DOCSLIB.ORG

TECHNICAL DOCUMENT DHR260/350 DS- & CS-Series Manual Controlled Searchlights

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
TECHNICAL DOCUMENT DHR260/350 DS- & CS-Series Manual Controlled Searchlights Navigation Lights Signalling Lights Searchlights Whistles TECHNICAL DOCUMENT DHR260/350 DS- & CS-series Manual Controlled Searchlights Den Haan Rotterdam S ince 1922 Den Haan Rotterdam (Intentionally blank page) 2 Version 2.1 February 2018 Den Haan Rotterdam Safety notes: • Turn power off before inspection, installation or removal • Keep combustible materials away from lamp ! • Do not exceed 105% of rated voltage • Allow lamp/fixture to cool before handling • Do not use the searchlight if outer glass is scratched or broken Damage due to inappropriate handling is not covered by the warranty. This document contains proprietary information that is protected by copyright. All rights reserved. © Copyright, Den Haan Rotterdam B.V. Version 2.1 February 2018 3 Version 2.1 February 2018 Den Haan Rotterdam FOREWORD Den Haan Rotterdam is a family company established in 1922. Started as a small tinsmith, it has evolved into a globally respected producer of navigation lights, searchlights, air horns and a wide range of nautical lamps made from copper and brass. By introducing products with advanced LED-technology, DHR has safeguarded a visibly safe future for marine vessels in all weather conditions. Den Haan Rotterdam manufactures halogen searchlights for over 30 years and are known for their robust- ness, quality and reliability: key values for marine equipment. The 260- and 350-series are the top range of manual controlled searchlights manufactured by DHR. Both types are standard equipped with a glass mirror reflector for a superb optical performance and available as a direct or cabin control. Optionally, the height of the searchlights can be increased by an additional collumn. These collumns have a standard lenght of 800mm, but any other dimension is available on request. Moreover, the 260-series includes an adjustable focus as well. The application of the 260- and 350-series searchlights is limitless. Mostly they are benificial for work boats, tugs, fishing vessels, dredgers and even watch towers for land based solutions. DEN HAAN ROTTERDAM B.V. D.M. Den Haan Managing Director QUALITY STANDARDS Incandescent Light Source Maintenance Friendly Manual Control Light Weight Construction Excellent Optics IP66 Water Ingress Protection Adjustable Focus (260-series) 4 Version 2.1 February 2018 Den Haan Rotterdam TABLE OF CONTENTS 1. Mounting instructions 6 2. Electrical installation 7 3. Specifications 8 4. Dimensions DHR350 10 5. Dimensions DHR260 11 6. Maintenance and correct use 12 7. Wiring diagram 13 8. recommended Spare parts 14 Models CS : Cabin controlled, standard CC : Cabin controlled, extended DS : Deck operated, standard DC : Deck operated, extended 5 Version 2.1 February 2018 Den Haan Rotterdam 1. MOUNTING INSTRUCTIONS Mounting the DHR350 CS or CC Before mounting make sure that there is sufficient space for the head and cabin control unit to move in any direction. Warning! ! When mounting the searchlight always push the pull rod gently from the bottom up into the searchlight to prevent damaging the dirt wiper in the turning wad. 4 x Ø 11 All sizes in mm. Ø 170 Ø 27 1 Unscrew M6 x10 (2x) Bolts Unscrew M8 x 25 M4 x 8 4 Screw M4 x 8 Remove bolds Screw M8 x 25 M6 x10 (2x) Bold M10 (4x) 2 3 5 6 Extended version (CC) Standard version (CS) Mounting the DHR350 DS or DC Before mounting make sure that there is sufficient space for the head to move in any direction. Remove the bolts M8 x 25 4 x Ø 11 Ø 170 Column for Extended version Bolt M10 (4x) 1 2 3 6 Version 2.1 February 2018 Den Haan Rotterdam 