Paperboard Bottle)-Automated Unit

Total Page：16

File Type：pdf, Size：1020Kb

PBB (paperboard bottle)-automated unit One automated unit, from The PBB (paperboard bottle)automated unit paperboard to bottle produces bottles of various sizes from paperboard to meet the needs of different types of beverage manufacturers. The machine punches and creases and prints product information, images, logos etc. according to your business needs. It all starts with a paperboard roll The bottles are made of special paperboard. There are three different sizes of paperboard rolls: 300kg, 600kg and 900kg. The automated unit handles the rolls according to the desired bottle size From paperboard roll to bottle The unit produces the desired size bottle of 0.25L, 0.33L, 0.5L, 1L and 1.5L. Paperboard roll Paperboard roll Paperboard roll 300kg 600kg 900kg Bottle size 0.25l 20000 pcs 40000 pcs 60000 pcs Bottle size 0.33l 15000 pcs 30000 pcs 45000 pcs Bottle size 0.5l 10000 pcs 20000 pcs 30000 pcs Bottle size 1l 5000 pcs 10000 pcs 15000 pcs Bottle size 1.5l 3300 pcs 6600 pcs 9900 pcs What to fill the bottle with? Is it honey, sour cream, a smoothie or a carbonated soft drink. The contents of a paperboard bottle are of little importance. Paperboard bottles are made to hold almost any type of food An automated unit for all size needs A paperboard bottle automated unit is designed for use by operators of all sizes. The production capacity of the unit starts at 750 pcs / h and can be expanded to large capacity large-scale production equipment by adding modules. The fully automatic unit also handles dosing After the bottle has been shaped, the unit dispenses the drink and closes the bottle. Dosage takes place in a hydrogen-peroxide-purified bottle in a pressurized space to provide a clean air environment for bottle filling and thus fewer preservatives are needed to improve product preservation. Breaking with tradition A new type of cap for the paperboard bottle The automated unit fits a new type of cap on the bottle. The threads are removed from the bottle and cap to minimize the accumulation of thread dirt and to improve the texture. It doesn’t require great strength to open and close the re-sealable cap. No more labels The PBB unit prints the desired look with the product information and no separate labels or stickers are required. It is possible to print almost any type of picture or text on a bottle or any combination of these. The same color scheme is used as in printers in general. Photo, text, graphics. The paperboard bottle can be branded as desired, whatever you want to communicate to the consumer. From a paperboard roll to a paperboard box The paperboard bottle automated unit packs the bottles into "bottle crates". For us, a bottle crate is paperboard packaging that does not contain plastic. Larger bottles of 1 l and 1.5 l are packed 4 to a box and bottles 0.25 l and 0.33 l are packed 24 to a box and 0.5 l bottles are packed 12 to a box. Paperboard packages are folded from one piece of board to fit each beverage bottle size. More information about the automated unit is available in the automated unit brochure. For more information on bottles, see the bottle brochure. Esbottle Oy Ruukinmestarintie 12 www.esbottle.com 02330 Espoo Finland VAT: 28762736 .

Copy Link

Recommended publications

Cardboard and Brown Paper Bags Office Paper, Newspaper, Junk Mail, Magazines, and Catalogs
Recycling Center 801 Diamond Valley Drive Open: Daily to the public during daylight hours This guide will help you properly prepare your recyclable materials for drop-off at the Town of Windsor Recycle Center. This is a drop-off facility. It does not have a buy-back option and is for use by residents and small businesses. Following this information will help maintain the facility and the recycling program for the benefit of the community. IMPORTANT… • Do not leave your recyclables in plastic bags. Plastic bags are NOT recyclable! • The plastic item must be a BOTTLE or JAR. with a #1 or #2 on the bottom. • 99 percent of these will have a screw-on plastic lid (which isn’t recyclable). • Plastic containers with a #3 - #7 on the bottom are NOT acceptable. • Tubs, buckets, deli plates, microwave/fast food trays, wrappers, Styrofoam, toys, patio furniture, etc. are NOT acceptable. • Plastic bottles larger than 2.5 gallons are NOT acceptable. • Syringes and other medical supplies are NOT acceptable. Cardboard and Brown Paper Bags Corrugated cardboard is easy to recognize. It is made of paper and has an arched layer called “fluting” between smooth sheets called “liners”. The drop-off site has two 40-yard hydraulic compactor units for collecting corrugated cardboard and brown paper bags. The compaction system is self-activated by depositing the prepared materials into a six-inch tall slot. Flatten boxes. Cut or tear large boxes into sections no larger than 4 feet by 4 feet to prevent jamming the machine. No wet, waxed-coated or food-contaminated boxes.
