专利摘要:
The packaging device, in particular the packaging device for food or industrial products, comprises a bell shaped vacuum chamber 3. At least one single-folded film 7 can be placed in the bell shaped vacuum chamber and the food can be inserted from the open longitudinal side 9 of the film. In the longitudinal vacuum chamber 3 there is a first transverse thermally bonded bar 11 and a second thermally bonded bar 15 transversely adjacent to the cutting blade 12, wherein the first and second bars are L Self-shaped. In addition, at least one nozzle 18 for injecting gas is provided facing the longitudinal or transverse open side 9 of the single-folded film 7.
公开号:KR20010042090A
申请号:KR1020007010446
申请日:1998-03-25
公开日:2001-05-25
发明作者:피론안드레아
申请人:스콜라로 마우로;보나니 알레산드로;
IPC主号:
专利说明:

Device for packing product in vacuum chamber {DEVICE FOR PACKAGING MATERIALS IN A VACUUM CHAMBER}
A vacuum former comprising a vacuum pump connected to the chamber and having a bell shaped chamber is known, which chamber is known as a vacuum chamber and generally contains food inside a preformed pouch with three sides open. Is laid.
Therefore, in such a conventional machine, when the food is inserted into the vacuum chamber, the preformed pouch already contains the food, so that a vacuum is formed inside the chamber and the open face of the preformed pouch is heat-sealed. do.
The prior art requires the use of preformed pouches, and therefore the size of the preformed pouches should be similar to the size of the package and considerable labor is required.
Therefore, the operation step of vacuum packaging the product is time consuming, and moreover, when packed in a controlled atmosphere, most of the gas is discarded, which is not only injected into the pouch but most of the vacuum chamber. Because it spreads within.
In European Patent EP-603.704, in a food package using a plastic film, the plastic film is guided through a folding station and heat bonded to form a pocket to obtain two plies.
The pocket has a predetermined size or capacity before the contents are filled and sealed.
The package is formed by heat bonding after filling, finishing, and cutting the formed pocket or pouch of the contents. However, this approach is complicated and must have a plurality of individual steps that allow the plastic film to be individually manipulated sequentially.
Liquids, powders, or particulates are divided into slices of sliced ham, meat, cheese, etc., and can not be used for solid-state products with predetermined sizes, such as food and non-food in trays. After that the plastic film is hot or cold formed.
In addition, in a conventional device, several operating steps must be passed to close the pocket or pouch, so that the pouch must be properly centered at each step to allow for optimal and intended processing.
The present invention relates to a packaging device, and more particularly to a packaging device for food or industrial products.
1 is a partial side cross-sectional view of a component of the device.
2 is a plan view of the device.
3 shows an arrangement of the nozzles.
4 is a view from a different perspective of the nozzle;
Fig. 5 is a partial side cross sectional view of the component of the second embodiment;
6 is a perspective view of the components of the apparatus of FIG. 5;
7 is a schematic plan view of the components of the apparatus of FIG. 5;
FIG. 8 is a cross-sectional view taken along a plane on which the film is laterally advanced in the longitudinal vacuum chamber of the device of FIG. 5; FIG.
The object of the present invention is to eliminate the disadvantages of the prior art listed above, and to provide a vacuum packaging or vacuum packaging of industrial products or foods, such as food and non-food, which are divided into slices of sliced ham, meat, cheese, etc. By providing an apparatus which enables this, it is to solve the problem described above.
Within the scope of the above object, it is an important object of the present invention to provide an apparatus that enables the rapid packaging of the products by a limited operator.
Another important object of the present invention is to provide a product packaging apparatus with reduced operating cycles and shortened execution time.
Another important object of the present invention is to provide an apparatus in which the package can be made less expensive for each individual package.
It is another important object of the present invention to provide a device which can use shrink-wrapped films and, optionally, a small amount of gas only for packaging containing the product.
Another object of the present invention is to provide a reliable and safe device for use.
