for raising vehicles with sway bars, plow frames and other undercarriage adjustments. The maximum adjustment setting of adapters shall be 52 inches (1321 mm). It shall not be necessary to remove adapters to adjust the lifting points by more than 11.5 inches (292 mm) per adapter. 8.K.8. Stackable adapters shall pivot 360 degrees to permit the cradling of vehicle axles or frames either latitudinal or longitudinal. Lifting saddles shall be capable of trapping either the axle or the longitudinal frame members of the vehicle in accordance with the vehicle manufacturer's lifting requirements. 8.K.9. Removal of the base adapters can be accomplished by removing the stop bolt and sliding adapter off bolster. 8.K.10. Base adapter shall be restrained to prevent over extension.

8.L. Optional Pendant Controls: 8.L.1. Provide an ergonomic industrial pendant, rated and Certified as Explosion Proof for use in NEC Class 1, Div 2, hazardous locations, 0 inches (0 mm) to 18 inches (457 mm) Above Finished Floor. 8.L.2. Pendant shall be constructed of a lightweight, double insulated thermoplastic with NEMA 4 rated industrial push buttons 8.L.3. Pendant shall be connected to the control console through a multi-conductor, SO cable, military-style DIN connector and wired though intrinsically safe explosion proof barrier protection. 8.L.4. Pendant shall allow operator full function control of the lift, with the following: 8.L.4.a. Push/Pull E-Stop Button 8.L.4.b. Push buttons for Lift Raise, Lower and Lock 8.L.4.c. Selector switch for Synchronized, Front, or Rear lifting 8.L.4.d. Push buttons for fore and aft movable carriage drive 8.L.5. The control system and optional pendant shall be equipped with an emergency E-Stop button that de-energizes power to all outputs of the PLC. Re-activation of the control system requires resetting the E-stop and re-setting the control system. 8.L.6. The control system shall be designed to prevent accidental use of the main operator controls when the pendant is connected. Any attempt to use main controls with pendant attached will result in an operator lock-out.

8.M. Optional Precast Concrete Vaults: 8.M.1. Concrete: 8.M.1.a. Compressive Strength: Minimum 5,000 psi (34474 kPa). 8.M.1.b. Cement: 650 pounds (295 kg). 8.M.1.c. Aggregate Size: 3/4 inch (19 mm). 8.M.1.d. Water to Cement Ratio: 0.45. 8.M.1.e. 14400-38 Air Content: 5 percent. 8.M.2. Reinforcing: A614 Grade 80. 8.M.3. Cementitious Crystalline Waterproofing: Xypex Admix C-1000. 8.M.4. Solvent Free Waterproofing Membrane: ConSeal CS-1800. 8.M.5. Liner Coating: Tnemec Tneme-Liner Series 61, Cycloaliphatic Amine Epoxy. 8.M.6. Fuel and Oil Resistant Sealant: ConSeal CS-440. 8.M.7. Controlled Expansion Waterstop Sealant: ConSeal CS-231. 8.M.8. Duct Terminator: Pennsylvania Insert Corporation, 4 inch Terminator. 8.M.9. Threaded Inserts: Patterson Ferrule Inserts. 8.M.10. Base Slab Lift Hook: Conac 6CA18: 0.71 inch (18 mm). 8.M.11. Riser Section Lift Hook: Conac 6CA18: 0.71 inch (18 mm). 8.M.12. Adjustable Unit: 8.M.12.a. Length: 204 inches (5182 mm). 8.M.12.b. Length: 228 inches (5791 mm). 8.M.12.c. Length: 264 inches (6706 mm. 8.M.12.d. Length: 312 inches (7925 mm). 8.M.12.e. Width: 62 inches (1575 mm). 8.M.12.f. Height: 34 inches (864 mm). 8.M.12.g. Wall Thickness: 6 inches (152 mm). 8.M.13. Stationary Unit: 8.M.13.a. Length: 68 inches (1727 mm). 8.M.13.b. Width: 64 inches (1626 mm). 8.M.13.c. Height: 34 inches (864 mm). 8.M.13.d. End Wall Thickness: 4 inches (102 mm). 8.M.13.e. Side Wall Thickness: 8 inches (203 mm).

2.9 30,000 LB. FOUR POST SURFACE MOUNTED DRIVE ON GENERAL SERVICE LIFTS SM30S/SM30L/SM30EL SERIES

9.A. Capacity: 30,000 lb (13600 kg); 15,000 lb (6804 kg) per runway.

9.B. SM30S/SM30L/SM30EL Series Single Point Manual Controls - Pneumatic 100 psi - 120 psi Air Required, Lock Release Electric Power Unit, UL201 Compliant, Over Hydraulic Cylinder Drive: All models bio-fluid compatible. 9.B.1. 14400-39 4hp 208-230V 1 phase Motor 60Hz. 9.B.2. 4hp 208-480V 3 phase Motor 50/60Hz. 9.B.3. 4hp 575V 3 phase Motor 60Hz.

9.C. Minimum Bay Requirements: 9.C.1. SM30S: Floor space 16 feet x 30 feet (4877mm x 9144 mm). 9.C.2. SM30L: Floor space 16 feet x 33 feet (4877mm x 10059 mm). 9.C.3. SM30EL: Floor space 16 feet x 36 feet (4877mm x 10973 mm). 9.C.4. Floor slab concrete 3000 psi - 4-1/4 inch (108 mm) minimum; 5 inch - 6 inch (127 mm - 152 mm).

9.D. Rise: 68 inches (1727 mm) from floor to top of runway.

9.E. Overall Length: 9.E.1. SM30S: 25 feet 8-1/8 inches (9677 mm). 9.E.2. SM30L: 28 feet 8-1/8 inches (10592 mm). 9.E.3. SM30EL: 31 feet 8-1/8 inches (11506 mm).

9.F. Overall Width: 12 feet 4-13/16 inches (4877 mm).

9.G. Inside of Columns: 132 inches (3353 mm).

9.H. Between Front and Rear Columns: 9.H.1. SM30S: 249 inches (6325 mm). 9.H.2. SM30L: 285 inches (7239 mm). 9.H.3. SM30EL: 321 inches (8153 mm).

9.I. Height of Columns: 7 feet 3/4 inch (4039 mm).

9.J. Width of Runways: 24 inches (610 mm).

9.K. Height of Runways: 8-3/8 inches (213 mm).

9.L. Width Between Runways: 41 inches to 48 inches (1041 mm to 1219 mm).

9.M. Maximum Wheelbase: 9.M.1. SM30S: 235 inches (5969 mm). 9.M.2. SM30L: 271 inches (6883 mm). 14400-40 9.M.3. SM30EL: 307 inches (7798 mm).

9.N. Finishes: 9.N.1. Blue, Standard RAL5005. 9.N.2. Red, RAL3002. 9.N.3. Yellow, RAL1023. 9.N.4. Gray, RAL7040. 9.N.5. Black, RAL9005.

9.O. Optional Accessories: 9.O.1. FC5710: Rolling Jacks 15,000 LB (6804 kg) capacity (each) 100 psi minimum - 120 psi maximum required. 9.O.2. Internal Air Line Kit 100 psi minimum - 120 psi maximum required. 9.O.3. Four-Wheel Alignment Kit. 9.O.4. Oil Drain Pan. 9.O.5. Air/Electric Utility Box. 9.O.6. Ramp Kits for drive-thru bays two each extended length available. 9.O.7. Removable Work Steps.

9.P. Lift shall be 3rd party certified by ETL testing laboratory and labeled with the ETL/Automotive Lift Institute (ALI) label that affirms the lifts meet conformance to all applicable provisions of American National Standard ANSI/ALI ALCTV and in compliance with IBC chapter 30 section 3001.2.

2.10 FOUR POST RUNWAY/PLATFORM VEHICLE LIFTS

10.A. Lift Characteristics/Construction Features: 10.A.1. Lifting Units: Lift shall consist of four individual column style lifting assemblies connected to two runways/platforms. Lifting assemblies/columns shall be anchored to the ground and lift directly without the use of cables, chains, or mechanical screws. Hydraulic cylinders should NOT expose the cylinder rod during movement to decrease the chances for damage. 10.A.2. Lifting Capacity: 39,500 lbs. (17,917 kg). 10.A.3. Lifting Capacity: 50,000 lbs. (22680 kg). 10.A.4. Lifting Capacity: 60,000 lbs. (27216 kg). 10.A.5. Lifting Speed: 78 seconds, decent 54 seconds 10.A.6. Motor Rating: 4 HP or 3 kW (DC) per column lifting assembly. 10.A.7.

14400-41 Voltage Rating: 110 VAC for Charging 12 VDC batteries. 10.A.8. Synchronization: Using hydraulic valves, string potentiometers, and microprocessor controllers at individual column assemblies. 10.A.9. Controls: Controls can be operated at any column lifting assembly. 10.A.10. Runway width: 28 inches (711 mm) 10.A.11. Clearance between posts: 144 inches in (3658 mm) 10.A.12. Lifting Height (including runway): 78 in (1981 mm) 10.A.13. Runway/Platform Length: 28 ft and 33 ft available. 10.A.14. Anchoring system: (12) 3/4 inch x 5 inch wedge style anchors. One anchor minimum per column. 10.A.15. Mechanical Locking System: Multi-position every 3 inches with lower to lock button. Locking system is automatically activated during raising operation. 10.A.16. Mechanical Safety Release: Single point release is activated at any column with down button to release all columns. 10.A.17. Wheel Chocks: Standard equipment to arrest movement of a vehicle during lift movement. 10.A.18. Runway/Platform construction shall be of I beam and steel plate construction sufficient for vehicle weight and ANSI ALCTV standard. 10.A.19. The lift system shall incorporate splash proof electrical and communication systems (IP65) so the lift can be used in a wet environment or outside. 10.A.20. The lift shall incorporate a totally independent locking system from the lifting drive.

10.B. Controls: 10.B.1. The lift operating system shall have a microprocessor-incorporated controls integrated within the printed circuit board to provide operation and safety monitoring. 10.B.2. Control voltage and communication voltage shall be a maximum of 24VDC internally and between columns (externally). 10.B.3. Each control box at each column assembly shall have the following controls: 10.B.3.a. Lockable column power disconnect. 10.B.3.b. A battery indicator. 10.B.3.c. An "up" button 10.B.3.d. A "down" button 10.B.3.e. A "lower to lock" button 10.B.3.f. A graphical display representing the vehicle and the column position. 10.B.3.g. Columns should remember their position, even after turning the power off, to increase speed of set up and operation. 10.B.3.h. An optional light activation button. 14400-42 10.B.3.i. Control panel shall be IP65 rated. 10.B.3.j. Audible descent alarm can be turned on or off.

10.C. Drive Mechanism: 10.C.1. Hydraulic lifting cylinders shall be piston style. The cylinders shall be "inverted" to protect the cylinder rod during lift movement. Exposed rods, even chrome or hardened, can be damaged by shop debris or vehicle repair. A piston shall be mounted one in each column lift assembly. 10.C.2. Each cylinder shall be equipped with safety devices to prevent descent in the event of a major fluid leak. 10.C.3. The lift system shall be driven by a hydraulic gear pump, mounted inside of each column lift assembly. It shall be sized to generate the proper pressure and GPM for the capacity of the lift and ANSI ALCTV standard.