2. ELECTRICAL INSTALLATION Electrical installation Important! ! Turn off power before installation. Install the electrical wiring according to the wiring diagram on page 13. Keep the distance between the power supply and halogen lamp as short as possible. Long wires will increase a voltage drop near the halogen lamp, which affects the light output. Note: The cable glands on the searchlight prevent water ingress. Do not use (electrical) tape around the cable where it enters the cable gland as this will cause water ingress. Do not use a rubber or shrinkable cover on the cable gland to improve water tightness. Warning! ! Den Haan Rotterdam accepts no responsibility for any damage if the searchlight is installed in- correctly and / or used improperly. When in doubt consult a qualified electrical technician. 7 Version 2.1 February 2018 Den Haan Rotterdam 3. SPECIFICATIONS Searchlight Cabin controlled (CS/CC) Note that for the extended version (CC), besides the column, an extended pull rod is needed as well. Model 260CS/CC220 260CS/CC024 350CS/CC220 350CS/CC110 350CS/CC024 Dimensions Height above deck CS/CC 560 / 1360 mm 620 / 1420 mm Height below deck 400 mm 400 mm Width 540 mm 540 mm Weight CS/CC 14,1 / 20,1 Kg 11,6 / 17,6 Kg 11 / 20,1 Kg Electrical Lamp voltage 230 VAC 24VDC 230VDC 115VAC 24VDC Motor voltage 6-13 VDC Preferred cable type H07RN-F Cable diameter Ø 6-12 mm Optics Mirror Parabolic mirror reflector Ø 260 mm Parabolic mirror reflector Ø 340 mm Range 1100 m 1104 m 974 m 904 m Adjustable Focus Yes No No No Beam angle at 50% 3,5° x 2,5° 3,5° x 4° 3° x 4° 2,5° x 1,5° Luminous intensity 1.200.000 cd 1.220.000 cd 950.000 cd 820.000 cd Bulb Model 64657 HLX 6984P GE - T11 64657 HLX Luminous flux 9000 lm 22.500 lm 23.500 lm 9000 lm Rated lamp voltage 24V 230 V 115/120 V 24 V Rated lamp wattage 250W 1000 W 1000 W 250 W Average life-time 300 h 180 h 750 h 300 h Color temperature - 3200 K 3050 K - Base G6.35 GX 9,5 GX 9,5 G6.35 Housing Material Chromated seawater resistant aluminium Finish UV resistant powder coating - White RAL9016 Front glass Hardened glass Seals Silicone / Neoprene, black Cable gland M20x1.5 Operating temperature - 25° / + 45° C Ingress protection class IP66 c/w Membrane vent 8 Version 2.1 February 2018 Den Haan Rotterdam Searchlight Deck operated (DS/DC) Model 260DS/DC220 260DS/DC024 350DS/DC220 350DS/DC110 350DS/DC024 Dimensions Height 560 / 1360 mm 620 / 1420 mm Width 540 mm 540 mm Weight 11 / 15,8 Kg 8,5 / 13,3 Kg 10 / 4,8 Kg Electrical Lamp voltage 230 VAC 24VDC 230VDC 115VAC 24VDC Motor voltage 6-13 VDC Preferred cable type H07RN-F Cable diameter Ø 6-12 mm Optics Mirror Parabolic mirror reflector Ø 260 mm Parabolic mirror reflector Ø 340 mm Range 1100 m 1104 m 974 m 904 m Adjustable Focus Yes No No No Beam angle at 50% 3,5° x 2,5° 3,5° x 4° 3° x 4° 2,5° x 1,5° Luminous intensity 1.200.000 cd 1.220.000 cd 950.000 cd 820.000 cd Bulb Model 64657 HLX 6984P GE - T11 64657 HLX Luminous flux 9000 lm 22.500 lm 23.500 lm 9000 lm Rated lamp voltage 24V 230 V 115/120 V 24 V Rated lamp wattage 250W 1000 W 1000 W 250 W Average life-time 300 h 180 h 750 h 300 h Color temperature - 3200 K 3050 K - Base G6.35 GX 9,5 GX 9,5 G6.35 Housing Material Chromated seawater resistant aluminium Finish UV resistant powder coating - White RAL9016 Front glass Hardened glass Seals Silicone / Neoprene, black Cable gland M20x1.5 Operating temperature - 25° / + 45° C Ingress protection class IP66 c/w Membrane vent 9 Version 2.1 February 2018 Den Haan Rotterdam 4. DIMENSIONS DHR350 620 Ø 540 425 25° 660 25° 800* Ø 25 Max. 150 4 x Ø 11 Ø 170 Min. Ø 27 400* 214 Standard version Extended version (CS) (CC) All dimensions in mm. *Custom column heights* Custom at request. column heights onAll dimensionsrequest in mm. Ø 