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Acquiring a new packaging machine, whether it’s a cartoner, case and tray packer or palletizer, can be one of the most important, exciting and fulfilling investments you can make. Of course, just like with any investment, you should educate yourself on the recommended strategies and usual stepping stones. We don't see ourselves as the mere packaging machine manufacturers - we prefer to think of ourselves as a trusting partner, therefore we want to make sure that you will make the right investment. So here they are: The 8 advices you should follow when you consider buying a new packaging machine. 1. Research Online, Purchase Offline. A bad decision is an expensive decision, regardless of the price and online research is definitely one of the most important steps when making a choice. Use the internet to educate yourself and learn about new modular features of packaging machines and packaging techniques that may interest you in the future. Knowing all the right facts can save you hours of time and miles of travel. Narrow your choice down to two or three manufacturers and models that could meet your needs. Instead of spending a little time in communication with many manufacturers, take your time and get all the important information from the few manufacturers you contacted. 2. Be a Value Shopper - Not a Price Shopper If you are too focused on the right price, you might end up with the wrong machine. If you must stay in a specific price range, ask about certain modular add-ons you can buy later. This will allow you to move up in features as your business and budget grow, without losing a big part of your initial investment. A good manufacturer should provide a way for you to upgrade your equipment. Some manufacturers hold their value better than others. 3. Ask About Warranty and Services So you found the best possible price, but you also need to check can the manufacturer you chose provide you with satisfactory warranty, spare parts and servicing of the machine. With investments as big and as important as buying a new machine, it’s the little differences that can make you change your mind. 4. Expect and Embrace Training Do not assume that you can skip the education or support on your new machine. The more complex the packaging solution is, the more valuable a well-educated support team will be. Don't learn by trial and error - it could cost a lot, it lasts longer and it is completely unacceptable in the business world. On the other hand, proper training can help you to explore new possibilities and find the best way of utilizing your new packaging machine. 5. Try Before You Buy A good demonstration and testing are mandatory! Even a custom made machine may seem to have all of the features you need when you are watching it perform, but you may not notice the subtle adjustments being made by the demonstrator. Don’t be fall for the smoke and mirrors. Demand to see the machine working with a variety of products and packaging types, utilizing all the features you required. 6. Allow Yourself Room to Grow Anticipate your development and avoid the expense of outgrowing the machine too quickly. Purchase a machine that allows you room to grow. Your business might not be so big today, but you may find that with a solid packaging line you can experiment with the packaging types that would be out of the question with your current equipment. Even if you have only a small interest in expanding your product line, ask about the ability to add the features that will allow you to pack your potentially new product in the future. Some features can be added as an after-purchase, while some will require an entire change of models. 7. Trust Your Instincts You took a quote from a few manufacturers for a similar packaging solution and realized that the prices are similar as well. So, the deciding factor should be, “Which manufacturer seems more appealing? Who is the most suitable for a long term relation?” After all, you are investing in an entire packaging environment, not just in a packaging machine. Make your purchase where you feel at home. Will you be at ease contacting the manufacturer and asking for help? Is technical help readily available? 8. Always Consider a Manufacturer's Reputation How committed is the manufacturer to you as a client? Are they set out to make the initial sale with a focus on building a long term relationship, or do they assume they won’t be seeing or hearing from you in a while? Do they offer a full line of products and services that support your business? Are they structured as a onetime stop for acquiring the machine, or as a potential lifelong partner in all your packaging endeavors? We won’t tell you that Tishma Technologies should be your first choice. Just follow these steps. We look forward to cooperating with you.
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When it comes to packaging equipment, modular seems to be the new black! The modular approach is based on the idea that all elements should have a Lego-like configuration, so that various modules can be arranged to fit the application. This can be a bit of a challenge for engineers, but the benefits are worth the effort, and here is why: 1. Modular design can save you floor space It’s a fact that packaging equipment usually comes last on the “to do” list. After acquiring all the production machines, what’s left of the floor space is used for packaging equipment. Modular machines are great for tight or unusual spaces, for example: systems that once would have been an in-line machine are now being reinvented in different layouts and shapes to fit the specific requirements. 2. Modular design allows you to use hybrid technologies With modular design two separated equipment operations can now be integrated as one. Beside that, the modular packaging equipment gives you the possibility to turn on or off some machine operations. For example, you can integrate a robotic palletizer under the same controls as other operations (case erecting/loading), and use it when you need it. 3. Modular design requires less time for development It’s simple: Once the design is split up into modules, design teams can work at the same time on the different modules, therefore, the development time is often lower. 4. Modular design comes at a reasonable price For a machine built from scratch, you have to pay development costs as well as production costs. With a modular design, client covers only production expenses, since most of the modules have already been developed. 5. Modular design and tailored standardization Tailored solutions are not to be mixed with custom solutions. Tailored standardization enables manufacturers to construct the right solution with standardized parts of different sizes. This way, tailored standardization offers a right-sized solution built according to specific requirements, while keeping the benefits of economies of scale. Now, let’s go through the 9 most common modular add-ons that can make your packaging process much faster, efficient and cost effective.