10.D. Optional Accessories: 10.D.1. Lighting - Lighting available for each column lifting assembly. 10.D.2. Pressure gauges - Determine approximate weight of lifting assembly with vehicle. 10.D.3. Rolling Bridges - for wheels free ability. 10.D.4. Wireless upgradable - remove communication cables. 10.D.5. Mobility kit - to allow column lifting assemblies to become totally portable. 10.D.6. Double Lift Controls - run two 4 posts at the same time

10.E. Runway length for vehicles ranging in wheel bases: 10.E.1. From _____ inches minimum to _____ inches maximum.

10.F. Lift shall be 3rd party certified by ETL testing laboratory and labeled with the ETL/Automotive Lift Institute (ALI) label that affirms the lifts meet conformance to all applicable provisions of American National Standard ANSI/ALI ALCTV and in compliance with IBC chapter 30 section 3001.2.

2.11 VERTICAL RISE PLATFORM LIFTS

11.A. Model VR44 Series as manufactured by Rotary Lift: 11.A.1. VR4428 44,000lbs (19958kg) capacity 28 foot (8534mm) runway length. 2 foot (610mm) extensions can be added to increase runway length. Two extensions maximum one set at each end. 2 foot (610mm) extensions are only available for 28 foot (8534mm) runways. 11.A.2. VR4432 44,000lbs (19958kg) lifting capacity 32 foot (9754mm) runway length. 11.A.3. VR4436 44,000lbs (19958kg) lifting capacity 36 foot (10973mm) runway length. 11.A.4. VR4448 44,000lbs (19958kg) lifting capacity 48 foot (14630mm) runway length.

14400-43 11.B. Model VR64 Series as manufactured by Rotary Lift: 11.B.1. VR6428 64,000lbs (29,030kg) capacity 28 foot (8534mm) runway length. 2 foot (610mm) extensions can be added to increase runway length. Two extensions maximum one at each set at each end. 2 foot (610mm) extensions are only available for 28 foot (8534mm) runways. 11.B.2. VR6432 64,000lbs (29,030kg) lifting capacity 32 foot (9754mm) runway length. 11.B.3. VR6436 64,000lbs (29,030kg) lifting capacity 36 foot (10973mm) runway length. 11.B.4. VR6448 64,000lbs (29,030kg) lifting capacity 48 foot (14630mm) runway length.

11.C. Model VR80 Series as manufactured by Rotary Lift: 11.C.1. VR8028 80,000lbs (36,287kg) capacity 28 foot (8534mm) runway length. 2 foot (610mm) extensions can be added to increase runway length. Two extensions maximum one at each set at each end. 2 foot (610mm) extensions are only available for 28 foot (8534mm) runways. 11.C.2. VR8032 80,000lbs (36,287kg) lifting capacity 32 foot (9754mm) runway length. 11.C.3. VR8048 80,000lbs (36,287kg) lifting capacity 48 foot (14630mm) runway length.

11.D. Lifting Height: The lift shall have a minimum lifting height of 77-3/4 inches (1975mm) from the bottom of the lifting legs to the top of the runways at full extension. 11.D.1. Width of the platforms for all models shall be 32 inches (813mm). 11.D.2. The lowered height shall be a maximum of 16.5 inches (419mm) 11.D.3. Concrete thickness shall be a minimum of 6 inches (152mm). 11.D.4. Installation shall be accommodated by 4 lifting leg plates with 4 anchor bolts per plate. Total installation shall not require more than 16 anchor bolts for anchorage to the floor.

11.E. Design: 11.E.1. A vertical rise heavy-duty platform lift to raise large trucks, buses, and other heavy-duty vehicles for inspection, maintenance, servicing and cleaning. Lift shall rise in a vertical fashion. 11.E.2. The lift system shall be capable of being surface mounted or flush mounted recessed as indicated on the drawings. 11.E.3. The lift system shall be totally open floor design with no obstructions between lifting platforms and no crossbeams either in the front or the rear of the platforms. 11.E.4. Lift system shall incorporate a hydraulic driven cylinder in each lifting leg assembly. 11.E.5. The maximum lifting height of the lift system shall be programmable. 11.E.6. Lift platforms shall be painted with a 2 step covering system to provide maximum wear for normal and for wash bay applications. The covering system must have a zinc primer and epoxy component with a textured finish.

11.F. Drive Mechanism: 14400-44 11.F.1. The drive system shall be hydraulic drive and shall permit lifting without any pulsations, jerks or unsteady lifting. Lifting shall be smooth. Hydraulic system shall be comprised of an electrically powered pump, flow control valves, and a fluid reservoir. 11.F.2. Hydraulic lifting cylinders shall be of a piston type to prevent leakage in the case of piston damage. 11.F.3. All rotating axles shall be hardened for long life and wear

11.G. Controls: 11.G.1. The lift operating system shall have microprocessor controls within the printed circuit board to provide various safety and operational requirements. 11.G.2. The lift system shall have control voltage rated to a maximum of 24 VDC. 11.G.3. Each control box shall have as a minimum: 11.G.4. System disconnect. 11.G.5. "Power-on" pilot lamp. 11.G.6. An "up" button. 11.G.7. A "down" button. 11.G.8. A "lower to lock" button. 11.G.9. Provide optional lighting switch. 11.G.10. Provide optional height limit switch. 11.G.11. The lift, when fitted with the proper electrical motor, shall operate at the following voltages: 208/230V (3 phase), 460V (3 phase), 575V (3 phase) 11.G.12. Control panel shall be rated IP65 or better.

11.H. Safety Devices: 11.H.1. An independent and fail-safe mechanical safety device shall be present on each lifting leg system. This safety device shall be totally independent from the lifting drive system. A locking catch shall be free to engage the teeth of the locking strip attached to the lifting leg system. 11.H.2. Each lifting mechanism shall be provided with a position measuring device internal to each lifting cylinder whose function it is to analyze and synchronize the height of the 4 lifting mechanisms. Incorporating the measuring device internal to the cylinder protects the device from the harsh shop environment and isolates it from changes in the lifting mechanism. 11.H.3. The lift system shall incorporate a splash proof electrical system (IP 65) so that the lift can be used in a washroom environment without damage to electrical components. 11.H.4. The lift system shall have an automatic foot-guard protection. 11.H.5. Locking mechanism shall be activated before the runways leave the recessed pit or approximately 25" of runway height. Any locking operation below this height is allowed but not required by the ANSI ALCTV standard.

14400-45 11.I. Optional Accessories: 11.I.1. LED lighting system installed on the inside faces of the platforms to illuminate the work area when the vehicle is raised above 18" (457mm). The LED lighting shall be 24V, and rated IP 65. The lighting height must be programmable 11.I.2. Built-In Air Line Kit 100 psi minimum - 120 psi maximum required. 11.I.3. Safety Edges - Inside, outside or both sides. 11.I.4. Ramp Kits for drive-thru bays two each extended length available. 11.I.5. VR44 Series Rolling Bridges double piston with a total capacity of up to 44,000 lbs. (two 22,000 lbs. bridges). Air requirements 100psi (690kPa) minimum 120 psi (827kPa) maximum. 11.I.6. VR64 Series Rolling Bridges double piston with a total capacity of up to 58,000 lbs. maximum (two 22,000 lbs. or one 22,000 lbs. and one 36,000 lbs. bridge). Air requirements 100psi (690kPa) minimum 120 psi (827kPa) maximum. 11.I.7. VR80 Series Rolling Bridges double piston with a total capacity of up to 72,000 lbs. (two 36,000 lbs. or one 36,000 lbs. and one 22,000 lbs. bridge). Air requirements 100psi (690kPa) minimum 120 psi (827kPa) maximum. 11.I.8. Remote Operating Panel in Stainless Steel for maximum protection and wall mounting control option in washbays.

2.12 HEAVY DUTY 75,000 LB THREE POST-ADJUSTABLE, AXLE ENGAGING (CONTINUOUS TRENCH DESIGN)

12.A. Model: 703Q as manufactured by Rotary Lift.

12.B. Lift Characteristics: 12.B.1. Lift shall consist of three individual lifting assemblies in line with the longitudinal axis of the vehicle, each lifting cylinder equipped to engage the axle, suspension, as specified herein. Two of the three lifting cylinder assemblies will be movable along this same axis to effect variable spacing between the lifting cylinder assemblies. The front movable unit will herein after be referred to as the "front post" and the second movable post shall be called the "middle post" and the rear stationary post will be called the "rear post". 12.B.2. The lift shall comply with the requirements of ANSI standard B153.1. "Safety Requirements for the Construction, Care and Use of Automotive Lifts," as published by the American national Standards Institute. The lift company's Quality Management System shall be ISO9001 certified.

12.C. Capacity and Dimensions: 12.C.1. Capacity: Electric-oil, full hydraulic type. Lift shall be capable of raising 75,000 lbs. (34,019 kg), (25,000 lbs. (11,340 kg) per post, front, middle and rear) when supplied with a sufficient amount of oil at 350 psi (2413 kPa) minimum.

12.D. Wheel Base Adjustment: 12.D.1. Front post shall be movable to provide proper engagement with vehicles ranging in wheel bases, (front to middle) from_____ minimum to_____ maximum. (Middle to Rear,

14400-46 minimum to maximum). 12.D.1.a. Wheelbase Adjustment: Adjustment shall be accomplished by a hydraulically operated motor and chain drive assembly mounted at the front of the lift pit. Control shall be by a lever located in the control box. A four-way directional control valve to provide forward/rearward positioning with spring return to neutral position. Hydraulic drive motor to be rated at a minimum of 376 in-lbs (42 joule).

12.E. Adapter Adjustment: 12.E.1. Adapters shall be adjustable so that they will provide a maximum spread and retract to the following dimensions. 12.E.1.a. Front & Rear Adapter: 57-3/4 inches (1467 mm) maximum, 40-1/4 inches (1022 mm) minimum adjustment. (FD2200) 12.E.1.b. Middle Adapter: 24-3/4 inches (629 mm) minimum, 39-3/4 inches (1010 mm) maximum adjustment. (FD2210)

12.F. Electric / Hydraulic In Pit Power Unit: Rotary Model No. P848. 12.F.1. Capacity and Dimensions: 12.F.1.a. Motor: 10 HP (7460 W). Explosion Proof. 12.F.1.b. Pumps: (3) - 17 GPM (64 LPM). 12.F.1.c. Hydraulic fluid displacement: 85 gallons (322 L). 12.F.1.d. Overall dimensions: 32-1/4 inches (819 mm) Width, X 15-7/16 inches (392 mm) Depth, X 47-15/16 inches (1218 mm) Height. 12.F.2. Features and Construction: 12.F.2.a. Configuration: Unit shall consist of geared pumps and a common motor assembly, complete with relief valves, and check valves mounted on an appropriately sized hydraulic fluid reservoir. All components shall be factory assembled and tested. The power unit shall be designed for installation in the lift pit intermediate area. The motor shall be explosion proof and be direct coupled to the pumps with a common shaft/coupling arrangement. 12.F.2.b. Operation: The pumps shall provide hydraulic pressure through ball valve actuator controlled valving to raise or lower any combination of the jacking units within the lift system simultaneously synchronized to within plus or minus one inch of each other throughout their full stroke. Equalization of rate of lifting or lowering of jacking units shall be automatically controlled by the pumps and actual or arrangement so that the operator will not be required to make any adjustments during operation. The pumps shall also provide power for the hydraulic motor in the moving device for the movable jacking unit within the lifting system. 12.F.2.c. Magnetic Motor Starter: A full voltage, 3 pole, reversing magnetic type for 3 phase, 60 cycle motor control with manual reset and "UP / DOWN / STOP" push-buttons in cover. NEMA 1 Enclosure, for wall mounting.