377 620 Ø 540 425 55° 660 35° 800* 4 x Ø 11 Ø 170 Standard version Extended version (DS) (DC) All dimensions in mm. *Custom column heights* Custom at request. column heights onAll dimensionsrequest in mm. 10 Version 2.1 February 2018 Den Haan Rotterdam 5. DIMENSIONS DHR260 Ø 306 Ø 540 560 407 40° 660 25° 800 * Ø 25 Max. 150 4 x Ø 11 400 * Min. Ø 27 Ø 170 214 Standard version Extended version (CS) (CC) *Custom columnAll dimensions heights at request. in mm. All dimensions in mm. * Custom column heights on request Ø 306 540 560 407 55° 640 35° 800* 35° 4 x Ø 11 Ø 170 Standard version Extended version (DS) (DC) All dimensions in mm. *Custom column* Custom heights at columnrequest. heights on requestAll dimensions in mm. 11 Version 2.1 February 2018 Den Haan Rotterdam 6. MAINTENANCE AND CORRECT USE Safety notes ! • Handle with care • Turn off main power • Warning, lamp is hot • Do not touch the lamp with bare hands Lamp replacement 1. Switch off the main power Caution – hot lamp. Let the lamp cool down for at least 10 minutes before proceeding maintenance. 2. Open the drum 3. Remove the lamp from the lampholder 4. Ensure that the replacement lamp is of the same type 5. Take a clean cloth to place the new lamp in the lampholder Do not touch the lamp with bare fingers, remove any fingerprints with a cloth and alcohol and rub it dry 6. Check the sealing of the front glass and rub it in with talcum powder 7. Close the drum 8. The searchlight is ready for use Tips for correct use • Do not overheat the searchlight - max. burning time 20 min. • Switch off the searchlight immediately after use, this increases the life expectancy of the bulb • Do not light-up objects closer than 2 metres • Clean the searchlight regularly with water • Do not point the light beam at the eyes of humans or animals Preventive maintenance Clean the searchlight with clean water regularly.
Load more

Recommended publications
  • Nightsearcher Lighting the Future 2015
    NIGHTSEARCHER LIGHTING THE FUTURE 2015 NIGHTSEARCHER Unit 4 Applied House Fitzherbert Spur, Farlington Portsmouth Hampshire PO6 1TT. UK T: +44 (0)23 9238 9774 F: +44 (0)23 9238 9788 E: [email protected] | W: www.nightsearcher.co.uk NIGHTSEARCHER Anniversary 1989 - 2014 NIGHTSEARCHER Nightsearcher provides high-quality portable lighting products for professionals. Our new 2015 catalogue marks our 25th year in business. This milestone demonstrates our on-going commitment to designing and manufacturing lighting solutions in-house - and to our customers. In this catalogue you’ll find an extensive range of portable lighting products including searchlights, floodlights, hazard lights, flashlights, tactical torches, head-torches, bike lights and safety approved lights. LED leaders We’re dedicated to developing LED lighting to extend running times, enhance performance and reduce energy usage. And the result? Innovative upgrades and improvements to our LED products. Instant and on-going benefits LED lighting is not only better value and environmentally-friendly, it emits less heat and clearer white light. It also gives longer running times, different modes, a 50,000 hour life and is more shock-resistant than traditional bulbs. Global innovation We’ve designed and manufactured the world’s most powerful portable LED floodlight, replacing inefficient halogen-based lights. So there’s less heat, weight, emissions, fuel and trailing cables. Want to know more? If you have a question or need help, please call (023) 9238 9774 or email [email protected] today. Colin Howard Managing Director QUICK SYMBOLS GUIDE SEARCHLIGHT RANGE SEARCHLIGHT RANGE 4 PANTHER LED & LED LITE 5 LUMENS FLASHING PANTHER XM-L 6 H - 1000 L - 20000 Indicates the maximum level Indicates the unit has flashing mode.
