How do Vertical Form Filling Machines Work?
Dec. 16, 2024
How do Vertical Form Filling Machines Work?
Vertical form fill seal (VFFS) packaging machines are used in almost every industry today, for good reason: They are fast, economical packaging solutions that conserve valuable plant floor space.
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Whether you're new to packaging machinery or already have multiple systems, chances are you're curious as to how they work. In this article, we are walking through how a vertical form fill seal machine turns a roll of packaging film into a shelf-ready finished bag.
Simplified, vertical packing machines start with a large roll of film, form it into a bag shape, fill the bag with product, and seal it, all in a vertical fashion, at speeds of up to 300 bags per minute. But there's a lot more to it than that.
1. Film Transport & Unwind
Vertical packaging machines use a single sheet of film material rolled around a core, usually referred to as rollstock. The continuous length of packaging material is referred to as the film web. This material can vary from polyethylene, cellophane laminates, foil laminates and paper laminates. The roll of film is placed on a spindle assembly at the rear of the machine.
When the VFFS packaging machine is operating, the film is usually pulled off the roll by film transport belts, which are positioned to the side of the forming tube which is located at the front of the machine. This method of transport is the most widely used. On some models, the sealing jaws themselves grip the film and draw it downward, transporting it through the packaging machine without the use of belts.
An optional motor-driven surface unwind wheel (power unwind) may be installed to drive the film roll as an assist to the driving of the two film transport belts. This option improves the unwinding process, especially when the film rolls are heavy.
2. Film Tension
During unwinding, the film is unwound from the roll and passes over a dancer arm which is a weighted pivot arm located at the rear of the VFFS packaging machine. The arm incorporates a series of rollers. As the film transports, the arm moves up and down to keep the film under tension. This ensures that the film will not wander from side to side as it is moving.
3. Optional Printing
After the dancer, the film then travels through the printing unit, if one is installed. Printers may be thermal or ink-jet type. The printer places desired dates/codes on the film, or may be used to place registration marks, graphics, or logos on the film.
4. Film Tracking and Positioning
Once the film has passed under the printer, it travels past the registration photo-eye. The registration photo eye detects the registration mark on printed film and in turn, controls the pull-down belts in contact with the film at the forming tube. The registration photo-eye keeps the film positioned correctly so the film will be cut in the appropriate spot.
Next, the film travels past film tracking sensors that detect the position of the film as it's traveling through the packaging machine. If the sensors detect that the edge of the film shifts out of normal position, a signal is generated to move an actuator. This causes the entire film carriage to shift to one side or the other as needed to bring the edge of the film back to the correct position.
5. Bag Forming
From here, the film enters a forming tube assembly. As it crests the shoulder (collar) on the forming tube, it is folded around the tube so that the end result is a length of film with the two outer edges of the film overlapping each other. This is the beginning of the bag forming process.
The forming tube can be set up to make a lap seal or fin seal. A lap seal overlaps the two outer edges of the film to create a flat seal, while a fin seal marries the insides of the two outer edge of film to create a seal that sticks out, like a fin. A lap seal is generally considered more aesthetically pleasing and uses less material than a fin seal.
A rotary encoder is placed near the shoulder (collar) of the forming tube. The moving film in contact with the encoder wheel drives it. A pulse is generated for every length of movement, and this is transferred to the PLC (programmable logic controller). The bag length setting is set on the HMI (human machine interface) screen as a number and once this setting is reached the film transport stops (On intermittent motion machines only. Continuous motion machines do not stop.)
The film is drawn down by two gear motors which drive the friction pull-down belts located on either side of the forming tube. Pull down belts that utilize vacuum suction to grip the packaging film can be substituted for friction belts if desired. Friction belts are often recommended for dusty products as they experience less wear.
6. Bag Filling and Sealing
Now the film will briefly pause (on intermittent motion packaging machines) so the formed bag can receive its vertical seal. The vertical seal bar, which is hot, moves forward and makes contact with the vertical overlap on the film, bonding the layers of film together.
On continuous motion VFFS packaging equipment, the vertical sealing mechanism remains in contact with the film continuously so the film does not need to stop to receive its vertical seam.
Next, a set of heated horizontal sealing jaws come together to make the top seal of one bag and the bottom seal of the next bag. For intermittent VFFS packaging machines, the film comes to a stop to receive its horizontal seal from jaws that move in an open-close motion. For continuous motion packaging machines, the jaws themselves move in up-down and open-close motions to seal the film as it is moving. Some continuous motion machines even have two sets of sealing jaws for added speed.