12.G. Rise And Diameter: 12.G.1. Front and Rear Movable Post: 12.G.1.a. Rise: 66 inches (1676 mm) to top of jack assembly. 14400-47 12.G.1.b. Diameter: 10 5/8 inches (270 mm). 12.G.2. Middle Stationary Post: 12.G.2.a. Rise: 69 inches (1753 mm) to top of jack assembly. 12.G.2.b. Diameter: 10 5/8 inches (270 mm).

12.H. Design Requirements: 12.H.1. All Lifting Unit: 12.H.1.a. Front, Middle and Rear Post (plunger and casing assembly) shall be equipped with a manual air bleeder located on the casing flange, a control orifice in the oil inlet connection to insure controlled speeds during up and down cycles, and a one piece combination packing and wiper hydra-seal assembly, not requiring adjustment or lubrication. Seal assembly shall be designed for surface installation. The jack plunger shall be manufactured of steel pipe, finished to 10 5/8 inches (270 mm) diameter and polished over its entire surface, with stops electrically welded to the bottom of the plunger to prevent it from leaving the casing. The plunger shall be removable for inspection and/or replacement. The outer casing shall be steel pipe with welded in bulkhead and flanges. The jack assembly shall have a removable plunger guide with two replaceable bearing liners. The bearing liners shall be made of UHMWPE and shall be designed to snap in position at the top and bottom of the guide. The bearing liner shall provide minimum plunger to bearing friction for smooth operation and the bearings spaced to insure maximum rigidity and support for design loads. Jacking units shall be factory tested under a working pressure of 400 psi (2758 kPa) to insure adequate strength and freedom from leaking. 12.H.1.b. Movable Post (Carriage and Trench): The carriage which supports the movable post shall be equipped with permanent lubricated bearing wheels rolling in structural channel tracks. The channel tracks will be essentially flush with the floor surface. Cover plates shall move with the carriage to keep the trench opening covered at all times. Cover plates will be of sufficient strength as to support a wheel loading of one quarter of the design capacity without permanent deformation. 12.H.2. Controls: 12.H.2.a. The hydraulic control valve shall be of composite design providing individual control of front, middle and rear posts as well as operation in the synchronized mode. The valve will be located in a suitable remote control box which shall be mounted as specified in facility layout drawings. The operating controls shall be surface mounted to provide operation without opening a cover plate or door and suitably protected against accidental drive over of a capacity size vehicle. Control valves shall be "deadman" type. 12.H.3. Lift Locks: 12.H.3.a. Front, middle and rear legs shall be rated at same capacity as the corresponding jacking units. The legs shall be of the telescoping type and constructed of 3 inches x 4 inches (76 mm x 102 mm) rectangular tubing and a minimum wall thickness of 3/16 inch (4.8 mm) to prevent strut rotation out of alignment with locking latch. 12.H.3.b. Round notched struts are not acceptable. Each strut shall have a 1/2 inch (13 mm) steel plate welded to it with a minimum of 18 locking slots spaced at 3 inches increments. The locking latches shall be spring loaded to the locked position and shall be released at the control location. The lift locking leg shall be attached to the saddle to prevent rotation insuring proper location of releases at all times. 14400-48 12.I. All plumbing components shall be supplied by the installing contractor.

2.13 HEAVY DUTY 50,000 LB TWO POST-ADJUSTABLE AXLE (CONTINUOUS TRENCH DESIGN)

13.A. Model: 70Q as manufactured by Rotary Lift.

13.B. General Description: 13.B.1. Lift shall consist of two individual lifting assemblies in line with the longitudinal axis of the vehicle, each lifting cylinder equipped to engage the axle, suspension, as specified herein. One of the two lifting cylinder assemblies will be movable along this same axis to effect variable spacing between the lifting cylinder assemblies. The front movable unit will herein after be referred to as the "front post" and the stationary unit will be called the "rear post." 13.B.2. The lift shall comply with the requirements of ANSI standard B153.1. "Safety Requirements for the Construction, Care and Use of Automotive Lifts," as published by the American national Standards Institute. The lift manufacturer's Quality Management System shall be ISO9001 certified.

13.C. Capacity and Dimensions: 13.C.1. Capacity: Electric-oil, full hydraulic type. Lift shall be capable of raising 50,000 lbs (22,680 kPa), 25,000 lbs. (11,340 kg) front post, and (25,000 lbs (11,340 kg) rear post when supplied with a sufficient amount of oil at 350 psi. minimum.

13.D. Wheel Base Adjustment: 13.D.1. Front post shall be movable to provide proper engagement with vehicles ranging in wheel bases from minimum to maximum. 13.D.1.a. Hydraulic Drive: Adjustment accomplished by a hydraulically operated motor and chain drive assembly mounted at the front of the lift pit. Control shall be by a lever located in the control box. A four-way directional control valve to provide forward/rearward positioning with spring return to neutral position. Hydraulic drive motor to be rated at minimum of 376 in-lbs (42 joule).

13.E. Adapter Adjustment: 13.E.1. Adapters shall be adjustable so that they will provide a maximum spread and retract to the following dimensions. 13.E.1.a. Front Adapter - 57-3/4 inches (1467 mm) maximum, 40-1/4 inches (1022 mm) minimum adjustment. 13.E.1.b. Rear Adapter - 24-3/4 inches (629 mm) minimum, 39-3/4 inches (1010 mm) maximum adjustment.

13.F. Electric / Hydraulic In Pit Power Unit: 13.F.1. Design Requirements: The power unit shall mount below floor level in the lift continuous trench and installed in accordance with the lift manufacturer recommended installation instructions. 13.F.2. Power Unit Model P841 14400-49 13.F.3. Capacity and Dimensions: 13.F.3.a. Motor: 10 HP (7460 W). Explosion Proof. 13.F.3.b. Pumps: (2) - 20 GPM 13.F.3.c. Hydraulic fluid displacement: 85 gallons (322 L). 13.F.3.d. Overall dimensions: 32-1/4 inches (819 mm) Width, X 15-7/16 inches (392 mm) Depth, X 47-15/16 inches (1218 mm) Height. 13.F.4. Features and Construction: 13.F.4.a. Configuration: Unit shall consist of geared pumps and a common motor assembly, complete with relief valves, and check valves mounted on an appropriately sized hydraulic fluid reservoir. All components shall be factory assembled and tested. The power unit shall be designed for installation in the lift pit intermediate area. The motor shall be explosion proof and be direct coupled to the pumps with a common shaft/coupling arrangement. 13.F.4.b. Operation: The pumps shall provide hydraulic pressure through ball valve actuator controlled valving to raise or lower any combination of the jacking units within the lift system simultaneously synchronized to within plus or minus one inch of each other throughout their full stroke. Equalization of rate of lifting or lowering of jacking units shall be automatically controlled by the pumps and actual or arrangement so that the operator will not be required to make any adjustments during operation. The pumps shall also provide power for the hydraulic motor in the moving device for the movable jacking unit within the lifting system. 13.F.4.c. Magnetic Motor Starter: A full voltage, 3 pole, reversing magnetic type for 3 phase, 60 cycle motor control with manual reset and "UP / DOWN / STOP" push-buttons in cover. NEMA 1 Enclosure, for wall mounting.

13.G. Rise And Diameter: 13.G.1. Front Post: 13.G.1.a. Rise: 66 inches (1676 mm) to top of jack assembly. 13.G.1.b. Diameter: 10 5/8 inches (270 mm). 13.G.2. Rear Post: 13.G.2.a. Rise: 69 inches (1753 mm) to top of jack assembly. 13.G.2.b. Diameter: 10 5/8 inches (270 mm).

13.H. Design Requirements: 13.H.1. Front Lifting Unit: 13.H.1.a. Saddle and Adapters: Saddle and adapters shall be so designed to provide width (spread) adjustment without necessity of operator bodily getting under vehicle. Use of extension handles is acceptable if use does not require undue agility or manipulation. Adapter will be restrained to prevent accidental excessive extension. When front post is in the fully lowered position the highest point of the saddle and adapter assembly shall not be more than 6 inches (152 mm) above the frame guide bars not included for use when additional saddle to vehicle clearance is required (and shall not drag on the floor when post is moved from wheel base 14400-50 adjustment). 13.H.1.b. Front Post (plunger and casing Assembly): Front post shall be equipped with a manual air bleeder located on the casing flange, a control orifice in the oil inlet connection to insure controlled speeds during up and down cycles, and a one piece combination packing and wiper hydra-seal assembly, not requiring adjustment or lubrication. Seal assembly shall be designed for surface installation. The jack plunger shall be manufactured of steel pipe, finished to 10-5/8 inches (270 mm) diameter and polished over its entire surface, with stops electrically welded to the bottom of the plunger to prevent it from leaving the casing. The plunger shall be removable for inspection and/or replacement. The outer casing shall be steel pipe with welded in bulkhead and flanges. The jack assembly shall have a removable plunger guide with two replaceable bearing liners. The bearing liners shall be made of UHMWPE and shall be designed to snap in position at the top and bottom of the guide. The bearing liner shall provide minimum plunger to bearing friction for smooth operation and the bearings spaced to insure maximum rigidity and support for design loads. Jacking units shall be factory tested under a working pressure of 400 psi (2758 kPa) to insure adequate strength and freedom from leaking. 13.H.1.c. Front Post (Carriage and Trench): The carriage which supports the front post shall be equipped with permanent lubricated bearing wheels rolling in structural channel tracks. The channel tracks will be essentially flush with the floor surface. Cover plates shall move with the carriage so as to keep the trench opening covered at all times. Cover plates will be of sufficient strength as to support a wheel loading of one quarter of the design capacity without permanent deformation. 13.H.2. Rear Lifting Unit: 13.H.2.a. Saddle and Adapters: Design shall be such as to allow the saddle and the two removable adapters to recede beneath the floor level when in the lowered position. Hinged cover doors shall be provided to cover recess area when lift is not in use. 13.H.2.b. Rear Frame Unit: The frame will provide integral wheel chocks at floor level in order to accurately locate vehicle axles over the lifting saddle and adapters. The frame assembly shall also provide a recess beneath the floor for the rear saddle and standard adapters when the plunger is in the down position. 13.H.2.c. The rear post shall be suspended in a concrete vault. The rear vault shall be connected with the front trench to provide full access between the front and rear post. Removable cover plates for pit access will be provided and shall include recessed lifter handles. 13.H.3. Rear Casing and Plunger Assembly: The design requirements shall be the same as the front plunger and casing assembly. 13.H.4. Controls: 13.H.4.a. The hydraulic control valve will be of composite design providing individual control of front and rear posts as well as operation in the synchronized mode. The valve will be located in a suitable remote control box which shall be floor mounted as specified in facility layout drawings. 13.H.4.b. The operating controls shall be surface mounted to provide operation without opening a cover plate or door and suitably protected against damage by accidental drive over of a capacity size vehicle. Control valves shall be "deadman" type. 13.H.5. Lift Locks: 13.H.5.a. Front and rear locking legs shall be rated at same capacity as the corresponding jacking units. The legs shall be of the telescoping type and constructed of 3 inches x 4 inches (76 mm x 102 mm) rectangular tubing and a minimum wall thickness of 14400-51 3/16 inch (4.8 mm) to prevent strut rotation out of alignment with locking latch. 13.H.5.b. Round notched struts are not acceptable. Each strut shall have a 1/2 inch (13 mm) steel plate welded to it with a minimum of 18 locking slots spaced at 3 inches increments. The locking latches shall be spring loaded to the locked position and shall be released at the control location. The lift locking leg shall be attached to the saddle to prevent rotation insuring proper location of releases at all times. The locking leg shall prevent rotation of the piston assembly.