    [Show full text]
  • DOE SBIR and STTR FISCAL YEAR 2009 PHASE I GRANT APPLICATION AWARDS by STATE (Back to SBIR Awards Page)
    DOE SBIR and STTR FISCAL YEAR 2009 PHASE I GRANT APPLICATION AWARDS BY STATE (Back to SBIR Awards Page) AL AZ CA CO CT DE FL GA HI IL KS MA MD MI MN MO MT NV NJ NM NY NC OH OR PA SC TN TX UT VT VA WA WV WI WY ALABAMA Company Title Plasma Processes, Inc. High Temperature Bond and Thermal Road Barrier 4914 Moores Mill Coatings Huntsville, AL 35811 Summary To improve coal power plant efficiency and reduce greenhouse gas emissions, higher combustion temperatures are needed. Thermal protection systems used in rocket engines will provide the necessary corrosion and thermal protection to power generation turbine compon. Company Title Renewable Oil International, LLC Development of Cost Effective, Small Scale 3115 Northington Court Transportable Fast Pyrolysis Plants Florence, AL 35630 Summary Declining petroleum resources, combined with increased demand for petroleum by emerging economies, as well as political and environmental concerns about fossil fuels, are causing our society to search for new sources of liquid fuels. This project will develop a method for conversion of biomass into liquid fuels at a small scale called fast pyrolysis—a process whereby biomass is rapidly converted into a liquid biocrude which can be used for fuel oil or upgraded into gasoline and diesel fuels. Company Title Streamline Automation, LLC High-Efficiency Microalgae Biofuel Harvest and 3100 Fresh Way SW Extraction Using Ionic Liquids Huntsville, AL 35805 Summary To propel America’s Strategic Energy Policy, this project will develop efficient, cost-competitive, and largescale production methods for biofuels derived from microalgae using a new class of green chemistry ionic liquid solvents.
    [Show full text]
  • Lighting the Future
    ture Fu he T ng ti h ig L 2017 .co.uk Trusted worldwide We are now in our 28th year designing and manufacturing portable rechargeable lighting systems. Our main objective is to offer high quality, reliable, innovative products utilising constantly evolving technologies. We manufacture the most powerful rechargeable LED floodlighting systems and searchlights in the world. Our diverse range of products have been developed to meet the requirements of professional customers, to include police, fire, armed forces, railways, sports clubs and utility companies. Colin Howard Managing Director UKAS registered NightSearcher began manufacturing certification to lighting systems in 1989 and have ISO 9001:2008. continued producing these from our UK head office in Portsmouth, UK All new products are designed to minimise our impact on the Supplier Number: 713731 environment. New products for 2017 Galaxy 2400 Galaxy LED AC 5000 EcoStar Pro Ministar Page 18 -19 Page 20 -21 Page 22 Page 24-25 EX-80 Head Torch Sequential Pulsar Pro Automotive Range Outdoor Range Page 56 Page 60 Page 64-68 Page 69-73 CONTENTS THE SOLARIS RANGE, PORTABLE LED FLOODLIGHTS: P4-P13 Solaris Lite P6-7 Solaris Duo P8-9 Solaris MegaStar P10-11 Solaris Range Accessories P12 Solaris Maxi P13 RECHARGEABLE WORK LIGHTS: P14-19 Galaxy Pro P14-15 Galaxy 1000 P16 Galaxy 2000 P17 Galaxy 2400 P18-19 AC MAINS WORK LIGHTS + FLOODLIGHTS + HIGHBAY LIGHTS: P20-27 Galaxy LED AC 5000 P20-21 EcoStar Pro P22 EcoStar Pro Linkable P23 MiniStar P24 MiniStar PIR P25 Hi-Star P26-27 RECHARGEABLE PROFESSIONAL
    [Show full text]
  • Humphry Davy and the Arc Light
    REMAKING HISTORY By William Gurstelle Humphry Davy and the Arc Light » Thomas Edison did not invent the first electric BRILLIANT light.* More than 70 years before Edison’s 1879 MISTAKES: Humphry Davy, incandescent lamp patent, the English scientist chemist, inventor, Humphry Davy developed a technique for produc- and philosopher: ing controlled light from electricity. “I have learned Sir Humphry Davy (1778–1829) was one of the more from my failures than from giants of 19th-century science. A fellow of the my successes.” prestigious Royal Society, Davy is credited with discovering, and first isolating, elemental sodium, potassium, calcium, magnesium, boron, barium, and strontium. A pioneer in electrochemistry, he appeared between the electrode tips, Davy had to also developed the first medical use of nitrous oxide separate the carbon electrodes slightly and care- and invented the miner’s safety lamp. The safety fully in order to sustain the continuous, bright arc lamp alone is directly responsible for saving of electricity. Once that was accomplished, he found hundreds, if not thousands, of miners’ lives. the device could sustain the arc for long periods, But it is his invention of the arc lamp for which we even as the carbon rods were consumed in the heat remember him here. Davy’s artificial electric light of the process. consisted of two carbon rods, made from wood Davy’s arc lamp of 1807 was not economically charcoal, connected to the terminals of an enormous practical until the cost of producing a 50V-or-so collection of voltaic cells. (In Davy’s day, thousands power supply became reasonable.