[Show full text]
Shrink Sleeve Labels on PET Containers APR Resource Document
Document Number RES-LBL-2 Publication or Revision Date: 1/4/2021 Shrink Sleeve Labels on PET Containers APR Resource Document Introduction This Resource Document presents APR Guidance for characteristics of shrink sleeve labels for PET packaging that will have the most benefit for today’s PET container recycling processes, and that will have the most positive environmental impact in support of the plastics circular economy. Shrink sleeve labels have been developed that allow the label film and inks to have negligible impact on the quality or productivity of PET recycling. Such shrink sleeve labels are in commercial use today, but not yet used widely or routinely. The quality of recycled PET can be improved—to the benefit of all recycling and sustainability stakeholders—when recycling compatible labels become the standard for the PET packaging industry. The resources described herein can be helpful to each segment of the package supply chain: • Consumer brands can learn what comprises a recycling compatible shrink sleeve label and inform their label suppliers that they expect such technologies be offered to them; • Label suppliers can assure brands that PET packages using their products meet recyclability guidance by performing APR Test Methods to demonstrate this; • Converters and manufacturers who want to lead the industry in sustainability can use APR shrink sleeve label design guidance to develop and commercialize innovations that will benefit the entire packaging industry. This document is written to complement the APR Design® Guide for Plastics Recyclability by consolidating key shrink label guidance: https://plasticsrecycling.org/apr-design-guide/apr-design-guide-home The APR offers programs, such as Critical Guidance Recognition, that distinguish innovations that are demonstrated to be compatible with recycling: https://plasticsrecycling.org/recognition/programs This document contains four sections: 1.
[Show full text]
WHEATON® Glass Bottles
WHEATON® Glass Bottles WHEATON® Glass Bottles WHEATON offers a comprehensive line of glass laboratory bottles and jars. Glass bottles offer sample reliability and integrity, and is a mainstay of labs worldwide. WHEATON bottles are manufactured from USP Type III soda-lime glass with moderate chemical resistance. Popular bottle styles available include Media Bottles, Boston Rounds, Wide Mouth Packers, Straight Sided Jars and Safety Coated Bottles for enhanced laboratory protection. WHEATON completes the package with the right closure. We provide a variety of caps and seals to ensure a perfect fit for each container. WHEATON offers convenience bulk packs of containers with or without caps attached for high use items or facilities with centralized stockrooms. With safety in mind, Tamper Evident Seal / HAZCOM Labels are provided in each case of bottles with the exception of bulk packs. Product Highlights • Bottles manufactured from clear and amber USP Type III soda-lime glass • Wide mouth bottles are ideal for dry and viscous samples • White polypropylene or black phenolic screw closures can be • Amber colored glass is ideal for light sensitive products purchased separately • Narrow mouth bottles are ideal for liquids • Methods of sterilization: dry heat or EtO (not suitable for autoclave) • Safety coated glass prevents dangerous spills and control sharp fragments WHEATON® Glass Bottles French Square Valumetric™ Graduated Bottle Media Bottle, Lab 45 ■ Clear or Amber, USP Type III soda-lime glass ■ Clear, USP Type III soda-lime glass ■ Manufactured