2.14 LIGHT DUTY 7,000 LB. CAPACITY ASYMMETRIC TWO POST SURFACE MOUNTED FRAME CONTACT LIFTS SPOA7-MP - SPOA7-MPSW SERIES

14.A. Capacity: 7,000 lbs. (3175 kg); 3500 lbs. (1588 kg) per pad.

14.B. Minimum Bay Requirements: 14.B.1. Floor space 12 feet x 24 feet (3658mm - 7315 (mm). 14.B.2. Floor slab concrete 3000 psi - 4-1/4 inch (108 mm) minimum; 5 inch - 6 inch (127 mm - 152 mm).

14.C. Ceiling Height Requirements: 14.C.1. SPOA7-MP: 11 feet 10-3/4 inches (3658 mm). 14.C.2. SPOA7-MP with extended cylinder: 12 feet 4-3/4 inches (3785 mm). 14.C.3. SPOA7-MPEH1 and SPOA7-MPSW Models: 13 feet (3962 mm). 14.C.4. SPOA7-MPEH2 and SPOA7-MPSW Models: 14 feet (4267 mm).

14.D. Height to Top of Overhead Bar: 14.D.1. SPOA7-MP: 11 feet 8-1/2 inches (3569 mm). 14.D.2. SPOA7-MPEH1 and SPOA7-MPSWEH1: 12 feet 8-1/2 inches (3874 mm). 14.D.3. SPOA7-MPEH2 and SPOA7-MPSWEH2: 13 feet -1/2 inches (4178 mm).

14.E. Floor To Overhead Switch Bar: 14.E.1. SPOA7-MP: 11 feet 2-3/4 inches (3423 mm). 14.E.2. SPOA7-MPEH1 and SPOA7-MPSWEH1 Models: 12 feet 2 inches (3708 mm). 14.E.3. SPOA7-MPEH2 and SPOA7-MPSWEH2 Models: 13 feet 2 inches (4013 mm).

14.F. Width Inside Columns: 107-1/4 inch (2724 mm).

14.G. Overall Width: 11 feet 5-3/8 inch (3489 mm).

14.H. Drive Through Clearance At Tires: 79 inches (2007 mm).

14.I. 14400-52 Rise: 14.I.1. SPOA7-MP: 74 inches (1880 mm) from floor level to top of adapter pad. 14.I.2. Extended Rise: 77 inches (1956 mm) from floor level to top of adapter pad.

14.J. Finishes (Excluding Arms) - All Arms Are Yellow: 14.J.1. Blue, Standard RAL5005. 14.J.2. Red, RAL3002. 14.J.3. Yellow, RAL1023. 14.J.4. Gray, RAL7040. 14.J.5. Black, RAL9005.

14.K. SPOA7-MP and SPOA7-MPSW Series Single Point Manual Controls - Manual Lock Release Electric Power Unit, UL201 Compliant, Over Hydraulic Cylinder Drive: All models bio-fluid compatible. 14.K.1. 2hp 208-230V 1 phase Motor 60Hz. 14.K.2. 2hp 208-230V 1 phase Motor 50Hz. 14.K.3. 4hp 208-480V 3 phase Motor 50/60Hz. 14.K.4. 4hp 575V 3 phase Motor 60Hz. 14.K.5. Shockwave Series DC Controls: System is operated by (2) group 24 car batteries charged by a 110-120V 60Hz, 3.15 amp charger. A separate circuit is not required for each Shockwave DC power unit system.

14.L. Arm Configurations: 14.L.1. Drive Over Pad With Adapters: Minimum Adapter Height 3 inches (76 mm) - Maximum Adapter Height 6 inches (152 mm) from floor.

14.M. Accessories: 14.M.1. Air/Electric Utility Box. 14.M.2. Tool Holder. 14.M.3. Door Defender. 14.M.4. Light Kit.

14.N. Lift shall be 3rd party certified by ETL testing laboratory and labeled with the ETL/Automotive Lift Institute (ALI) label that affirms the lifts meet conformance to all applicable provisions of American National Standard ANSI/ALI ALCTV and in compliance with IBC chapter 30 section 3001.2.

2.15 LIGHT DUTY 10,000 LB. CAPACITY ASYMMETRIC TWO POST SURFACE MOUNTED FRAME CONTACT LIFTS SPOA10

14400-53 15.A. Capacity: 10,000 lbs. (4536 kg); 2500 lbs. (1134 kg) per adapter.

15.B. Minimum Bay Requirements: 15.B.1. Floor space 12 feet x 24 feet (3658mm - 7315 mm). 15.B.2. Floor slab concrete 3000 psi - 4-1/4 inch (108 mm) minimum; 5 inch - 6 inch (127 mm - 152 mm).

15.C. Ceiling Height Requirements: 15.C.1. SPOA10: 12 feet (3658 mm). 15.C.2. SPOA10 with extended cylinder: 12 feet 5 inches (3785 mm). 15.C.3. SPOA10EH1: 13 feet (3962 mm). 15.C.4. SPOA10EH2: 14 feet (4267 mm).

15.D. Height to Top of Overhead Bar: 15.D.1. SPOA10: 11 feet 8 inches (3556 mm). 15.D.2. SPOA10EH1: 12 feet 8 inches (3861 mm). 15.D.3. SPOA10EH2: 13 feet 8 inches (4166 mm).

15.E. Floor To Overhead Switch Bar: 15.E.1. SPOA10: 11 feet 2 inches (3404 mm). 15.E.2. SPOA10EH1: 12 feet 2 inches (3708 mm). 15.E.3. SPOA10EH2: 13 feet 2 inches (4013 mm).

15.F. Width Inside Columns: 107-1/2 inch (2727 mm).

15.G. Overall Width: 11 feet-5-1/2 inch (3493 mm).

15.H. Drive Through Clearance At Tires: 95 inches (2413 mm).

15.I. Rise: 15.I.1. SPOA10 2-Stage Arm: 78 inches (1981 mm) from floor level to top of adapter fully extended. 15.I.2. Extended Rise Model 2-Stage Arm: 81 inches (2057 mm) from floor level to top of adapter fully extended. 15.I.3. SPOA10 3-Stage Arm: 73-7/8 inches (1876 mm) from floor level to top of adapter fully extended. 15.I.4. Extended Rise Model 3-Stage Arm: 76-7/8 inches (1953 mm) from floor level to top of adapter fully extended. 14400-54 15.J. Finishes (Excluding Arms) - All Arms Are Yellow: 15.J.1. Blue, Standard RAL5005. 15.J.2. Red, RAL3002. 15.J.3. Yellow, RAL1023. 15.J.4. Gray, RAL7040. 15.J.5. Black, RAL9005.

15.K. SPOA10 Series Single Point Manual Controls - Manual Lock Release Electric Power Unit, UL201 Compliant, Over Hydraulic Cylinder Drive: All models bio-fluid compatible. 15.K.1. 2hp 208-230V 1 phase Motor 60Hz. 15.K.2. 2hp 208-230V 1 phase Motor 50Hz. 15.K.3. 4hp 208-480V 3 phase Motor 50/60Hz. 15.K.4. 4hp 575V 3 phase Motor 60Hz. 15.K.5. Shockwave Series DC Controls: 15.K.5.a. System is operated by (2) group 24 car batteries charged by a 110-120V 60Hz, 3.15 amp charger. A separate circuit is not required for each Shockwave DC power unit system.

15.L. Arm Configurations: 15.L.1. 2-Stage Arms With Flip Up Adapters: 15.L.1.a. Front Arm: Minimum Reach 20-1/2 inches (521 mm) - Maximum Reach 40-3/4 inches (1035 mm) Minimum Adapter Height 4-3/4 inches (121 mm) - Maximum Adapter Height 10-1/4 inches (260 mm) from floor. 15.L.1.b. Rear Arm: Minimum Reach 40-1/4 inches (1019 mm) - Maximum Reach 61 inches (1548 mm) Minimum Adapter Height 4-3/4 inches (121 mm) - Maximum Adapter Height 10-1/4 inches (260 mm) from floor. 15.L.2. TRIO With RA Adapters: 15.L.2.a. Front Arm: Minimum Reach 20-1/2 inches (521 mm) - Maximum Reach 40-7/8 inches (1038 mm) Minimum Adapter Height 4 inches (102 mm) - Maximum Adapter Height 5-1/8 inches (130 mm) from floor. 15.L.2.b. Rear Arm: Minimum Reach 34-1/2 inches (878 mm) - Maximum Reach 58-1/4 inches (1480 mm) Minimum Adapter Height 4 inches (102 mm) - Maximum Adapter Height 5-1/8 inches (130 mm) from floor.

15.M. Accessories: 15.M.1. Extended Height GM Adapters (Flip Up Arms Only). 15.M.2. Extended Height Truck Adapters (Flip Up Arms Only). 15.M.3. 1/2 Inch Pad Adapter (Flip Up Arms Only). 14400-55 15.M.4. 1 Inch Pad Adapter (Flip Up Arms Only). 15.M.5. 2-1/2 Inch Pad Adapter (Flip Up Arms Only). 15.M.6. Thread-Up Frame Engaging Adapter. 15.M.7. Stackable Extensions. 15.M.8. Air/Electric Utility Box. 15.M.9. Tool Holder. 15.M.10. Door Defender. 15.M.11. Light Kit.