    [Show full text]
  • Streamlight Flashlights
    STREAMLIGHT FLASHLIGHTS Streamlight™ STINGER® Streamlight™ STINGER DS® LED Lightweight, powerful, safety-rated, This all-purpose flashlight is designed for the broadest range of rechargeable flashlight with durable lighting needs at the best value. aluminum construction that makes it DUAL SWITCH TECHNOLOGY – Access three lighting modes and strobe virtually indestructible. via the tail cap or the head-mounted • Xenon gas-filled bi-pin bulb; spare switch. Switches operate independently. bulb in tailcap Three modes and strobe: • Adjustable focus beam ˃ High for a bright super-bright beam - 350 lumens; 24,000 candela • Up to 11,000 candela (peak beam intensity); 90 lumens peak beam intensity; 310 meter beam distance; runs 2 hours • 3-cell, 3.6 Volt Ni-Cd sub-C battery, rechargeable up to 1000 times ˃ Medium for bright light and longer run times – 175 lumens; • 3-cell, 3.6 Volt Ni-MH sub-C battery, rechargeable up to 1000 times. 12,000 candela peak beam intensity; 219 meter beam distance; • Up to 1.25 hours continuous use runs 3.75 hours • 7.38” ˃ Low for light without glare and extended run times – 85 lumens; • 10 oz. 6,000 candela peak beam intensity; 155 meter beam distance; • Assembled in USA runs 7.25 hours 75014 Black .................................................................$139.50 each ˃ Strobe for disorienting or signaling your location; runs 5.5 hours 75914 Replacement Bulb .................................................$8.95 each 76090 Deluxe Nylon Holster ...........................................$17.50 each • Deep-dish parabolic reflector produces a concentrated beam with optimum peripheral illumination Streamlight™ Jr.® LED • C4® LED technology, impervious to shock with a 50,000 hour lifetime Don’t let the name “Junior” fool you.
    [Show full text]
  • 2016-Browning-Catalog-Lights.Pdf
    The old hunter’s adage “You can’t hit what you can’t see” also applies to any type of outdoor task that takes place in the gloom of night. From changing a flat tire on a lonely roadside to finding that downed buck just as evening closes in, having a reliable light is often the difference between your hunt being a great success or a total failure, or between having a memorable outing or a truly miserable experience. Make sure that you have reliable, powerful and affordable Browning flashlights and headlamps readily at hand. A Browning light should be part of your everyday carry (EDC) gear and be standard equipment in your backpack, glove box or purse. 216 LIGHT TECHNOLOGY HOW TO PICK THE RIGHT BROWNING LIGHT Browning leads the industry in portable battery-powered lighting for hunters and shooters with more than 40 styles in our product line. Here are some bright ideas on picking the best light for your needs. SIZE, WEIGHT AND POWER FL 1 STANDARD LUMENS = BRIGHTNESS When choosing a light, smaller, brighter and lighter are better. Today’s The output of a traditional 2D cell flashlight is approximately high-output LEDs are so powerful and efficient they achieve the same light 175 15 - 20 lumens. The latest LED flashlights can have an output of output as the old multi-cell C and D lights. The super bright Alpha and more than 2000 lumens. LUMENS Alpha Max flashlights use a single AA battery yet are not much bigger than a shotgun shell. LED VS. XENON BULBS LEDs are preferred over Xenon bulbs for most uses, thus all our lights are now FL 1 STANDARD BATTERY LIFE LED designs.
