Purchasing a pouch filling and sealing machine is a substantial investment.
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It's important to ask your packaging equipment manufacturer the right questions to determine whether their machinery is the right fit for your business. Here are 4 key questions to ask your OEM before signing that purchase order:
Short on time? Download our free guide for 10 questions to ask when considering pouch packing machines. >>
1. What is the layout of the packaging machine?
There are two main layouts for pouch fill and seal machines: Rotary and Inline. An inline machine is designed with the beginning and ending points of the process at opposite ends of the equipment and as such requires more floor space. Rotary pouch filling and sealing machines are designed to carry out their operations in a circular fashion, with the start and endpoints of the process right next to each another. A rotary design requires minimal floor space and maximizes operator efficiency and ergonomics, and as a result is our top choice for this type of equipment.
2. How long does it take to change over to different bag sizes?
When a pouch packing machine is adjusted to accommodate different bags, the machine is down and not producing. Excessive time spent on changeovers is one of the chief operational complaints from manufacturers and contract packagers, as it eats into their productivity and bottom line.
So how long should it take to change over an automatic pouch fill and seal machine? For a rotary machine, 5 minutes or less. A changeover should be tool-free and uncomplicated so an entry-level operator can complete it easily. Preparing the machine for new bags should be as straightforward as adjusting a few knobs and pushing a button.
3. How durable are critical machine components?
It's what's 'under the hood' that counts, both for cars and packaging machines. A pouch fill and seal machine can look great from the outside, but if key components and wear parts are built from cheap materials, the equipment can end up costing you more money over the long term, both in parts and downtime for maintenance. Watch for an overabundance of plastic or degradable building materials as this can be an indication of future trouble.
As an example, bag gripper arms are a key pouch packing machine component that should be designed with durability and strength top-of-mind. Gripper arms are responsible for steadily holding the bag as it moves through different stages of the pouch packaging process. They should be constructed of stainless steel and have the ability to continuously support heavier fills of over 20 pounds without sagging.
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Key Questions to Ask When Ordering automatic packaging line supplier
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4. Where is the machine&#;s HMI located?
The HMI, or Human Machine Interface, provides a text and graphics-based visualization of the packaging system. An HMI is the main interface between an operator and the packaging machine and provides monitoring, controls, error reporting, and other functions. Modern HMIs are touch screen and intuitive to use.
An important but often overlooked design issue with HMIs is their location in reference to the pouch fill and seal machine. HMIs can be stationary, mounted directly onto the machine and immovable. They can also be separate from the packaging machine on their own stand or pedestal. Or, HMIs can be located on a swivel arm attached to the pouch fill and seal machine, which is our recommendation for the most flexibility. This type of HMI does not require any extra floor space and can be moved to the most convenient height and location for the current user. It can also easily be manipulated when cleaning the packaging machine.
More pouch packing machine tips
What else should you ask a packaging equipment manufacturer before buying a pouch fill and seal machine? Download our free ebook for more key questions and answers:
10 Steps to Plastic Bags
by J.T. McWilliams, President, Multi-Pak USA
Plastic bags, also called &#;poly bags,&#; are one of those modern conveniences we take for granted. But 60 years ago, no one ever considered the question, &#;Paper or plastic?&#; Back then, people also managed to get by without Ziploc® bags or dry cleaner bags.
This was because the technology for creating polyethylene film didn&#;t emerge until the s during World War II. And the methods to create plastic bags from polyethylene film weren&#;t developed until the s.
The most common way to produce poly bags is by blown film extrusion, also called the &#;tubular film process.&#; In a moment, you&#;ll see how it got this name.
Plastic bags are made from polyethylene. During processing, the polyethylene might be treated with any number of additives, such as:
- Anti-block&#;Prevents the plastic layers from sticking together (blocking).
- Slip&#;Helps the plastic bag open easier and allows items to slide in smoothly.
- Ultraviolet Inhibitor (UVI)&#;Protects the plastic from ultraviolet radiation, which can weaken the plastic&#;s strength and fade its color.
The polyethylene arrives at the plastic bag manufacturing facility in pellet form, referred to as resin.
Terms Used by Plastic Bag Suppliers
Blocking: A condition that occurs when very flat or smooth surfaces placed against each other will adhere together. Also called &#;cohesion.&#;
Die: A mold that produces a desired shape. In blown film extrusion, the die shape is circular.
Extruder: A pump for very thick fluids. The extruder contains a rotating screw that mixes and melts the material.
Frostline (or freezeline): The point where molten polyethylene solidifies into a film.
Gusset: Indentations in the sides of plastic bags that allow the bag to lay flat when stored but expand when opened.
Layflat Form: Tubular poly film that&#;s been flattened for rolling and further processing.
Nip Rolls: Two motorized rolling pins at the top of the cooling tower that pull the poly film upward.
Polyethylene: A type of thermoplastic resin made by altering the molecules of ethylene gas.
The following drawing shows how plastic bags are created. The machine used to create the plastic bags is an extruder and die assembly.
Blown Film Extrusion Process for Creating Plastic Bags
1. The machine operator pours the polyethylene resin into the hopper.
2. The hopper feeds the resin into the extruder.
3. Heating elements and the turning of the extruder screw melts the resin into molten form and forces it through the extruder.
4. The molten poly flows evenly up and over the circular die.
5. As the molten poly emerges from the die, the machine operator:
a. Grabs it wearing protective gloves.
b. Pinches the molten poly together.
c. Ties a rope to the top of the molten poly. The rope leads upward to a pulley system.
d. Pulls the other end of the rope to move the molten poly upwards. At the same time, the air ring blows cool air upwards, which solidifies the molten poly.
6. As the tubular shape moves up, the machine operator inserts an air gun through the poly film to blow in additional air. This step is repeated until the diameter of the tubular poly film reaches the required bag size.
7. Along the length of the tower are guides to keep the tubular poly film from shifting. As the film reaches the top of the cooling tower, the guides gradually flatten it into a layflat form.
If the plastic bag will have gussets, special frames (called &#;gusset boards&#;) indent the sides of the tube before it is flattened.
8. At the top of the cooling tower, motorized nip rollers grab the solidified poly film. The nip rollers now take over the job of moving the poly film up the cooling tower.
Note: Extruder and die assembly towers can be 25 to 35 feet tall. This height is needed to cool the polyethylene film before the layers are flattened together.
9. The layflat film travels over a series of rollers. For simple bags, such as trash bags or industrial bags, the film is contained to a single, in-line process. In this case, the polyethylene film:
- Travels through a bag machine that seals the bottom of the plastic bag and perforates it at the same time. The perforation allows the bags to be easily torn from the roll.
- May also travel through a separator that breaks the perforations and stacks the poly bags on top of each other for bulk packaging in a box.
10. For poly bags with complex features (for example, multi-colored printing, Zip-Loc® closure, or door knob hang holes) the film is wound on a roll and then taken out of line for further processing at a converting facility. A converting facility has a variety of specialized equipment to create the diverse features found in plastic bags today.
The blown film extrusion process for creating poly bags hasn&#;t changed much over the years. But what has changed is how we use plastic bags in our daily lives &#; whether we carry home groceries in &#;T-shirt&#; plastic bags or seal an expensive cut of meat into an air-tight freezer bag. What was once a novelty is now an everyday convenience.
Multi-Pak USA, Inc. supplies plastic/poly bags and closely-related products to businesses nationwide for use in a variety of industrial and promotional applications. We invite you to try our simple online Request for Quote form for your next order. For more information, visit our web site at http://www.multipakUSA.com or call 1-800-229-.
For more plastic bag production machineinformation, please contact us. We will provide professional answers.
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