15.N. Lift shall be 3rd party certified by ETL testing laboratory and labeled with the ETL/Automotive Lift Institute (ALI) label that affirms the lifts meet conformance to all applicable provisions of American National Standard ANSI/ALI ALCTV and in compliance with IBC chapter 30 section 3001.2.

2.16 LIGHT DUTY 10,000 LB. CAPACITY SYMMETRIC TWO POST SURFACE MOUNTED FRAME CONTACT LIFTS SPO10

16.A. Capacity: 10,000 lbs. (4536 kg); 2500 lbs. (1134 kg) per adapter.

16.B. Minimum Bay Requirements: 16.B.1. Floor space 12 feet x 24 feet (3658mm - 7315 mm). 16.B.2. Floor slab concrete 3000 psi - 4-1/4 inch (108 mm) minimum; 5 inch - 6 inch (127 mm - 152 mm).

16.C. Ceiling Height Requirements: 16.C.1. SPO10: 12 feet (3658 mm). 16.C.2. SPO10 with extended cylinder: 12 feet 5 inches (3785 mm). 16.C.3. SPO10EH1: 12 feet 9 inches (3962 mm). 16.C.4. SPO10EH2: 13 feet 9 inches (4267 mm). 16.C.5. SPO10EH4: 15 feet 9 inches (4572 mm).

16.D. Height to Top of Overhead Bar: 16.D.1. SPO10: 11 feet 8 inches (3556 mm). 16.D.2. SPO10EH1: 12 feet 8 inches (3861 mm). 16.D.3. SPO10EH2: 13 feet 8 inches (4166 mm). 16.D.4. SPO10EH4: 15 feet 8 inches (4775 mm).

16.E. 14400-56 Floor To Overhead Switch Bar: 16.E.1. SPO10: 11 feet 2 3/4 inches (3423 mm). 16.E.2. SPO10EH1: 12 feet 2 inches (3708 mm). 16.E.3. SPO10EH2: 13 feet 2 inches (4013 mm). 16.E.4. SPO10EH4: 14 feet 2 inches (4318 mm).

16.F. Width Inside Columns: 114 1/2 inch (2727 mm).

16.G. Overall Width: 11 feet-5-1/2 inch (3493 mm).

16.H. Drive Through Clearance At Tires: 102 1/2 inches (2603 mm).

16.I. Rise: 16.I.1. SPO10 2-Stage Arm: 78 1/4 inches (1981 mm) from floor level to top of adapter fully extended. 16.I.2. Extended Rise Model 2-Stage Arm: 81 1/4 inches (2064 mm) from floor level to top of adapter fully extended. 16.I.3. SPO10 3-Stage Arm: 80-1/4 inches (2038 mm) from floor level to top of adapter fully extended. 16.I.4. Extended Rise Model 3-Stage Arm: 83-1/4 inches (2115 mm) from floor level to top of adapter fully extended.

16.J. Finishes (Excluding Arms) - All Arms Are Yellow: 16.J.1. Blue, Standard RAL5005. 16.J.2. Red, RAL3002. 16.J.3. Yellow, RAL1023. 16.J.4. Gray, RAL7040. 16.J.5. Black, RAL9005.

16.K. SPO10 Series Single Point Manual Controls - Manual Lock Release Electric Power Unit, UL201 Compliant, Over Hydraulic Cylinder Drive: All models bio-fluid compatible. 16.K.1. 2hp 208-230V 1 phase Motor 60Hz. 16.K.2. 2hp 208-230V 1 phase Motor 50Hz. 16.K.3. 4hp 208-480V 3 phase Motor 50/60Hz. 16.K.4. 4hp 575V 3 phase Motor 60Hz. 16.K.5. Shockwave Series DC Controls: System is operated by (2) group 24 car batteries charged by a 110-120V 60Hz, 3.15 amp charger. A separate circuit is not required for each Shockwave DC power unit system.

14400-57 16.L. Arm Configurations: 16.L.1. 2-Stage Arms With Flip Up Adapters: 16.L.1.a. Front and Rear Arms: Minimum Reach 31 inches (787 mm) - Maximum Reach 54 inches (1372 mm) Minimum Adapter Height 4-3/4 inches (121 mm) - Maximum Adapter Height 10-1/4 inches (260 mm) from floor. 16.L.2. 3-Stage Arms With RA Adapters: 16.L.2.a. Front and Rear Arms: Minimum Reach 27-1/2 inches (696 mm) - Maximum Reach 59 inches (1497 mm) Minimum Adapter Height 4-3/4 inches (121 mm) - Maximum Adapter Height 12-1/4 inches (311 mm) from floor.

16.M. Accessories: 16.M.1. Extended Height GM Adapters (Flip Up Arms Only). 16.M.2. Extended Height Truck Adapters (Flip Up Arms Only). 16.M.3. 1/2 Inch Pad Adapter (Flip Up Arms Only). 16.M.4. 1 Inch Pad Adapter (Flip Up Arms Only). 16.M.5. 2-1/2 Inch Pad Adapter (Flip Up Arms Only). 16.M.6. Thread-Up Frame Engaging Adapter. 16.M.7. Stackable Extensions. 16.M.8. Air/Electric Utility Box. 16.M.9. Tool Holder. 16.M.10. Door Defender. 16.M.11. Light Kit.

16.N. Lift shall be 3rd party certified by ETL testing laboratory and labeled with the ETL/Automotive Lift Institute (ALI) label that affirms the lifts meet conformance to all applicable provisions of American National Standard ANSI/ALI ALCTV and in compliance with IBC chapter 30 section 3001.2.

2.17 LIGHT DUTY 12,000 LB. CAPACITY SYMMETRIC TWO POST SURFACE MOUNTED FRAME CONTACT LIFTS SPO12

17.A. Capacity: 17.A.1. SPO12: 12,000 lbs. (5443 kg); 3000 lbs. (1160 kg) per adapter. 17.A.2. SPO12 With Sprinter Arms: 9,000 lbs. (4082 kg); 2250 lbs. (1021 kg) per adapter.

17.B. Minimum Bay Requirements: 17.B.1. Floor space 12 feet x 26 feet (3657mm x 7925 mm). 17.B.2.

14400-58 Floor slab concrete 3000 psi - 4-1/4 inch (108 mm) minimum; 5 inch - 6 inch (127 mm - 152 mm).

17.C. Ceiling Height Requirements: 17.C.1. Standard Model: 13 feet 9 inches (4191 mm). 17.C.2. Standard Model Low Ceiling Setting: 11 feet 9 inches (3581 mm). 17.C.3. SPO12EH1: 14 feet 9 inches (4496 mm). 17.C.4. SPO12EH2: 15 feet 9 inches (4801 mm). 17.C.5. Hummer Model: 14 feet 1/2 inches (4280 mm). 17.C.6. Hummer Model Extended Height: 15 feet 1/2 inches (4585 mm).

17.D. Height to Top of Overhead Bar: 17.D.1. Standard Model: 13 feet 8 inches (4166 mm). 17.D.2. Standard Model Low Ceiling Setting: 11 feet 8 inches (3556 mm). 17.D.3. SPO12EH1 - : 14 feet 8 inches (4470 mm). 17.D.4. SPO12EH2 - : 15 feet 8 inches (4775 mm). 17.D.5. Hummer Model: 13 feet 11-1/2 inches (4255 mm). 17.D.6. Hummer Model Extended Height: 14 feet 11-1/2 inches (4559 mm).

17.E. Floor To Overhead Switch Bar: 17.E.1. Standard Model: 13 feet 4 inches (4064 mm). 17.E.2. Standard Model Low Ceiling Setting: 11 feet 4 inches (3454 mm). 17.E.3. SPO12EH1 - : 14 feet 4 inches (4369 mm). 17.E.4. SPO12EH2 - : 15 feet 4 inches (4674 mm). 17.E.5. Hummer Model: 13 feet 7-1/2 inches (4153 mm). 17.E.6. Hummer Model Extended Height: 14 feet 7-1/2 inches (4458 mm).

17.F. Width Inside Columns: 113-3/8 inch (2880 mm).

17.G. Overall Width: 11 feet-5-5/8 inch (3496 mm).

17.H. Drive Through Clearance At Tires: 102-3/8 inches (2600 mm).

17.I. Rise: 17.I.1. Standard Model 2-Stage Arm: 81 inches (2057 mm) from floor level to top of adapter fully extended. 17.I.2. 14400-59 Extended Rise Model 2-Stage Arm: 84 inches (2134 mm) from floor level to top of adapter fully extended. 17.I.3. (T Series) Model 3-Stage Arm: 80-1/4 inches (2038 mm) from floor level to top of adapter fully extended. 17.I.4. (T Series) Extended Rise Model 3-Stage Arm: 83-1/4 inches (2115 mm) from floor level to top of adapter fully extended. 17.I.5. (Sprinter) Model 3-Stage Arm: 73-1/2 inches (1867 mm) from floor level to top of adapter fully extended. 17.I.6. (Sprinter) Extended Rise Model 3-Stage Arm: 76-1/2 inches (1943 mm) from floor level to top of adapter fully extended.

17.J. Finishes (Excluding Arms) - All Arms Are Yellow: 17.J.1. Blue, Standard RAL5005. 17.J.2. Red, RAL3002. 17.J.3. Yellow, RAL1023. 17.J.4. Gray, RAL7040. 17.J.5. Black, RAL9005.

17.K. SPO12 Series Single Point Manual Controls - Manual Lock Release Electric Power Unit, UL201 Compliant, Over Hydraulic Cylinder Drive: All models bio-fluid compatible. 17.K.1. 2hp 208-230V 1 phase Motor 60Hz. 17.K.2. 2hp 208-230V 1 phase Motor 50Hz. 17.K.3. 4hp 208-480V 3 phase Motor 50/60Hz. 17.K.4. 4hp 575V 3 phase Motor 60Hz. 17.K.5. Shockwave Series DC Controls: System is operated by (2) group 24 car batteries charged by a 110-120V 60Hz, 3.15 amp charger. A separate circuit is not required for each Shockwave DC power unit system.

17.L. Arm Configurations: 17.L.1. 2-Stage Arms With Flip Up Adapters: 17.L.1.a. Front and Rear Arms: Minimum Reach 31 inches (787 mm) - Maximum Reach 54 inches (1372 mm) Minimum Adapter Height 5-1/16 inches (129 mm) - Maximum Adapter Height 13-1/6 inches (332 mm) from floor. 17.L.2. 3-Stage Arms With RA Adapters T Series 12,000 lb capacity: 17.L.2.a. Front and Rear Arms: Minimum Reach 27-1/2 inches (696 mm) - Maximum Reach 59 inches (1499 mm) Minimum Adapter Height 4-3/4 inches (121 mm) - Maximum Adapter Height 12-1/4 inches (311 mm) from floor. 17.L.3. Sprinter Arms With Flip Up Adapters: Sprinter Arms shall De-rate lift capacity to 9,000 lbs. 17.L.3.a. 14400-60 Front and Rear Arms: Minimum Reach 36-7/8 inches (937 mm) - Maximum Reach 74-31/32 inches (1904 mm) Minimum Adapter Height 4-3/4 inches (121 mm) - Maximum Adapter Height 12-1/4 inches (311 mm) from floor.