An option for a 'cold sealing' system is ultrasonics, often used in industries with heat-sensitive or messy products. Ultrasonic sealing uses vibrations to induce friction at a molecular level that generates heat only in the area between film layers.
While the sealing jaws are closed, the product that is being packaged is dropped down the middle of the hollow forming tube and filled into the bag. A filling apparatus like a multi-head scale or auger filler is responsible for the correct measurement and release of discrete quantities of product to be dropped into each bag. These fillers are not a standard part of a VFFS packaging machine and must be purchased in addition to the machine itself. Most businesses integrate a filler with their packaging machine.
7. Bag Discharge
After the product has been released into the bag, a sharp knife within the heat seal jaws moves forward and cuts the bag. The jaw opens and the packaged bag drops. This is the end of one cycle on a vertical packing machine. Depending upon the machine and bag type, VFFS equipment can complete between 30 and 300 of these cycles per minute.
The finished bag can be discharged into a receptacle or onto a conveyor and transported to downline equipment like check weighers, x-ray machines, case packing, or carton packing equipment.
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Originally published 5/4/17, updated 4/13/18, 5/15/20
What is a Vertical Form Fill Seal Machine (VFFS Machine)
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Film Tracking
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As webs of flat packaging film are dragged through the VFFS machine, they have a propensity to shift off-center as the machine moves through the webs.
Although it is possible to trace film manually, doing so is neither efficient nor cost-effective. Because it involves human interaction, it is not always fast enough to make necessary adjustments to the film in advance.
Therefore, the operator will detect bags that do not conform to the specifications, and they will be required to stop the machine, make modifications manually, and do rework. This results in longer periods of downtime, adds to the loss of goods and film, and is completely wasteful overall.
This problem is solved by the majority of current vertical packing machines, which are equipped with automated film tracking.
This indicates that the machine will adjust itself in real-time in order to maintain the center of the web of the film while also maintaining a constant tension.
A sensor that identifies the edge of the film and automatically moves the whole film carriage to recover its center inside the packing machine is used to do this. This is done so that the film may be used uninterrupted.
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Frame Construction
The frame of the packing machine is what supports and stabilizes the equipment, therefore for it to execute its work properly, the frame has to be as sturdy and powerful as possible.
In general, the frame architecture of the machine has an effect on the degree to which it runs smoothly.
The optimal material for the frames of machines is stainless steel because it offers a number of distinct benefits, including a high strength-to-weight ratio, immunity to chipping and flaking, and resistance to corrosion.
Standard practice calls for the majority of frames to be assembled using bolts. Welded frames, on the other hand, are a fantastic alternative that lessens the possibility of contaminant accumulation.
Welded frames, on the other hand, do not need routine bolt tightening since the bolts are welded to the frame and will not become less secure over time.
Touch-screen Controls
A vertical form fill seal machine is made easy because of its modern composition of using touch screens.
This is where the Human Machine Interface (HMI) and the Programmable Logic Controller (PLC) come into play (HMI).
The PLC, which acts similarly to a microcomputer, controls the functionality and functioning of the packing machine. An HMI, which is often a color touch screen measuring between 7 and 12 inches, serves as the interface through which a person may make changes, get feedback, and obtain updates.
Speed
Vertical Form Fill Seal machines are designed to work at high speeds.
In the end, vertical packaging equipment can help you save money and increase your market with an output of between 30 to 200 bagged items every minute, giving you more options for customers to choose from.
Reduce carbon footprint
VFFS machines help you reduce your carbon footprint in a few ways.
First, it helps you reduce the amount of energy you use. Second, it helps you use less water and fewer chemicals. Third, it helps you recycle more materials. Finally, it helps you generate less waste.
When all of these factors are taken into account, it&#;s easy to see how a VFFS machine can help you reduce your carbon footprint.
Servo driven system
The end-user has greater precision of control over the machine components thanks to servo drives. A closed-loop system gives constant input about the position, velocity, and acceleration/deceleration of servo-driven components.
This feedback may be used to adjust the component&#;s behavior. This makes it possible to collect data in real-time, make modifications, and achieve perfect repeatability.
A pneumatic system with fewer moving parts and less complexity cannot deliver the same degree of understanding, control, and precision.
The use of servo-driven machinery is almost universally acknowledged to be the best option. These days, servo drives are becoming more used in newer equipment.
Efficient Heating Jaws
Your bagging time will be greatly reduced, and your overall product production will rise if you use VFFS systems since they use jaws with excellent heating efficiency and incredible packing speeds.
These machines are equipped with data monitoring technology that enables them to recognize when a product or obstacle is stuck between a possible sealing point. This enables you to discover incorrect seals and bags with an unequaled level of accuracy.
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