2. Automatic Leaflet feeder Many products come with an important leaflet that describes the product and its proper use. The automatic leaflet feeder can automatically collate and insert literature in the package at very high speeds, so you don’t have to do it manually 3. Ink Jet or Laser printer An InkJet Coder is a modular add-on for a packaging machine used to mark the package with very important, trackable information with the help of a jet that shoots ink in a pre-determined pattern.. Laser Coding is an enhancement for a packaging machine which marks packages with a help of a laser beam programmed to produce a code or date onto the package. There are no liquids involved in the process so laser systems are also considered environmentally friendly. 4. Glue or tuck closing Tuck closing add on is a closing system which closes a package, usually a carton, using pre-cut tabs and slots. Glue Sealing add on is a sealing system which uses adhesive to seal cartons or corrugated cases and provides tamper evident security for these packages. 5. Automatic product feeding system The high volume of products require feeding systems that can accept products from the manufacturing process and deliver them to the packaging machines without manual labor. 6. Robotic product loading Today it is necessary to have not only packaging machines with high flexibility on format changes, but also product feeding systems for different types of packaging machines: cartoners, case packers, tray packers, palletizers, etc... Robotic feeding systems are highly efficient and flexible, enabling quick adaptations and changes with the minimum possible cost, supporting the initial investment. 7. Net weigh scale interface If packaging accuracy is low, it means packages are going to be over filled, which will result in an excessive product give-away. That is where scales come in. Significant innovations in physical design, simple HMI software, and repeatable accuracy allow you to maximize packaging performance and profitability. 8. Volumetric filler Volumetric cup fillers measure out a product, usually free-flowing solids or powder, in a cup of specific, predetermined volume. This add-on is ideal for products like rice, candies or frozen peas, which do not generate dust. This type of filler is suitable for precise filling of products at both low and high speeds. 9. Auger filler An Auger Filler is a filling mechanism for powder or free flowing solids, which measures out a product with a help of an auger which is rotated for a predefined number of revolutions in a conical hopper to discharge the required volume of product. The main advantage of this system is the ability to control dust during the filling operation, so it is used extensively for powders and dusty free flowing solids. Palletizing, depalletizing, welding, painting, assembly, packaging and labeling, product inspection, and testing; all done with high speed, endurance and precision – looks like a right job for a robot! According to the World Robotics 2016 study conducted by the International Federation of Robotics (IFR) by the end of 2015 there were around 1,631,600 functional industrial robots,. This number is estimated to reach 2,589,000 by the end of 2019. The biggest customer of industrial robots is the automotive industry with a 38 % market share, followed by the electronics industry with 25%. Then comes metal and machinery industry with 12% and rubber and plastics industry with 7%. Robots are also widely used in the packaging industry. Some applications put robot as the central piece of equipment – example for this are robotic palletizers. Robots can also be integrated in any packaging line, as an add-on for horizontal and vertical cartoners, or other packaging machines. The first known industrial robot, made according ISO standards was created by "Bill" Griffith P. Taylor in 1937. It was the crane-like machine powered by one single electric motor. It could move in five axes including grab and grab rotation. In 1961 George Devol was granted a first robotic patent and in 1956, he and Joseph F. Engelberger started the first company to produce an industrial robot. It was called Unimation and since the main use of their robots at first was to transfer objects from one place to another, robots were also called programmable transfer machines. In 1969, Victor Scheinman invented the Stanford arm, an all-electric, 6-axis articulated robot. This robot had a much wider potential use in more sophisticated applications such as assembly and welding. Today, most types of robots would fall into the category of robotic arms, or manipulators, according to ISO standard 1738. There are a lot of parameters used to describe the features and possibilities of a today’s robotic arm and here are the most important ones. For detailed explanation of these parameters click HERE.