17.M. Accessories: 17.M.1. Air/Electric Utility Box. 17.M.2. Tool Holder. 17.M.3. Door Defender. 17.M.4. Light Kit.

17.N. Lift shall be 3rd party certified by ETL testing laboratory and labeled with the ETL/Automotive Lift Institute (ALI) label that affirms the lifts meet conformance to all applicable provisions of American National Standard ANSI/ALI ALCTV and in compliance with IBC chapter 30 section 3001.2.

2.18 LIGHT DUTY 15,000 LB. / 18,000 CAPACITY SYMMETRIC TWO POST SURFACE MOUNTED FRAME CONTACT LIFTS SPO15/SPO18

18.A. Capacity: 18.A.1. SPO15: 15,000 lbs. (6804 kg); 3750 lbs. (1700 kg) per arm. 18.A.2. SPO15 With Sprinter Arms: 11,000 lbs. (4990 kg); 2750 lbs. (1247 kg) per arm. 18.A.3. SPO18: 18,000 lbs. (8165 kg); 4500 lbs. (2041 kg) per arm.

18.B. Minimum Bay Requirements (All Models): 18.B.1. Floor space 15 feet x 30 feet (4572mm x 9144 mm). 18.B.2. Floor slab concrete 3000 psi - 4-1/4 inch (108 mm) minimum; 5 inch - 6 inch (127 mm - 152 mm).

18.C. Ceiling Height Requirements (All Models): 18.C.1. Standard Model: 15 feet 1 inches (4597 mm). 18.C.2. Low Ceiling Setting: 13 feet 7 inches (4140 mm).

18.D. Height to Top of Overhead Bar (All Models): 18.D.1. Standard Model Adjustable 15 feet - 16 feet 6 inches (4572-5029 mm). 18.D.2. Low Ceiling Setting Adjustable 13 feet 6 inches - 14 feet 6 inches (4115-4420 mm).

18.E. Floor To Overhead Switch Bar: 18.E.1. Standard Model Adjustable: 14 feet 5 inches - 15 feet 11 inches (4394-4851 mm). 18.E.2. Low Ceiling Setting Adjustable: 13 feet 6 inches - 14 feet 6 inches (4115-4420 mm).

14400-61 18.F. Width Inside Columns: 120 inch (3048 mm).

18.G. Overall Width: 12 feet-11 inch (3937 mm).

18.H. Drive Through Clearance At Tires: 105-3/4 inches (2686 mm).

18.I. Rise: 18.I.1. Standard / "LC" Low Ceiling Models: 89-1/2 inches (2273 mm) from floor level to top of adapter fully extended. 18.I.2. Sprinter Models: 87 inches (2210 mm) from floor level to top of adapter fully extended using all adapters.

18.J. Finishes (Excluding Arms) - All Arms Are Yellow: 18.J.1. Blue, Standard RAL5005. 18.J.2. Red, RAL3002. 18.J.3. Yellow, RAL1023. 18.J.4. Gray, RAL7040. 18.J.5. Black, RAL9005.

18.K. Single Point Manual Controls - Manual Lock Release Electric Power Unit, UL201 Compliant, Over Hydraulic Cylinder Drive: All models bio-fluid compatible. 18.K.1. 2hp 208-230V 1 phase Motor 60Hz. 18.K.2. 2hp 208-230V 1 phase Motor 50Hz. 18.K.3. 4hp 208-480V 3 phase Motor 50/60Hz. 18.K.4. 4hp 575V 3 phase Motor 60Hz.

18.L. Arm Configurations: 18.L.1. 2-Stage Arms With Flip Up Adapters: 18.L.1.a. Front and Rear Arms: Minimum Reach 37-1/2 inches (952 mm) - Maximum Reach 62 inches (1574 mm) Minimum Adapter Height 5-3/4 inches (146 mm) - Maximum Adapter Height 17-1/2 inches (445 mm) from floor. 18.L.2. Sprinter Arms With Flip Up Adapters: Note Sprinter Arms De-rate lift capacity to 11,000 lbs. 18.L.2.a. Front and Rear Arms: Minimum Reach 36-3/4 inches (934 mm) - Maximum Reach 74-3/4 inches (1899 mm) Minimum Adapter Height 7-3/4 inches (197 mm) - Maximum Adapter Height 9-1/4 inches (235 mm) from floor.

18.M. Lift shall be 3rd party certified by ETL testing laboratory and labeled with the ETL/Automotive Lift Institute (ALI) label that affirms the lifts meet conformance to all applicable provisions of American National Standard ANSI/ALI ALCTV and in compliance with IBC chapter 30 section 14400-62 3001.2.

18.N. Accessories: 18.N.1. Air/Electric Utility Box. 18.N.2. Tool Holder. 18.N.3. Door Defender.

2.19 LIGHT DUTY 8,000 LB / 10,000 LB / 12,000 LB. CAPACITY SELF-CONTAINED INGROUND TWO POST FRAME CONTACT LIFTS SL210-MP8 - SL212

19.A. Lift Characteristics: 19.A.1. Two 8-1/2 inches hydraulic cylinders EasyAccess design does not require bleeding and can be removed for servicing while other components stay in place. All hose connections can be accessed at floor level. Steel frame contained inside a 1/4 inch (6 mm) thick, low- density polymer composite housing made from recycled material. Housing is resistant (inert) to chemicals, corrosion, and electrolysis with a liquid detection alert system. Refer to installation instructions for excavation requirements.

19.B. Capacity: 19.B.1. SL210 - SERIES: 10,000 lbs. (4536 kg); 2500 lbs. (1134 kg) per adapter. 19.B.2. SL212 - SERIES: 12,000 lbs. (5443 kg); 3000 lbs. (1160 kg) per adapter. 19.B.3. SL210-MP8 - 8,000 lbs. (3629 kg); 2000 lbs. (907 kg) per adapter.

19.C. Minimum Bay Requirements: 19.C.1. SL210 - Floor space 11 feet x 24 feet (3353mm - 7315 mm). 19.C.2. SL210-MP8 - Floor space 11 feet x 24 feet (3353mm - 7315 mm). 19.C.3. SL212 - Floor space 11 feet x 26 feet (3353mm - 7925 mm).

19.D. Overall Width: 19.D.1. SL210 - 9 feet-7/8 inch (2765 mm). 19.D.2. SL210-MP8 - 6 feet-6-1/4 inch (1987 mm). 19.D.3. SL212 - 8 feet-2-1/2 inch (2502 mm).

19.E. Drive-Thru Clearance: 19.E.1. SL210 - 7 feet-4 inch (2235 mm). 19.E.2. SL210-MP8 - Not Applicable. 19.E.3. SL212 - 7 feet-4 inches (2235 mm).

19.F. Rise: 14400-63 19.F.1. SL210 - 3-Stage Arms With Flip-Up Adapters 81 inches (2057 mm) from floor level to top of adapter fully extended. 19.F.2. SL210 - 3-Stage Arms with RA Adapters 75-7/8 inches (1927 mm) from floor level to top of adapter fully extended. 19.F.3. SL210 - MP8- 73-3/8 inches (1864 mm) from floor level to top of adapter fully extended. 19.F.4. SL212 - 84-1/4 inches (2140 mm) from floor level to top of adapter fully extended.

19.G. Finishes (Excluding Arms) - All Arms Are Yellow: 19.G.1. Blue, Standard RAL5005. 19.G.2. Red, RAL3002. 19.G.3. Yellow, RAL1023. 19.G.4. Gray, RAL7040. 19.G.5. Black, RAL9005.

19.H. SL210 - SL212 Models: Series Single Point Manual Controls - Pneumatic 100 psi - 120 psi Air Required, Lock Release Electric Power Unit UL201 Compliant, Over Hydraulic Cylinder Drive: All models bio-fluid compatible. 19.H.1. 2hp 208-230V 1 phase Motor 60Hz. 19.H.2. 2hp 208-230V 1 phase Motor 50Hz. 19.H.3. 4hp 208-480V 3 phase Motor 50/60Hz. 19.H.4. 4hp 575V 3 phase Motor 60Hz. 19.H.5. Shockwave Series DC Controls: System is operated by (2) group 24 car batteries charged by a 110-120V 60Hz, 3.15 amp charger. A separate circuit is not required for each Shockwave DC power unit system can be bench, wall, or pedestal mounted.

19.I. Arm Configurations: 19.I.1. SL210- 3-Stage Arms With Flip Up Adapters: 19.I.1.a. Front and Rear Arms: Minimum Reach 21-3/8 inches (543 mm) - Maximum Reach 44-3/8 inches (1127 mm) Minimum Adapter Height 4-1/4 inches (108 mm) - Maximum Adapter Height 10-1/2 inches (266 mm) from floor. 19.I.2. SL210- 3-Stage Arms With RA Adapters: 19.I.2.a. Front and Rear Arms: Minimum Reach 19 inches (483 mm) - Maximum Reach 54- 3/4 inches (1390 mm) Minimum Adapter Height 3-5/8 inches (92 mm) - Maximum Adapter Height 4-7/8 inches (124 mm) from floor. 19.I.3. SL212- 2-Stage Arms With Flip Up Adapters: 19.I.3.a. Front and Rear Arms: Minimum Reach 31-1/2 inches (800 mm) - Maximum Reach 48 inches (1219 mm) Minimum Adapter Height 5-11/16 inches (145 mm) - Maximum Adapter Height 8-3/16 inches (208 mm) from floor. 19.I.4. 14400-64 Moveable Pad: 19.I.4.a. Front and Rear Arms: Minimum Reach 29-3/4 inches (756 mm) - Maximum Reach 74-3/4 inches (1899 mm) Minimum Adapter Height 2-3/8 inches (60 mm) - Maximum Adapter Height 3 inches (76 mm) from floor.

19.J. Lift shall be 3rd party certified by ETL testing laboratory and labeled with the ETL/Automotive Lift Institute (ALI) label that affirms the lifts meet conformance to all applicable provisions of American National Standard ANSI/ALI ALCTV-2011 and in compliance with IBC chapter 30 section 3001.2.

2.20 LIGHT DUTY 14,000 LB. FOUR POST SURFACE MOUNTED DRIVE ON ALIGNMENT RACK AR14/ARO14 SERIES

20.A. Capacity: 14,000 lb (6350 kg); 7,000 lb (3175 kg) per runway.

20.B. AR14/ARO14 Series Single Point Manual Controls: Pneumatic 100 psi - 120 psi Air Required, Lock Release Electric Power, UL201 Compliant, Unit Over Hydraulic Cylinder Drive: All models bio-fluid compatible. 20.B.1. 2hp 208-230V 1 phase Motor 60Hz. 20.B.2. 2hp 208-230V 1 phase Motor 50Hz. 20.B.3. 4hp 208-480V 3 phase Motor 50/60Hz. 20.B.4. 4hp 575V 3 phase Motor 60Hz. 20.B.5. Shockwave Series DC Controls: System is operated by (2) group 24 car batteries charged by a 110-120V 60Hz, 3.15 amp charger. A separate circuit is not required for each Shockwave DC power unit system.