    [Show full text]
  • Vibration Resistance of Headlamp Design with Light Emitting Diodes for Electric Locomotive
    Computer Optics and Nanophotonics Vibration resistance of headlamp design with light emitting diodes for electric locomotive Abulkhanov S.R., Skuratov D.L. Samara State Aerospace University Abstract. We determined the natural frequencies of the headlight structure with light emitting diodes (LEDs) for electric locomotive (VL series). We used the ANSYS software system of finite-element analysis for computations. The obtained values of the natural frequencies and the oscillation character of the design on every mode made it possible to determine the design activities that increase the vibration resistance of the design of a headlight. Keywords: a headlight of a locomotive, the natural frequencies of the structure, trouble-free service life, periodic vibration, light-emitting diodes (LEDs). Citation: Abulkhanov SR, Skuratov DL. Vibration resistance of headlamp design with light emitting diodes for electric locomotive. Proceedings of Information Technology and Nanotechnology (ITNT-2015), CEUR Workshop Proceedings, 2015; 1490: 122-132. DOI: 10.18287/1613-0073-2015-1490-122- 132 Introduction The light emitting diodes (LEDs) have several advantages over incandescent lamps, among them are the reliability (MTBF http://www.google.ru/url?source =transpromo&rs=rssf&q=//translate.google.com/community?source=all – mean time between failures to 1.4 million H). The service life (not less 50 – 103 hours), the 00 viewing angle ( 4 160 ), the brightness (up to 15,000 mcd and above) and the energy efficiency (the energy consumption is reduced to 87 % compared
    [Show full text]
  • Light-Emitting Diodes (Leds): Implications for Safety
    INTERNATIONAL COMMISSION ON NON-IONIZING RADIATION PROTECTION ICNIRP STATEMENT LIGHT-EMITTING DIODES (LEDS): IMPLICATIONS FOR SAFETY PUBLISHED IN: HEALTH PHYS 118(5):549–561; 2020 ICNIRP PUBLICATION – 2020 Special Submission LIGHT-EMITTING DIODES (LEDS): IMPLICATIONS FOR SAFETY International Commission on Non-Ionizing Radiation Protection (ICNIRP)1 Key words: International Commission on Non Ionizing Radiation Abstract—Since the original ICNIRP Statement was published in Protection; health effects; safety standards; radiation, non-ionizing 2000, there have been significant improvements in the efficiency and radiance (i.e., optical radiation emission) of LEDs. The most important improvement is the development of ‘white’ LEDs that INTRODUCTION can be used as general lighting sources, which are more efficient than traditional lighting sources. LEDs emitting in the ultraviolet THE ORIGINAL ICNIRP Statement on light-emitting di- wavelength region have also become available and have made odes (LEDs) and laser diodes (ICNIRP 2000) focused on their way into consumer products. All these changes have led to distinguishing between these two types of diode sources. a rise in concern for the safety of the optical radiation emissions It is now well-established that the potential hazards from from LEDs. Several in vitro and animal studies have been con- ducted, which indicate that blue and white LEDs can potentially LEDs are more similar to those from conventional lamps cause retinal cell damage under high irradiance and lengthy expo- than they are from lasers. Since the publication of the sure conditions. However, these studies cannot be directly extrapolated ICNIRP Statement on LEDs and laser diodes in 2000 to normal exposure conditions for humans, and equivalent effects (ICNIRP 2000), there have been significant changes in can also be caused by the optical radiation from other light sources under extreme exposure conditions.
    [Show full text]
  • Section 7.02 Lighting Standards
    Section 7.02 Lighting Standards Section 7.02 Lighting Standards Intent – The Lighting Standards contained in this Section are intended to provide for the erection, design, or placement of outdoor light fixtures which: provide for illumination levels on individual lots which are adequate for the safe and efficient movement of individuals or vehicles to and from a lot and within a lot (i.e., areas that are dangerous if unlit, such as stairs, intersections or changes in grade); provide for uniform and consistent site lighting in terms of style of outdoor light fixtures, type of light (white light sources such as metal halide or yellow light sources such as high pressure sodium), and light levels throughout a lot; are designed to protect against the spillover of light onto abutting properties which may negatively impact occupants of abutting properties; and, are designed to protect against objectionable glare onto public rights-of-way which may impair the vision of motorists. This section does not address Street Lighting on public or private streets – refer to Town Policy P-004 Street Lighting for requirements associated with lighting on streets. [Amended Ordinance #10-11] A. General Requirements. All outdoor light fixtures on a lot shall comply with the following regulations: 1. Minimum Setback – Notwithstanding anything in this UDO to the contrary for the Use of Required Yards for any district, an outdoor light fixture may be located within a required front yard, side yard, rear yard, front bufferyard, side bufferyard or rear bufferyard, provided that the outdoor light fixture is located adjacent to the interior edge of such yard or bufferyard.