We hope you got to know our mechanical friends better. Wisely chosen robotic packaging equipment, acquired from the right manufacturers and integrated by the right experts can bring significant efficiency improvements. To learn more about the way we utilize robots, check out Tishma Technologies Tetristack Robotic Palletizers, available in 6 different variations created to respond to your particular needs. The most dynamic and the fastest developing segment of the world’s coffee market is the single portioned coffee segment. This segment continues to grow in terms of volume and value, according to Nielsen data from June 2013. The K-cup introduced the new way of consuming coffee and it changed the way we perceive packaging. Being at the same time a single serving container and a cartridge, K-cup is built to endure high temperatures and to provide an air and moisture protection. As K-cup technology continues to show remarkable sales, it appears that this trend is here to stay. Green Mountain/Keurig has done an outstanding job of introducing coffee consumers with single-cup brewing concept at work, and now these consumers have begun to ask for the same benefits at home. When it comes to packaging, K-Cups are indeed an inspiring topic. There are many useful lessons we can learn just observing K-Cups, their development and principles they apply. So, what are the most important lessons we extracted?
Innovative packaging can change the way consumers perceive a product, and it can help a product penetrate new markets. Just like stick pack altered the way we use sugar (learn more here), Keurigs coffee machines and K-cups introduced us to an entire new way of brewing coffee, forming a new market. Lesson? Creativity and persistence do pay off! In the beginning the inventors of K-cups were producing the pods manually. The first coffee machines were a work in progress and unstable, and the company needed funding for development. After many pitches to potential investors, they finally got $50,000 from Minneapolis-based investor Food Fund in 1994, and later the Cambridge-based fund MDT Advisers contributed $1,000,000.
Carton boxes are used for transporting and storing K-cups. K-cups are packed in a certain manner that saves space: every-other cup is inverted, they interleave and minimize space usage in the box, so that more K-cups can fit into one carton. Your floor space deserves the same treatment, especially when you are acquiring some type of industrial line. No matter how big your scope is, there’s no need for cluttering it with massive machines and huge pieces of equipment. Search for a manufacturer that can meet your individual needs and design a custom solution taking into regard to your floor space. K-cups can also teach us about power saving. Instead of using constant electricity to keep a pot of coffee warm for longer periods of time, pod machines can save electricity by making single-serving hot drinks. Using single-serving pods means coffee grounds are being used more efficiently to extract more coffee from each bean. K-cup promoters state that this is important because coffee beans require a lot of water to be harvested, and every time a cup of coffee does not extract as much coffee from the bean as possible, the water used for that harvest has gone to waste. Lesson: Be respectful to your resources and you can go a long way.
Only licensed and standardized K-cups can be used with Keurig’s coffee machines. There are a large number of unlicensed coffee pods in the market, but though they are more affordable, their use is not recommended because they can damage your coffee machine. Use of strictly licensed K-cups may seem costly in the short term, but in the it saves money in the long run, because your coffee machine will last longer. Same applies for buying printer cartridges, mobile phone chargers or spare parts for an industrial machine – always buy from a reliable manufacturer. This is the only way to be sure that materials or add-ons you bought are compatible with the system you already have. So what is the final message, after going through these lessons? If you are determined to get your share of profit in coffee brewing market, your next step should be investing in the right packaging system that will allow you to quickly pack and ship your K-Cups to all those coffee lovers out there. The most important requirement for K-Cup packaging machines is being able to handle the cups coming in, top –up, at a very high rate of speed (sometimes up to 900 cups per minute) and inverting every-other cup in order to save space. Eventhough K-cups aren’t eco-friendly, by utilizing the right packaging machines you can make the secondary packaging process more economic in terms of time and power saving, which will result in lesser environmental impact. If you are a K-cup manufacturer or a coffee brewer, read more about our TI – 100 K-cup packaging system. TI 100 is a High-Speed small center vertical system with a patented computer scale interface or volumetric cup fillers for high speed cartoning of K-Cups. Our 100 Series Cartoners feature user-friendly PLC’s combined with mechanical, state-of-the-art simplicity, and besides K-Cups, they are also very convenient for Fruit Cups and Yogurt packaging.