20.C. Minimum Bay Requirements: 20.C.1. AR14S: Floor space 15 feet x 23 feet (4572mm x 7010 mm). 20.C.2. ARO14S: Floor space 15 feet x 23 feet (4572mm x 7010 mm). 20.C.3. AR14L: Floor space 15 feet x 26 feet (4572mm x 7925 mm). 20.C.4. ARO14L: Floor space 15 feet x 26 feet (4572mm x 7925 mm). 20.C.5. AR14EL: Floor space 15 feet x 28 feet (4572mm x 8534 mm). 20.C.6. ARO14EL: Floor space 15 feet x 28 feet (4572mm x 8534 mm). 20.C.7. Floor slab concrete 3000 psi - 4-1/4 inch (108 mm) minimum; 5 inch - 6 inch (127 mm - 152 mm).

20.D. Rise: 73-3/4 inches (1873 mm); from floor to top of runway.

20.E. Overall Length: 20.E.1. AR14S: Power unit mounted in front of column: 233 inches (5918 mm). 20.E.2. AR14L: Power unit mounted in front of column: 267 inches (6782 mm). 14400-65 20.E.3. AR14EL: Power unit mounted in front of column: 287 inches (7290 mm). 20.E.4. ARO14S: Power unit mounted in front of column: 238 inches (6045 mm). 20.E.5. ARO14L: Power unit mounted in front of column: 272 inches (6909 mm). 20.E.6. ARO14EL: Power unit mounted in front of column: 292 inches (7417 mm).

20.F. Overall Width: 20.F.1. AR14 All Standard Models: Power unit mounted on side of column: 141 inches (3581 mm). 20.F.2. AR14NB All Narrow Bay Models: Power unit mounted on side of column: 131 inches (3327 mm). 20.F.3. ARO14 All Standard Models: Power unit mounted in side of column: 147 inches (3734 mm). 20.F.4. ARO14NB All Narrow Bay Models: Power unit mounted on side of column: 137 inches (3480 mm).

20.G. Inside of Columns: 20.G.1. AR14 ARO14 All Standard Models: 117-1/2 inches (2985 mm). 20.G.2. AR14NB All Narrow Bay Models: 106-9/16 inches (2707 mm). 20.G.3. ARO14NB All Narrow Bay Models: 104 inches (2642 mm).

20.H. Between Front and Rear Columns: 20.H.1. AR14S - AR14SNB: 171 7/8 inches (4366 mm). 20.H.2. AR14L - AR14LNB: 205 7/8 inches (5229 mm). 20.H.3. AR14EL - AR14ELNB: 225 7/8 inches (5737 mm). 20.H.4. ARO14S - ARO14SNB: 171 inches (4343 mm). 20.H.5. ARO14L - ARO14LNB: 205 inches (5207 mm). 20.H.6. ARO14EL - ARO14ELNB: 225 inches (5715 mm).

20.I. Height of Columns: 20.I.1. All AR14 Models: 6 feet 10 1/8 inches (2086 mm). 20.I.2. All ARO14 Models: 7 feet 11 3/16 inches (5229 mm).

20.J. Width of Runways: 20 inches (508 mm).

20.K. Height of Runways: 7 inches (178 mm).

20.L. Width Between Runways: 43 inches (1092 mm). 14400-66 20.M. Maximum Wheelbase: 20.M.1. AR14S - ARO14S Models: 158 1/2 inches (4026 mm). 20.M.2. AR14L - ARO14L Models: 192 1/2 inches (4890 mm). 20.M.3. AR14EL - ARO14EL Models: 212 1/2 inches (5397 mm).

20.N. Maximum Wheelbase Two Wheel Alignment: 20.N.1. AR14S - ARO14S Models: 153 inches (3886 mm). 20.N.2. AR14L - ARO14L Models: 188 inches (4775 mm). 20.N.3. AR14EL - ARO14EL Models: 208 inches (5283 mm).

20.O. Maximum Wheelbase Four Wheel Alignment: 20.O.1. AR14S - ARO14S Models: 142 inches (3607 mm). 20.O.2. AR14L - ARO14L Models: 158 inches (4013 mm). 20.O.3. AR14EL - ARO14EL Models: 158 inches (4013 mm).

20.P. Finishes: 20.P.1. Blue, Standard RAL5005. 20.P.2. Red, RAL3002. 20.P.3. Yellow, RAL1023. 20.P.4. Gray, RAL7040. 20.P.5. Black, RAL9005.

20.Q. Standard Equipment: 20.Q.1. RJ7000 Rolling Jacks two 7000 LB (3175 kg) capacity (each) 100 psi minimum - 120 psi maximum required. 20.Q.2. Alignment Equipment two rear slip plates two stainless steel turning radius gauges. 20.Q.3. Internal airline 100 psi minimum - 120 psi maximum required. 20.Q.4. Air Filter/Regulator/Lubricator 100 psi minimum - 120 psi maximum required.

20.R. Optional Accessories: 20.R.1. Swing Air Jacks 6000 LB (2722 kg) capacity (each) 100 psi minimum - 120 psi maximum required. 20.R.2. Oil Drain Pan. 20.R.3. Air/Electric Utility Box. 20.R.4.

14400-67 Ramp Kits for drive-thru bays two each extended length available. 20.R.5. Removable Work Steps.

20.S. Lift shall be 3rd party certified by ETL testing laboratory and labeled with the ETL/Automotive Lift Institute (ALI) label that affirms the lifts meet conformance to all applicable provisions of American National Standard ANSI/ALI ALCTV and in compliance with IBC chapter 30 section 3001.2.

2.21 LIGHT DUTY 14,000 LB. FOUR POST SURFACE MOUNTED DRIVE ON GENERAL SERVICE LIFTS SM14/SMO14 SERIES

21.A. Capacity: 14,000 lb (6350 kg); 7,000 lb (3175 kg) per runway.

21.B. SM14/SMO14 Series Single Point Manual Controls - Pneumatic 100 psi - 120 psi Air Required, Lock Release Electric Power, UL201 Compliant, Unit Over Hydraulic Cylinder Drive: All models bio-fluid compatible. 21.B.1. 2hp 208-230V 1 phase Motor 60Hz. 21.B.2. 2hp 208-230V 1 phase Motor 50Hz. 21.B.3. 4hp 208-480V 3 phase Motor 50/60Hz. 21.B.4. 4hp 575V 3 phase Motor 60Hz. 21.B.5. Shockwave Series DC Controls: System is operated by (2) group 24 car batteries charged by a 110-120V 60Hz, 3.15 amp charger. A separate circuit is not required for each Shockwave DC power unit system.

21.C. Minimum Bay Requirements: 21.C.1. SM14S: Floor space 15 feet x 23 feet (4572mm x 7010 mm). 21.C.2. SMO14S: Floor space 15 feet x 23 feet (4572mm x 7010 mm). 21.C.3. SM14L: Floor space 15 feet x 25 feet (4572mm x 7920 mm). 21.C.4. SMO14L: Floor space 15 feet x 26 feet (4572mm x 7925 mm). 21.C.5. SM14EL: Floor space 15 feet x 27 feet (4572mm x 8530 mm). 21.C.6. SMO14EL: Floor space 15 feet x 28 feet (4572mm x 8534 mm). 21.C.7. Floor slab concrete 3000 psi - 4-1/4 inch (108 mm) minimum; 5 inch - 6 inch (127 mm - 152 mm).

21.D. Rise: 73-3/4 inches (1873 mm) from floor to top of runway.

21.E. Overall Length: 21.E.1. SM14S: Power unit mounted in front of column: 233 inches (5918 mm). 21.E.2. SM14L: Power unit mounted in front of column: 257 inches (6528 mm). 21.E.3. SM14EL: Power unit mounted in front of column:281 inches (7137 mm). 14400-68 21.E.4. SMO14S: Power unit mounted in front of column: 238 inches (6045 mm). 21.E.5. SMO14L: Power unit mounted in front of column: 272 inches (6909 mm). 21.E.6. SMO14EL: Power unit mounted in front of column: 292 inches (7417 mm).

21.F. Overall Width: 21.F.1. SM14 All Standard Models: Power unit mounted on side of column: 141 inches (3581 mm). 21.F.2. SM14NB All Narrow Bay Models: Power unit mounted on side of column: 131 inches (3327 mm). 21.F.3. SMO14 All Standard Models: Power unit mounted in side of column: 147 inches (3734 mm). 21.F.4. SMO14NB All Narrow Bay Models: Power unit mounted on side of column: 137 inches (3480 mm).

21.G. Inside of Columns: 21.G.1. SM14 SMO14 All Standard Models: 117-1/2 inches (2985 mm). 21.G.2. SM14NB All Narrow Bay Models: 106-9/16 inches (2707 mm). 21.G.3. SMO14NB All Narrow Bay Models: 104 inches (2642 mm).

21.H. Between Front and Rear Columns: 21.H.1. SM14S - SM14SNB: 171 7/8 inches (4366 mm). 21.H.2. SM14L - SM14LNB: 195 7/8 inches (4975 mm). 21.H.3. SM14EL - SM14ELNB: 219 7/8 inches (5585 mm). 21.H.4. SMO14S - SMO14SNB: 171 inches (4343 mm). 21.H.5. SMO14L - SMO14LNB: 205 inches (5207 mm). 21.H.6. SMO14EL - SMO14ELNB: 225 inches (5715 mm).

21.I. Height of Columns: 21.I.1. All SM14 Models: 6 feet 10 1/8 inches (2086 mm). 21.I.2. All SMO14 Models: 7 feet 11 3/16 inches (5229 mm).

21.J. Width of Runways: 20 inches (508 mm).

21.K. Height of Runways: 7 inches (178 mm).

21.L. Width Between Runways: 43 inches (1092 mm).

21.M. 14400-69 Maximum Wheelbase: 21.M.1. SM14S - SMO14S Models: 158 1/2 inches (4026 mm). 21.M.2. SM14L - SMO14L Models: 182 1/2 inches (4636 mm). 21.M.3. SM14EL - SMO14EL Models: 206 1/2 inches (5245 mm).

21.N. Finishes: 21.N.1. Blue, Standard RAL5005. 21.N.2. Red, RAL3002. 21.N.3. Yellow, RAL1023. 21.N.4. Gray, RAL7040. 21.N.5. Black, RAL9005.

21.O. Optional Accessories: 21.O.1. SJ6000: (2722 kg) Swing Air Jacks 6000 LB capacity (each) 100 psi minimum - 120 psi maximum required. 21.O.2. RJ7000: (3175 kg) Rolling Jacks 7000 LB capacity (each) 100 psi minimum - 120 psi maximum required. 21.O.3. Internal Air Line Kit 100 psi minimum - 120 psi maximum required. 21.O.4. Four-Wheel Alignment Kit. 21.O.5. Oil Drain Pan. 21.O.6. Air/Electric Utility Box. 21.O.7. Ramp Kits for drive-thru bays two each extended length available. 21.O.8. Removable Work Steps.