[Show full text]
Ész.AORNEY %2
April 17, 1951 H. W. WILLIAMS 2,549,404 BOTTLE STOPPER Filed May 7, 1946 J& Z. 24 B 1. 2 2 L2 12 2YaaaZZYaz27.277 NWENOR AAPOZA M/ M/7// van/s BY 7 -ész.AORNEY %2. Patented Apr. 17, 1951 2,549,404 UNITED STATES PATENT of FICE 2,549,404 BOTTLE STOPPER Harold W. Williams, Pawling, N.Y. Application May 7, 1946, Serial No. 66,860 5 Claims. (C. 25-48) 2 The invention herein disclosed relates to a sufficient elasticity to conform to the neck of a bottle Stopper of the kind that includes a plug bottle in which it is inserted, and make a fluid portion that is adapted to be inserted in the neck tight fit therewith. Desirably, as illustrated, the of a bottle. Side wall of the plug makes a right angle with Bottle stoppers of the kind mentioned that are 5 the end wall. This provides the necessary rigid Commonly used include, in general, a cork plug. ity and prevents the plug from collapsing when and a WOOden end piece or cap glued or cemented inserted in the neck of a bottle. to the plug. Such bottle stoppers have many in There are several materials, moldable thermo herent and well known disadvantages, and var plastic materials, that are pliable at ordinary ious attempts have heretofore been made to pro O temperature and therefore suitable for the bottle duce a, bottle stopper of this kind to replace the stopger of this invention. One such material that cork Stopper. Except for the glass stopper, has been found especially suitable for the pur which has limited application because of its cost, pose is “Polythene.' This is a thermo-plastic none of these prior attempts have met with any material that is available on the open market and measure of success.
[Show full text]
Packaging Influences on Olive Oil Quality: a Review of the Literature
Report Packaging inﬂuences on olive oil quality: A review of the literature Selina Wang, PhD, Xueqi Li, Rayza Rodrigues and Dan Flynn August 2014 Copyright © 2014 UC Regents, Davis campus. All rights reserved. Photo: iStockphoto/danr13 Packaging influences on Olive Oil Quality – UC Davis Olive Center, August 2014 Packaging Influences on Olive Oil Quality: A Review of the Literature Extra virgin olive oil is a fresh juice extracted from olive fruits. As with other fruit juices, the freshness and flavor quality of olive oil diminish with time, and the rate of deterioration is influenced by packaging type. To maximize shelf stability, the ideal packaging material would prevent light and air penetration, and the oils would be stored in the dark at 16 – 18 °C (61 – 64 °F). Table 1 indicates how chemical components in olive oil influence the shelf life of the oil. Table 1. How chemical components in the oil can influence shelf life Chemical component Effect on the shelf life Fatty acid profile High level of polyunsaturated fats such as linoleic acid and linolenic acid shortens shelf life; high level of saturated fats such as stearic acid and palmitic acid helps to prolong shelf life. Free fatty acidity Free fatty acids promote oxidation and shorten shelf life. Peroxide value High level of peroxide value shortens shelf life. Trace metals Trace metals promote oxidation and shorten shelf life. Oxygen Oxygen promotes oxidation and shortens shelf life. Moisture Moisture promotes oxidation and shortens shelf life. Phenolic content Phenolics are antioxidants and help to prolong shelf life. While a high quality olive oil under ideal storage conditions can be stored for months, even years, without becoming rancid, oxidation ultimately will lead to rancid flavors and aromas.