    [Show full text]
  • Assessment of Alternative Energy Applications at the Nevada Department of Transportation (NDOT) Final Report Augus
    Assessment of Alternative Energy Applications at the Nevada Department of Transportation (NDOT) Final Report August 2010 Dr. Cansin Yaman Evrenosoglu Dr. Mehdi Etezadi Dr. Ted Batchman Electrical and Biomedical Engineering Department University of Nevada, Reno Table of Contents 1 INTRODUCTION......................................................................................................................................................8 1.1 BACKGROUND..............................................................................................................................................8 1.2 REPORT ORGANIZATION ............................................................................................................................10 2 OVERVIEW OF RENEWABLE ENERGY SOURCES AND APPLICATIONS...................................................12 2.1 WIND POWER.............................................................................................................................................12 2.1.1 Rotor.................................................................................................................................................14 2.1.2 Drive Train .......................................................................................................................................14 2.1.3 Generator..........................................................................................................................................14 2.1.3.1 Fixed Speed Generators ........................................................................................................14
    [Show full text]
  • Evaluation Field Tests of Searchlights and Reflective Materials in Search and Rescue Operations
    NATIONAL BUREAU OF STANDARDS REPORT NBS PROJECT NBS REPORT 0201-20-2300 April, 1956 46o6 EVALUATION FIELD TESTS OF SEARCHLIGHTS AND REFLECTIVE MATERIALS IN * SEARCH AND RESCUE OPERATIONS by J. W. Lane, Sr* T. H. Projector W. A. Hall L. R. Noffsinger Naval Aircraft Lighting Group Photometry and Colorimetry Section National Bureau of Standards Washington 25, D. C. Test No. 21N-41/55 Sponsored by Lighting Section EL-5211 Bureau of Aeronautics Department of the Navy U. S. DEPARTMENT OF COMMERCE NATIONAL BUREAU OF STANDARDS release by the The publication, i Approved for public f in part, is prohibited unless permission director of the National Institute of Standards, Washington 25, D.C. Such p< Standards and Technology (NIST) eport has been specifi- cal ly prepared If on October 9, 2015 report for its own use, 1. INTRODUCTION The only two visual aids presently available to an aviator forced down at sea during the hours of darkness are a small, single-celled, flashlight, and a flare. The flare, of course, is expended after only one use, and the flashlight is visible for only a few hundred yards, even when its battery is fresh and the atmosphere is clear. Then too, both of these aids require that the man be alive and able to operate them. To be effective at all times a visual aid must function independently of any cooperation from the downed airman. There are a number of possible approaches to the solution of these problems, such as im- proved pyrotechnics or a better light for the pilot. Im- provements such as these would be helpful, but would still fall far short of providing effective visual aid in the variety of situations in which search and rescue operations must be carried out.
    [Show full text]
  • Instruction Book
    INSTRUCTION BOOK. 1 THE SPERfty ÛYRO5C0PE GO.* LIÉ-» ÎS, Victoria Street, London, SMM TRhe àSperry High Intensity Searchlight, INSTRUCTION BOOK FOR THE Sperry High Intensity Searchlight INCLUDING GENERAL DESCRIPTION, INSTRUCTIONS ON THE CARE, MAINTENANCE, OPERATION ::: AND ADJUSTMENT, ::: INFORMATION NECESSARY FOR CONVERTING STANDARD PROJECTORS, AND SPARE PART LIST. Telegrams: " Sperigyco, Vic. London." The Sperry Gyroscope Company, Ltd., Telephone: VICTORIA 7398. 15, Victoria Street, London, S.W. 1. September, 1917. 126, Rue de Provence, Paris. 42, Via Manzoni, Milan. PUBLICATION No. 107. Kronverkski Prospect, Dom 77, K.V. 13, Petrograd. COPYRIGHT. THE SPERRY HIGH INTENSITY SEARCHLIGHT. THE . SPERRY HIGH INTENSITY SEARCHLIGHT. INTRODUCTION. 'TT^HE object of compiling this pamphlet is to give the instructions necessary for operating the Sperry High Intensity Searchlight, as well as to convey a general understanding of the fundamentals upon which it is based, and which account for the intense light output of which it is capable. This publication contains no description of the complete projectors made by this Company (this being contained in another publication), for it is realised that, with the advent of a lamp which gives seven to eleven times the light of a standard searchlight, there will be a natural tendency to convert the old type projectors to accommodate the Sperry Lamp, which can be done without difficulty, especially if the necessary projector accessories are supplied by us at the same time as the lamp. The subject is therefore divided as follows :— I. The Development of the Sperry High Intensity Arc. II. General Description of the Sperry Lamp. III. Instructions for Operation and Maintenance of the Lamp.
    [Show full text]