21.P. Lift shall be 3rd party certified by ETL testing laboratory and labeled with the ETL/Automotive Lift Institute (ALI) label that affirms the lifts meet conformance to all applicable provisions of American National Standard ANSI/ALI ALCTV and in compliance with IBC chapter 30 section 3001.2.

2.22 LIGHT DUTY 18,000 LB. FOUR POST SURFACE MOUNTED DRIVE ON GENERAL SERVICE LIFTS SM18L/SM18-EL SERIES

22.A. Capacity: 18,000 lb (8165 kg); 9,000 lb (4082 kg) per runway.

22.B. SM18L/SM18EL Series Single Point Manual Controls - Pneumatic 100 psi - 120 psi Air Required, Lock Release Electric Power Unit, UL201 Compliant, Over Hydraulic Cylinder Drive: All models bio-fluid compatible. 22.B.1. 2hp 208-230V 1 phase Motor 60Hz. 22.B.2.

14400-70 2hp 208-230V 1 phase Motor 50Hz. 22.B.3. 4hp 208-480V 3 phase Motor 50/60Hz. 22.B.4. 4hp 575V 3 phase Motor 60Hz.

22.C. Minimum Bay Requirements: 22.C.1. SM18L: Floor space 16 feet x 27 feet (4877mm x 8230 mm). 22.C.2. SM18EL: Floor space 16 feet x 30 feet (4877mm x 9144 mm). 22.C.3. Floor slab concrete 3000 psi - 4-1/4 inch (108 mm) minimum; 5 inch - 6 inch (127 mm - 152 mm).

22.D. Rise: 68 inches (1727 mm) from floor to top of runway.

22.E. Overall Length: 22.E.1. SM18L: 275-3/16 inches (6990 mm) ramp to runway. 22.E.2. SM18EL: 311-3/16 inches (7904 mm) ramp to runway.

22.F. Overall Width: 137-3/4 inches (3499 mm).

22.G. Inside of Columns: 121-1/2 inches (3086 mm).

22.H. Between Front and Rear Columns: 22.H.1. SM18L: 212 inches (5385 mm). 22.H.2. SM18EL: 248 inches (6299 mm).

22.I. Height of Columns: 77-3/4 inches (1975 mm).

22.J. Width of Runways: 22 inches (559 mm).

22.K. Height of Runways: 7-1/2 inches (191 mm).

22.L. Width Between Runways: 43 to 46 inches (1092 to 1168 mm).

22.M. Maximum Wheelbase: 22.M.1. SM18L: 194 inches (4928 mm). 22.M.2. SM18EL: 230 inches (5842 mm).

22.N. Finishes: 22.N.1. Blue, Standard RAL5005. 22.N.2. 14400-71 Red, RAL3002. 22.N.3. Yellow, RAL1023. 22.N.4. Gray, RAL7040. 22.N.5. Black, RAL9005.

22.O. Optional Accessories: 22.O.1. RJ9000: Rolling Jacks 9000 LB (4082 kg) capacity (each) 100 psi minimum - 120 psi maximum required. 22.O.2. Internal Air Line Kit 100 psi minimum - 120 psi maximum required. 22.O.3. Four-Wheel Alignment Kit. 22.O.4. Oil Drain Pan. 22.O.5. Air/Electric Utility Box. 22.O.6. Ramp Kits for drive-thru bays two each extended length available. 22.O.7. Removable Work Steps.

22.P. Lift shall be 3rd party certified by ETL testing laboratory and labeled with the ETL/Automotive Lift Institute (ALI) label that affirms the lifts meet conformance to all applicable provisions of American National Standard ANSI/ALI ALCTV and in compliance with IBC chapter 30 section 3001.2.

2.23 LIGHT DUTY 18,000 LB. FOUR POST SURFACE MOUNTED DRIVE ON ALIGNMENT RACK AR18L/AR18-EL SERIES

23.A. Capacity: 18,000 lb (8165 kg); 9,000 lb (4082 kg) per runway.

23.B. Model AR18L: Wheelbases and Alignment Capability. 23.B.1. Maximum wheelbase 194 inches (4927mm) 23.B.2. Maximum wheelbase 2 wheel alignment 177 inches (4496mm) 23.B.3. Minimum/maximum 4-Wheel alignment 63-162 inches (1600-4115mm)

23.C. Model AR18EL: Wheelbases and Alignment Capability. 23.C.1. Maximum wheelbase 230 inches (5842mm) 23.C.2. Maximum wheelbase 2 wheel alignment 177 inches (4496mm)

23.D. AR18L/AR18EL Series Single Point Manual Controls - Pneumatic 100 psi - 120 psi Air Required, Lock Release Electric Power Unit, UL201 Compliant, Over Hydraulic Cylinder Drive: All models bio-fluid compatible. 23.D.1. 2hp 208-230V 1 phase Motor 60Hz. 23.D.2. 2hp 208-230V 1 phase Motor 50Hz. 14400-72 23.D.3. 4hp 208-480V 3 phase Motor 50/60Hz. 23.D.4. 4hp 575V 3 phase Motor 60Hz.

23.E. Minimum Bay Requirements: 23.E.1. AR18L: Floor space 16 feet x 27 feet (4877mm x 8230 mm) Lift only. 23.E.2. AR18EL: Floor space 16 feet x 30 feet (4877mm x 9144 mm) Lift only. 23.E.3. Floor slab concrete 3000 psi - 4-1/4 inch (108 mm) minimum; 5 inch - 6 inch (127 mm - 152 mm).

23.F. Rise: 68 inches (1727 mm) from floor to top of runway.

23.G. Overall Length: 23.G.1. AR18L: 275-3/16 inches (6990 mm) ramp to runway. 23.G.2. AR18EL: 311-3/16 inches (7904 mm) ramp to runway.

23.H. Overall Width: 137-3/4 inches (3499 mm).

23.I. Inside of Columns: 121-1/2 inches (3086 mm).

23.J. Between Front and Rear Columns: 23.J.1. AR18L: 212 inches (5385 mm). 23.J.2. AR18EL: 248 inches (6299 mm).

23.K. Height of Columns: 77-3/4 inches (1975 mm).

23.L. Width of Runways: 22 inches (559 mm).

23.M. Height of Runways: 7-1/2 inches (191 mm).

23.N. Width Between Runways: 43 to 46 inches (1092 to 1168 mm).

23.O. Maximum Wheelbase: 23.O.1. AR18L: 194 inches (4928 mm). 23.O.2. AR18EL: 230 inches (5842 mm).

23.P. Finishes: 23.P.1. Blue, Standard RAL5005. 23.P.2. Red, RAL3002. 14400-73 23.P.3. Yellow, RAL1023. 23.P.4. Gray, RAL7040. 23.P.5. Black, RAL9005.

23.Q. Optional Accessories: 23.Q.1. Oil Drain Pan. 23.Q.2. Air/Electric Utility Box. 23.Q.3. Ramp Kits for drive-thru bays two each extended length available.

23.R. Lift shall be 3rd party certified by ETL testing laboratory and labeled with the ETL/Automotive Lift Institute (ALI) label that affirms the lifts meet conformance to all applicable provisions of American National Standard ANSI/ALI ALCTV and in compliance with IBC chapter 30 section 3001.2.

2.24 LIGHT DUTY VEHICLE ALIGNMENT LIFTS

24.A. Lift Characteristics: Lift has no structural obstructions between the lifting legs and can be installed in recess applications (refer to shop drawings for recess applications). Non-alignment runway models (Y12 Series) available for general service repair. 24.A.1. Capacity: 12,000 lb (5443 kg). 24.A.2. Rise: 68-3/16 inches (1732 mm). 24.A.3. Overall Width: 88 inches (2235 mm). 24.A.4. Width of Runways: 24 inches (610 mm). 24.A.5. Height of Runways: 11-3/16 inches (284 mm). 24.A.6. Width Between Runways: 40 inches (1016 mm). 24.A.7. Maximum 4-Wheel Align: 158 inches (4013 mm). 24.A.8. Minimum 4-Wheel Align: 71-1/2 inches (1816 mm). 24.A.9. Maximum Hydraulic Operating Pressure: 3250 psi (22.4 MPa). 24.A.10. Rise Time: 37 seconds. 24.A.11. Lowering time: 45 seconds.

24.B. Model: YA12-L as manufactured by Rotary Lift. 24.B.1. Overall Length: 260 inches (6604 mm). 24.B.2. Length of Runways: 202 inches (5131 mm) 24.B.3. Maximum Wheelbase: 179-1/2 inches (4559 mm). 24.B.4. Maximum 2-Wheel Align: 164-1/2 inches (4178 mm).

14400-74 24.B.5. Power: Single phase, 208/230 volt. 24.B.6. Power: 3 phase, 240/480 volt. 24.B.7. Color: Custom, as selected by Architect. 24.B.8. Color: Standard, as selected by Architect. 24.B.9. Color: As indicated on Drawings. 24.B.10. Color: RAL5005 Blue. 24.B.11. Color: RAL3002 Red. 24.B.12. Color: RAL1023 Yellow. 24.B.13. Color: RAL7040 Gray. 24.B.14. Color: RAL9005 Black.

24.C. Model: YA12-EL1 as manufactured by Rotary Lift. 24.C.1. Overall Length: 270 inches (6858 mm). 24.C.2. Length of Runways: 212 inches (5385 mm). 24.C.3. Maximum Wheelbase: 189-1/2 inches (4813 mm). 24.C.4. Maximum 2-Wheel Align: 174-1/2 inches (4432 mm). 24.C.5. Power: Single phase, 208/230 volt. 24.C.6. Power: 3 phase, 240/480 volt. 24.C.7. Color: Custom, as selected by Architect. 24.C.8. Color: Standard, as selected by Architect. 24.C.9. Color: As indicated on Drawings. 24.C.10. Color: RAL5005 Blue. 24.C.11. Color: RAL3002 Red. 24.C.12. Color: RAL1023 Yellow. 24.C.13. Color: RAL7040 Gray. 24.C.14. Color: RAL9005 Black. 24.C.15. Lift shall be 3rd party certified by ETL testing laboratory and labeled with the ETL/Automotive Lift Institute (ALI) label that affirms the lifts meet conformance to all applicable provisions of American National Standard ANSI/ALI ALCTV-2011 and in compliance with IBC chapter 30 section 3001.2.

PART 3 EXECUTION

3.1 EXAMINATION 14400-75 1.A. Do not begin installation until supporting structures have been properly prepared.

1.B. If supporting structure preparation is the responsibility of another installer, notify Architect of unsatisfactory preparation before proceeding.

3.2 INSTALLATION

2.A. Install in strict accordance with manufacturer instructions and in proper relationship with adjacent construction. Test for proper operation and retest if necessary until satisfactory results are achieved.

3.3 PROTECTION

3.A. Protect installed products until completion of project.

3.B. Touch-up, repair or replace damaged products before Substantial Completion.

END OF SECTION

14400-76

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