[Show full text]
Stars in a Sensory Bottle Activity
UAMN Virtual Early Explorers: Solar System Stars in a Sensory Bottle Relax and imagine the solar system in a vast universe! Materials: Sturdy transparent plastic bottle or jar, glitter, sequins (star-shaped or round), heavy tape or glue. Liquid to fill bottle: • water and food coloring/ tempera paint (water- based) OR • mineral oil and candy decorating dye (oil-based) Instructions: Step 1: Clean your bottle or jar thoroughly to avoid growing mold. Step 2: Add glitter and sequins. Suggested quantity: 2-3 teaspoons for a 16-ounce bottle. Adjust to your preference. Step 3: Fill with your choice of liquid: water or mineral oil. In mineral oil (or baby oil), glitter will stay suspended longer than in water. Step 4: Dye your liquid with a blue color. If you used water, add a few drops of food coloring, liquid watercolor, or tempera paint. If you used mineral oil, use an oil-based dye, such as candy decorating colors, as water-based colors will not work in oil. Enjoy your sensory jar! Talk about our Solar System’s place in our galaxy and in the universe! UAMN Virtual Early Explorers: Solar System At Home in The Milky Way Discover the incredible vastness of our galaxy and beyond! Our Solar System has one star, the Sun. The Solar System and Sun are part of a galaxy: a huge collection of stars, gas, and dust. Our galaxy is called the Milky Way. Scientists estimate that there are between 100 and 400 billion stars just in the Milky Way! The universe contains billions of galaxies like this, each one full of stars.
[Show full text]
DID YOU KNOW? PET (Polyethylene Terephthalate) Is Actually Polyester. When PET Is Used for Bottles, Containers and Other
355 Lexington Ave., Suite 1500 ▪ New York, NY 10017 ▪ www.PETresin.org DID YOU KNOW? Little-Known Facts about PET Plastic . PET (polyethylene terephthalate) is actually polyester. When PET is used for bottles, containers and other applications, it is called PET or PET resin. When PET is used as a fiber, it is typically called polyester. The PET bottle was invented by Nathaniel C. Wyeth, a DuPont engineer and brother of American painter Andrew Wyeth. The patent was issued to Wyeth in 1973 and assigned to DuPont. According to the EPA, recycling one pound of PET bottles (that’s about 10 two-liter soda bottles) saves approximately 26,000 BTUs of energy. PET bottles and the sun are helping millions of people in developing countries obtain potable water. Using a system called SODIS (solar water disinfection), inhabitants set water-filled PET bottles in the sun for several hours or days – depending on how much sunlight is available – as a simple but effective means of destroying disease-causing bacteria and gaining safe drinking water. More than 1.5 billion pounds of used PET bottles and containers are collected in the U.S. each year for recycling. PET is the most recycled plastic in the U.S. and the world. A single-serve PET bottle (0.5 liter) is strong enough to hold 50 times its weight in water. Chemists keep finding new ways to make PET lighter without losing any strength. A 2-liter PET bottle that weighed 68 grams in 1980 now weighs as little as 42 grams. The average weight of single-serve 0.5 liter PET water bottle is now 9.9 grams, nearly half of what it weighed in 2000.
[Show full text]
Plastic Bottles Today Innovating to Reach Today’S Consumer
PLASTICS MARKET WATCH PLASTIC BOTTLES TODAY INNOVATING TO REACH TODAY’S CONSUMER BETTER INDUSTRY. BETTER WORLD. February 2017 The Plastics Industry Association (PLASTICS) sends special thanks to the Brand Owners, Processors and Equipment Councils, and Rigid Plastics Packaging Group (RPPG) for their guidance and input on this Bottling Plastics Market Watch Report. Materials were compiled, written and edited by William (Bill) Mashek, with editorial assistance from Kim Holmes, George Southworth, Kendra Martin and Ashley Stoney at PLASTICS. Copyright Plastics Industry Association. 02 Plastics Market Watch—Watching: Bottling Plastics Market Watch Plastic Bottles Today Innovating to Reach Today’s Consumer A series examining the business of plastics, including demographics, economics, policy developments and technological trends in specific plastics end markets. Contents 05 Forward 08 Introduction: Plastic Bottles Today— Innovating to Reach Today’s Consumer 11 Role of Plastics in Bottling 16 Growth of Plastics Bottling 20 Innovation 25 Plastic Bottle Economics 29 Bottling Equipment & Machinery 31 Recycling Progress 37 Conclusion 42 Plastic Bottle Glossary 49 Sources 52 Plastics Market Watch Snapshot Plastics Market Watch—Watching: Bottling 03 04 Plastics Market Watch—Watching: Bottling Forward The Plastics Industry Association’s (PLASTICS’) Plastics Market Watch reports provide forward-looking data and insights on key plastics industry end markets. The series examines the business of plastics, including demographics, economics, policy developments and technological improvements for markets including automotive and transportation, healthcare and medical devices, packaging, building and construction, automotive recycling, bioplastics and consumer electronics. Given the role that plastics play in today’s modern society, Plastics Market Watch reports offer a holistic picture of our technology—from beginning-of-life resins and polymers to end-of-life management and recycling efforts.
