Packaging is an essential activity in the food system. Consequently, virtually every food product is packaged one or more times before it reaches the ultimate consumer. In most food production and distribution systems, packages are used to move products from farms to processing plants, between processing plants, and from processing plants to retail outlets and on to consumers. There are many rigid and flexible package forms including boxes, pouches, bags, cups, trays, cans, tubes, and bottles. A food package can hold processed food products, fresh food products, or other food packages. Packages perform one or more of four basic functions: containment, protection, communication, and utility.
It is a device designed for the assembly of unit loads from individual items. Usually a part of automated assembly lines, vertical powder packaging machine are the final step in the manufacturing process and the first step in the transportation process. They may be automatic or semiautomatic and can handle materials packaged in rigid, semirigid, or soft containers and materials not packaged in containers, such as metal castings, sheet metal, rolled metal sections, and lumber. The machines can be set up to handle items of a given standard size or items within the same range of standard sizes, with the necessary adjustments being made either manually or automatically. They can be used to make up unit loads on auxiliary devices, such as pallets or skids. There are machines that only assemble loads, and there are machines that both assemble and break up loads.
There is great variety in the design of powder quantitative packaging machine. Among the factors that influence design are the specific features of the manufacturing process and the properties and dimensions of the goods. The unit load consists of a stack of individual items that have been collected in sequence in accordance with the load-sorting plan, which determines the relative positions of the items. Further development of the design of packaging machines has been based on matching the dimensions of packaging materials to those of the as-yet-unpackaged goods and on considerations of the size, shape, and weight of the unit loads. Such standardization makes it possible to select the optimal industrial methods for machine packaging, which is, in turn, a prerequisite for the design of unified and universal packaging machines. The first packaging machines appeared in the USSR and abroad during the 1940’s.
Packaging machines are used for the assembly of unit loads from sheet goods, from bulk goods in sacks, and from individual items in the metallurgical, printing, and wood-products industries. Such machines may be designed to assemble unit loads horizontally, vertically, or in a manner that combines horizontal and vertical operations. In machines designed for horizontal operation, the goods from the conveyor belt, guided by the distributor in accordance with the work plan, are conveyed into the collector. There the goods form a layer, which is moved by the carriage of a twin-chain conveyor to the flaps of the stacking device. The flaps are then opened, the layer of goods is lowered onto the pallet, and the stacking device is readied to receive the next layer. After the last layer is stacked, the load proceeds to the delivery conveyor and from there to the exit conveyor. The distributor makes it possible to carry out sequential sorting of items of various standard sizes according to a variety of programs by making the required adjustments in the control system.
Flexible packaging equipment processes a layered (usually plastic) material called film to produce filled bags, pouches, sticks, and other flexible package types. This material usually contains a sealant layer that bonds together with heat to create a sealed package.
Some flexible granule packaging machine use a large roll of film wound around a hollow core, called rollstock (pictured at right), to form bag shapes.
Other packaging machines use already-formed bags, usually called premade pouches.
In either case, rollstock and premade bags are purchased from a film supplier, which is a company that creates or converts packaging materials. Sometimes these materials can be purchased directly from an equipment manufacturer, and other times the film supplier is a separate entity. Ask your packaging machine manufacturer for their recommendations for film suppliers.
Form fill seal machines are the most widely-used automatic flexible packaging machine type. This equipment does exactly what its name suggests: Forms bags, fills them with product, and seals the bags closed.
Some machines perform these processes vertically (vertical form fill seal or VFFS) and some do it horizontally (horizontal form fill seal or HFFS). VFFS machines have the advantage of occupying limited floor space and are more economical in cost, which makes them a top choice in many industries when square footage and budget are limited.
Multilane stick pack machines are very popular in industries that package small packets of powder or liquid products like condiments and drink mixes. These machines work similarly to form fill seal machines but create multiple packages at once.
Packaging equipment is often rated by speed or throughput, which is how many finished bags can be completed by the machine in a certain timeframe. This is usually represented as bags per minute (bpm), which is how many finished bags can be produced by the machine per minute.
Often a machine will be rated for a maximum number of bags per minute, while actual production speeds will vary based on many factors including operator skill, product properties, bag styles, and plant environment.