One of the most significant logistics tools - pallets and pallet handling, emerged in the 20th Century. During the past century pallets continued to improve and develop along with the evolution of modern logistics. Use of pallets provided important improvements in the efficiency of handling and conveyance of unit loads. During World War 2, pallet design and management further evolved. The Office of The Quartermaster General, Field Operations Branch of the Storage Division was the first to determine steps in developing new warehouse handling and storage methods. They were facing big pressure and heavy responsibility: their new methods had to give results quickly. Only one manufacturer was able to deliver an amount of a fork trucks with a load capacity of 2000 lb at the time. The total system was adjusted according to this truck, and the pallet of the Quartermaster Corps was designed to fit that truck load capacity. A standard dimensions of Quartermaster pallet are 32 in. in length and 40 in. in width. A million or more of these were procured and placed in service during the following year. As the time passed, manufacturers of fork trucks increased their output and the Quartermaster General procured the larger trucks for all services, causing the role of larger pallets more common. In 1942, the Navy started its own materials handling program. Navy ordered more of the larger trucks with load capacity up to 15,000 lb, since the manufacturers of fork trucks were in quantity production by then. This is why the pallets made for inter-depot and overseas shipment are bigger: they are standardized on the 48 x 48 in. for inter-depot and overseas shipment, and 42 x 66 in. pallet for the intra-depot movements Many companies utilize pallets for shipping and stacking of their products and since manually placing boxes on pallets can be time consuming and expensive, these companies turn to automatic palletizing systems, or Palletizers. A Palletizer is a machine which automatically stacks cases of goods or products onto a pallet. The first mechanized Palletizer was designed, built, and installed in 1948 by a company formerly known as Lamson Corp. The first type of mechanized Palletizer was the row-forming Palletizer. First, application loads are arranged on a row forming area. Then, they are being moved onto a different area where layers are formed. This procedure is repeated until a broad layer of goods and products are ready to be put on a pallet. The 70s brought higher demands in terms of the speeds required for palletizing, thus the in-line Palletizer was launched. This Palletizer type uses a continuous motion flow divider that guides the cases of products into the desired area on the layer forming platform. Robotic Palletizers were introduced in the early 1980s. The key part of these Palletizers is a robotic arm, and end of arm tool (end effector) used to pick up the product from a conveyor or layer table and position it onto a pallet. Robotic Palletizers are being utilized in many industries including food processing, manufacturing, and shipping. Various end-of-arm-tools provide flexibility and different types of robot palletization. For example, suction and magnetic grippers handle more ridged items and grip them from the top, while bag grippers grab an item and support it on the bottom.
We are sure that you have already embraced the use of pallets for shipping and stacking of your products, but do you have an appropriate palletizing solution? Make sure to check Tetristack Robotic Palletizers by Tishma Technologies, built to match your needs and your floor space. If you still haven’t, consider investing in a good, automated palletizing system built to meet your needs, check out robotic Palletizers by Tishma Technologies. Have you ever wondered how would you pack for moving to a new place if there weren’t for cardboard boxes? How would Amazon deliver their goods to you? What would you be holding in your hands when you leave your office to go to a new, better job? Cardboard case spontaneously became a symbol of transport, protection, efficiency and change. One case can contain 24 cans of food, 4 gallon jugs, 15 bottles of soda, 12 bottles of wine or 10 video tapes. Case can be big enough to accommodate a dram or a hectare and small enough to cover a milligram. Isn’t that amazing? But who is to be credited for this four angled, square shaped invention, and when did it all start? Credits for discovering a single-sided corrugated board are given to Albert Jones from New York City. Three years after Jones’s discovery, Oliver Long improved his design by adding liner sheets on both sides of corrugated board, creating a design that we know today. In 1890, a Brooklyn printer and paper-bag maker, Robert Gair accidently invented the pre-cut cardboard box. One day, while he was printing an order of seed bags, a metal ruler which is used to crease bags changed position and cut them. Gair then discovered that by cutting and creasing at the same time he could make prefabricated paperboard boxes! This idea was applied to corrugated boxboard when the material became available around the turn of the twentieth century. Rising demand for lightweight flaked cereals in the beginning of 20th century lead to the rise in the use of cardboard boxes and the first company to use cardboard boxes as cereal cartons was the Kellogg Company. Today, cardboard cases became an immediate association for shipping and stacking of various goods and when we take into account all the multiple advantages of cardboard cases, it is no wonder that they are favorite shipping and stacking solution.