[Show full text]
Amphora-Aged Cos Wine: New Or Ancient
AMPHORA-AGED COS WINE: NEW OR ANCIENT There is something simply amazing to view a winery making its top wines in a series of earthenware jars. Is there shock-horror? Yes for a technocrat trained on the finer points of grades of stainless steel. But no for someone on a path of discovery to understand just what the practitioners do when there is a choice to return to the roots of winemaking practice. And the use of clay pots has been a natural winemaking event year-on-year in Georgia for as far back as 6000 years BC. Recently a colleague advised me that a 2012 trip to this old world winemaking country included a visit to a monastery using the clay pot containers continuously for 1000 years (a lot of vintages there to build up tartrate!) So I was recently on the path of discovery in Sicily to visit two famous properties using earthenware jars for winemaking and aging (COS in Vittoria) and Cornelissen (on Etna) who ages new wine similarly. There is a space in between with the technology path-that of using oak barrels as storage vessels, and over the past decade used, large (3-5,000 litre) format casks have proved to be valuable aging means for high quality wines. Casks displaced earthenware vessels as they were more practical. However keeping large casks fresh and clean is a never-ending job, and at times capable of going wrong (cask has to be burnt). Also the cask remains practical for making larger volumes of wine, while re-introducing the clay pot makes sense for small parcel winemaking as pot management is a lot simpler than in the 15th century.
[Show full text]
Labeling Playbook HOW to SUCCESSFULLY IMPLEMENT LABELING PROJECTS
2011 Edition packager’s playbook series education for packaging professionals Labeling Playbook HOW TO SUCCESSFULLY IMPLEMENT LABELING PROJECTS • Label design strategies • Material specification best practices • Machinery selection and implementation • Evaluation toolkits Sponsored by: Labeling Playbook CONTENTS 2 / 71 CONTRIBUTORS 4 Brand owners, consultants and design experts contributing to this playbook INTRODUCTION 6 Why the need for labels that deliver on shelf and across the value chain DESIGN 9 For great labels, know your consumer 16 Assemble a cross-functional team 20 Five steps to optimizing label design 24 Two ways to justify package design 27 Outsource or in-house? Six evaluation steps DEVELOPMENT 29 Latest labeling material trends 33 Label specification: Best practices in package development 38 Building labeling supplier relationships that foster innovation 40 How labeling projects fail Labeling Playbook CONTENTS 3 / 71 EQUIPMENT 42 Five labeling equipment trends 44 Seven best practices for buying labeling machinery 47 Vendor evaluation methodology for labeling equipment 49 Staffing a machinery project for success 51 Roadmap for a successful labeling factory acceptance test 54 Ten tips for a successful line start-up 57 Determining when to rebuild or replace a labeling machine 59 Financial justifications for labeling equipment 63 Four common pitfalls to avoid on label machinery projects GALLERY 65 Label Design Gallery — Selected examples of labeling innovation This playbook is proudly sponsored by: Labeling Playbook CONTRIBUTORS 4 / 71 The following brand owners, consultants and design experts contributed to this playbook: PAUL ZEPF JEFF GEORGE P.Eng., M.Eng., CPP Vice President of Research & Development Zarpac Inc. Sara Lee Corp. With nearly 40 years of packaging production experience, Zepf has written 14 books on packaging production technology and is a co-founder of Zarpac BRAD ROdgERS Inc., an engineering, software, and consulting firm.