BAG PARAMETERS
Packaging equipment will also have bag size parameters, usually represented by width, length, and/or depth in millimeters (mm). This means a finished bag must fall within certain size constraints.
It is a device designed for the assembly of unit loads from individual items. Usually a part of automated assembly lines, vertical powder packaging machine are the final step in the manufacturing process and the first step in the transportation process. They may be automatic or semiautomatic and can handle materials packaged in rigid, semirigid, or soft containers and materials not packaged in containers, such as metal castings, sheet metal, rolled metal sections, and lumber. The machines can be set up to handle items of a given standard size or items within the same range of standard sizes, with the necessary adjustments being made either manually or automatically. They can be used to make up unit loads on auxiliary devices, such as pallets or skids. There are machines that only assemble loads, and there are machines that both assemble and break up loads.
There is great variety in the design of powder quantitative packaging machine. Among the factors that influence design are the specific features of the manufacturing process and the properties and dimensions of the goods. The unit load consists of a stack of individual items that have been collected in sequence in accordance with the load-sorting plan, which determines the relative positions of the items. Further development of the design of packaging machines has been based on matching the dimensions of packaging materials to those of the as-yet-unpackaged goods and on considerations of the size, shape, and weight of the unit loads. Such standardization makes it possible to select the optimal industrial methods for machine packaging, which is, in turn, a prerequisite for the design of unified and universal packaging machines. The first packaging machines appeared in the USSR and abroad during the 1940’s.
Packaging machines are used for the assembly of unit loads from sheet goods, from bulk goods in sacks, and from individual items in the metallurgical, printing, and wood-products industries. Such machines may be designed to assemble unit loads horizontally, vertically, or in a manner that combines horizontal and vertical operations. In machines designed for horizontal operation, the goods from the conveyor belt, guided by the distributor in accordance with the work plan, are conveyed into the collector. There the goods form a layer, which is moved by the carriage of a twin-chain conveyor to the flaps of the stacking device. The flaps are then opened, the layer of goods is lowered onto the pallet, and the stacking device is readied to receive the next layer. After the last layer is stacked, the load proceeds to the delivery conveyor and from there to the exit conveyor. The distributor makes it possible to carry out sequential sorting of items of various standard sizes according to a variety of programs by making the required adjustments in the control system.
Flexible packaging equipment processes a layered (usually plastic) material called film to produce filled bags, pouches, sticks, and other flexible package types. This material usually contains a sealant layer that bonds together with heat to create a sealed package.
Some flexible granule packaging machine use a large roll of film wound around a hollow core, called rollstock (pictured at right), to form bag shapes.
Other packaging machines use already-formed bags, usually called premade pouches.
In either case, rollstock and premade bags are purchased from a film supplier, which is a company that creates or converts packaging materials. Sometimes these materials can be purchased directly from an equipment manufacturer, and other times the film supplier is a separate entity. Ask your packaging machine manufacturer for their recommendations for film suppliers.
Form fill seal machines are the most widely-used automatic flexible packaging machine type. This equipment does exactly what its name suggests: Forms bags, fills them with product, and seals the bags closed.
Some machines perform these processes vertically (vertical form fill seal or VFFS) and some do it horizontally (horizontal form fill seal or HFFS). VFFS machines have the advantage of occupying limited floor space and are more economical in cost, which makes them a top choice in many industries when square footage and budget are limited.
Multilane stick pack machines are very popular in industries that package small packets of powder or liquid products like condiments and drink mixes. These machines work similarly to form fill seal machines but create multiple packages at once.
Packaging equipment is often rated by speed or throughput, which is how many finished bags can be completed by the machine in a certain timeframe. This is usually represented as bags per minute (bpm), which is how many finished bags can be produced by the machine per minute.
Often a machine will be rated for a maximum number of bags per minute, while actual production speeds will vary based on many factors including operator skill, product properties, bag styles, and plant environment.
BAG PARAMETERS
Packaging equipment will also have bag size parameters, usually represented by width, length, and/or depth in millimeters (mm). This means a finished bag must fall within certain size constraints.