The primary task of shelf-ready packaging (SRP) is delivering your product to a retailer, packed in a special unit that can be easily placed on the shelf without unpacking or repacking. It seems incredible, but the use of shelf ready secondary packaging can actually help you increase your revenue up to 35%! Besides that, a good SRP can even make your distributors embrace and support your product. But what is necessary to make a good SRP? What are the advantages of a SRP for the consumer, and what are the advantages for the distributer? This post should address those questions. A Typical SRP solution consists of a tray made out of corrugated cardboard and a cover, usually made out of transparent film. But it is not that simple. If you want to be able to call your packaging shelf-ready, there are 5 conditions that need to be fulfilled: easy identification, easy open, easy dispose, easy shelf and easy shop.
And what do distributors have to say about SRP? There are significant differences in implementation of SRP between discounters and full-line distributers. The implementation rate of full-line distributors is 37%, which is significantly lower than the 90% implementation rate for discounters (Bergmann, H, 2007, Stand und Umsetzung von Shelf Ready Packaging). Because of aesthetic and image-related reasons, some full-line distributors avoid SRP. Other full-line distributors prefer it since it is easy to handle and it lowers personnel costs. However, the best possible presentation of the products doesn’t have to include the cost savings. Storing, unpacking, labeling products and filling the shelves is 70% to 80% of the daily activities in the food sector and that is where potential savings can be accomplished through the implementation of SRP. We already mentioned that printing on the SRP makes selecting stock easier. Easier and faster replenishment also brings improvement to in-store logistics which further leads to greater potential savings. Since SRP doesn’t need constant refilling, it gives you a chance for even more time and energy savings. More products per pallet can be dispatched, so fewer pallet movements are required. Easy transport means fewer delivery vehicles on the road. No more empty packs and goods waiting to be dispatched cluttering your storage: easy stacking of SRP helps with saving warehouse space. Because there is no extra collation packs inside shelf-ready trays, shelf placement requires less time and energy. The use of shelf ready packaging can also make packing operations more efficient, whether automated or not. A Good packaging line is a starting point for all numerous advantages of shelf ready packaging. If you have decided to make your secondary packaging shelf-ready, look up Tishma Technologies Tray Packers, available with tuck and glue closing, accumulation conveyors, small overall footprints and user-friendly HMI operator interface.
When you are passing by a candy isle in a supermarket, you cannot look away from all the vivid colors and pictures of delicious treats printed on candy packs of all shapes and sizes. Who would have thought that making a purchase can be such sweet torture? Like a big competition among candy where the winner gets to go home with you. But did you know that candy wasn’t always packed in attractive and colorful packages? The Tradition of candy packaging exists for just a little over 100 years. Until 1900, candy was sold in the streets, unwrapped, from carts where it was exposed to dust, dirt and insects, andonly upscale candy stores used glass jars at the time. It wasn’t until 1914 when first candy packaging machine emerged and it was used for packing chewing gum. Halloween also played a role in the development of candy packaging. During the 1940s, trick-or-treaters were being given individually wrapped candies. Small, home-made and home wrapped candy was considered to be most convenient to hand out on Halloween night. The seventies brought changes and factory-sealed packaging became both a standard and a sign of safety, after widely publicized but mostly false stories of tainted candy in the press. Today, the candy industry has come a long way. From the means of maintaining safety and hygiene,candy packaging became an important marketing tool. According to a Nielsen’s study in 2016, the top aspects of candy packaging that made the most impression on the consumer are visuals: the image of the product (51%), a window that shows the actual product (49%), logo or brand name (46%) and the color scheme of the package (41%). The main goal of every packaging design is to stand out on the shelf and win the battle for the consumers’ attention. This battle cannot be won without authenticity. If two or three brands feature the color yellow on their packaging, then the color is no longer drawing attention, and it certainly doesn’t make any distinction from other products. This is where experimenting and innovations are taking place. Innovative packaging formats like mini single-serve packaging, standup pouches, re-sealable packaging or shareable packs are bound to draw more attention. It can also be accomplished through specific colors or artwork, or new packaging materials. Experimentation comes with a certain risk though, so make your decisions wisely. Sometimes it can cause consumer backlash for legacy brands, with consumers