[Show full text]
Boston Round Glass Bottles
Boston Round Glass Bottles Finneran Products Certifi ed For ScienceTM - Available in clear or amber glass - Choice of closure and liner - Available in standard, precleaned or precleaned/certifi ed in accordance with recommended E.P.A. Protocol CLASS 1: (Standard) Containers are assembled with liner and closure without washing treatment. CLASS 2: (Precleaned) Containers are processed according to EPA recommended wash procedures. Washed with laboratory grade biodegradable, non-phosphate detergent, rinsed with ASTM Type I De-ionized water, oven dried, and assembled in a contaminate-free environment. Th e exterior of each case is labeled with a lot number. Each case contains a copy of wash “Standard Operating Procedure.” CLASS 3: (Certifi ed) Containers are processed according to EPA recommended wash procedures. Washed with laboratory grade biodegradable, non-phosphate detergent, rinsed with ASTM Type I De-ionized water, oven dried and assembled in a contaminate-free environment. Th e exterior of each case is labeled with a lot number. Each case contains a “Certifi cate of Analysis.” An independent laboratory is used to certify the container’s cleanliness, assuring impartial results. Standard Assembled with White Polypropylene Closure, .015” PTFE Lined Clear Glass Boston Round Bottles - Class 1 Cat. No. Description Qty 9-170 1 oz, 30mL Clear Boston Round Bottle, 20-400mm Th read, White Closure, PTFE Lined 24 Pack 9-171 2 oz, 60mL Clear Boston Round Bottle, 20-400mm Th read, White Closure, PTFE Lined 24 Pack 9-172 4 oz, 125mL Clear Boston Round Bottle, 22-400mm Th read, White Closure, PTFE Lined 24 Pack 9-173 8 oz, 250mL Clear Boston Round Bottle, 24-400mm Th read, White Closure, PTFE Lined 12 Pack 9-174 16 oz, 500mL Clear Boston Round Bottle, 28-400mm Th read, White Closure, PTFE Lined 12 Pack 9-175 32 oz, 1000mL Clear Boston Round Bottle, 33-400mm Th read, White Closure, PTFE Lined 12 Pack Amber Glass Boston Round Bottles - Class 1 Cat.
[Show full text]
Wine Club Jean Impey
Wine Club designed exclusively for Hoffman Fabrics by Jean Impey Finished Size: 37.5” x 23” Fabric Requirements 1895 311-Lake 1895 227-Sprout a 1/8 Yard g 1/4 Yard (background - 5 blocks) (3 bottles/blocks) 1895 538-Nirvana 1895 377-Spinach b 1/4 Yard h 1/4 Yard (background - 11 blocks) (4 bottles/blocks & 1 bottleneck) 1895 239-Persia 1895 225-Rosemary c 1/8 Yard i 3/8 Yard (background - 5 blocks) (6 bottles/blocks & 5 bottlenecks) 1895 501-Sand Dollar 1895 30-Lilac d 1/4 Yard j 1/4 Yard (wine label - 15 blocks) (3 bottles/blocks) 1895 485-Funnel Cake 1895 46-Plum e 1/8 Yard k 1/4 Yard (wine label - 6 blocks) (3 bottles/blocks & 14 bottlenecks) 1895 80-Taupe 1895 390-Zinfandel f 5/8 Yard* l 1/8 Yard (sashing, borders & binding) (2 bottles/blocks & 1 bottleneck) 2 09/2020 This Wine Club wall-hanging was inspired by a collection of a dozen Hoffman Hand-dyed Watercolors and naturally lends itself to a wine theme. This project is paper-pieced and offers a Hoffman Wine label that can be printed onto our Watercolors. The method shown is decorative only and NOT permanent or waterproof. Experience of Paper-Piecing is recommended. Read the instructions carefully before cutting. View our instructional video here www.youtube.com/watch?v=BfnEVoCy7uw The finished wall-hanging measures 23” x 38”. It is made up of three rows of seven blocks for a total of 21 blocks and has a 1” finished border.
[Show full text]