passing over the new packaging for other more visible varieties. Once you launch a new packaging design, be aware that,shortly after, other manufacturers will start implementing your ideaon their products as well. Don’t forget the importance of secondary packaging! Well designed, shelf ready secondary packaging can also indirectly help you to drive sales, so make sure to invest in a good packaging line.Common secondary packaging solutions for candy are Horizontal and Vertical Cartoning Machines (check out cartoners by Tishma Technologies on the following link: https://goo.gl/nKLHwO). To sum it up: Good packaging line, tasty treat and a hint of innovation should do the trick and lead you towards the sweet path of success. Forty years ago a Japanese machinery manufacturer, inspired by Japanese tradition of simplicity, launched a vertical sachet called a Stick, which changed the way we utilize single portioned products. Other industries (Beverage, Pharma and Cosmetic) quickly embraced this kind of packaging, improving stick pack machines so they could increase output production and save on material costs. Four important principles of Japanese tradition can be recognized in the development of the Stick Pack: aesthetics, respect for nature, thrill of opening and tradition that meets innovation. Their aesthetics and elegance are the reason why retailers are very fond of stick packs: it is easy to display them by checkouts, and they save room on the shelves. Stick packs can be easily placed in dispensers, which is why restaurants were among the first to adopt the use of stick pack. The Pharmaceutical industry also utilizes stick packs, especially for medications that come in the form of powder. Consumers enjoy stick packs as well: they are easy to open (no tools necessary) and they can be emptied directly into your mouth, over your food or in your beverage. Japanese consumers celebrate the experience of opening the package – it makes them develop certain respect for the packaging while they enjoy the experience of unpacking such as untying a ribbon, or unwrapping individual items. The Stick pack is also environmentally friendly, which resonates with the Japanese principle of respect for nature. The Stick pack is much less demanding when it comes to material - you can save up to 20% or 40% of material, against 4 side sealed sachet and since the user takes 100% of product there is no waste that can cause environmental issues. One of the biggest advantages of the stick pack is hygiene. Traditional Japanese principles matched with an innovative approach to hygiene brought important changes to many industries. Stick Packs are a more effective concept than salt and sugar shakers that restaurants used in the past. These items are touched by many people so there’s a risk from contaminating and also wasting the product. Stick packs area much more advanced solution in terms of hygiene and minimizing waste.
When it comes to stacking and shipping of stick packed products, cardboard boxes are one of the best secondary packaging solutions. If you are in the stick pack business, make sure to check out the various cartoners by Tishma Technologies (link here), including models TI-50 and TI-60 that can receive your packs (in any count) and provide you your required pack counts (in any count) in the finished cartons. Tishma Technologies was established in 1977 as a custom design, engineering and manufacturing firm for the Secondary Packaging Machinery industry. In 2016 Tishma was acquired by Nortech, Inc. and while they continue to produce their existing product line, they have integrated the Robotic Case Packing and Robotic Palletizing systems of Nortech. This year has also produced the latest development in Tishma’s secondary packaging machinery offering – the Pre-Made Pouch machine. Tishma Technologies strength lies in fully integrated Robotic Systems, Horizontal & Vertical cartoners, Tray & Case Packers, Palletizers and the new Pre-Made Pouch machine supported by their custom designed in-feed systems.
Recognizing the requirements for compact cartoning machines, Tishma Technologies from their factory at State Parkway Schaumburg, IL manufactures a range of vertical & horizontal compact cartoners, which will accommodate both manual operations, as well as, fully automatic product loading environments. Tishma Technology manufacturers a wide range of compact cartoning machines that serve as a perfect answer to many production and secondary packaging company’s needs - machines that give ultimate flexibility. Tishma serves many prominent brands mainly in cosmetic, food & beverage, pharmaceutical, and various other major industries. Some well noted Tishma's clients are Pepsi, Abbot, Hershey, Nestle, Heinz, Avon and the list goes on. Tishma's vertical compact cartoner; Model TI-50 and horizontal compact cartoner Model TI-600, offers great flexibility, high speed, quick changeover and superior product handling. These cartoning solutions for complex cartoning applications are also very operator friendly. Further, the cartoners are designed to handle virtually every style of cartons available on the market (and some not yet on the market). Tishma's technological experience and modular design strategy provide sure-shot solutions for most applications. |
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