The objects which will become apparent below are achieved by a packaging device comprising a bell shaped vacuum chamber, in particular a packaging device for food or industrial products, in which at least one single-folded film can be placed in the bell shaped vacuum chamber. Wherein the article or article can be inserted from an open longitudinal side of the film, the bell shaped vacuum chamber having a first transverse heat-adhesive bar and a second transverse direction laterally adjacent to the cutting blade. Heat-adhesive bars, wherein the first and second bars are L-shaped, and at least one nozzle for injecting a vacuum and / or gas or gas mixture provided towards one of said open longitudinal sides; It features.
Further features and advantages of the invention will be apparent from the following detailed description of two specific embodiments, which are illustrated by way of non-limiting illustration in the accompanying drawings.
Referring to the drawings, reference numeral 1 denotes a packaging device for a particularly industrial product or food, which is indicated by reference numeral 2.
The packaging device 1, which is indicated by reference numeral 3 and is generally composed of a lower container 4 and a closureable top cover 5, is suitable for sealing on the outside with respect to the container 4 and the cover 5. One strip or gasket 6 is provided.
The device uses a single-folded film 7, the first longitudinal side 8 is sealed and the second longitudinal side 9 is open.
The first heat-adhesive bar 11 is arranged transversely to the inlet 10 in the longitudinal vacuum chamber 3, and the generally L-shaped cutting blade 12 is formed of the first heat-adhesive bar 11 Arranged laterally, the first vane 13 of the blade is parallel to the first heat-adhesive bar 11 and the second vane 14 is of the one-fold folded film 7 at right angles to the first vane. Arranged in the direction of travel.
Similarly, an L-shaped second heat-adhesive bar 15 is provided adjacent to the cutting blade 12, the third wing 16 is formed in parallel to the first wing 13, and the fourth wing. 17 is formed in parallel with and adjacent to the second wing 14.
The first heat-adhesive bar 11, the second heat-adhesive bar 15, and the cutting blade 12 are not necessary, but the same support 50-where the support 50 is in the bell-shaped vacuum chamber It is preferably coupled to a suitable mating member 51 which is movable and coupled to the interior of the lid 5.
The bell shaped vacuum chamber 3 also comprises at least one nozzle 18, the nozzle 18 being vacuum-generated and / or the open second side 9 of the single-folded film or the bell shaped. Allows injection of gas or mixed gas into the fourth transverse side 20 adjacent the side inlet 10 of the vacuum chamber.
The manner shown in FIG. 2 uses a nozzle 18 having a lens-shaped cross section and sealingly inserted from the side inlet 10 of the bell-shaped chamber by a suitable piston 31.
Once the vacuum or vacuumed gas is formed, the piston 31 retracts the nozzle and the first and second heat-adhesive bars 11 and 15 and the cutting blade 12 operate to seal the package 21. ).
In this case, a pressing member 32 is provided which can move inside the bell-shaped chamber 3 to provide a seal, and at one end thereof there is a second strip or gasket 33, so that the lid 5 is provided. Interact with a third strip or gasket 34 arranged therein.
The vacuum and / or the controlled atmosphere is preferably generated in the bell-shaped chamber and inside the package 21, wherein the first path 35 and the second second path 36 are each sensor 36a, 36b) to sense and control the internal pressure.
In the manner shown in FIG. 5 only the support 50 for the first and second heat-adhesive bars and the cutting blade is provided, and the nozzles 18 are arranged on the second longitudinal side 9.
Thus, the apparatus is provided with a third transverse side 19 of the single-folded film 7 adjacent the lateral outlet 30 in the bell-shaped vacuum chamber, in which the system is already in a stable state. Assume that the part has already been partially sealed along the vertical extension, and then the operator uses the product 2 to be packaged in such a way that it is placed inside the one-fold folded film via the open second longitudinal side 9. do.
Then, after placing the product contained in the single-folded film inside the bell-shaped vacuum chamber, the vacuum or vacuum-gas cycle is started by lowering the upper lid 5.
Unlike the scheme of FIG. 1, the scheme of FIG. 5 saves cost because the nozzle 18 is adjacent to the side of the open second longitudinal side 9 of the single-folded film, and the fourth transverse side. Since 20 is clamped between strips 6, when gas is injected, the use of the gas is assumed to be a single ply, assuming that the single-folded film placed inside the bell-shaped vacuum chamber is pocket-shaped. It is limited to the volume of the folded film.
At the end of the vacuum or vacuum-gas cycle, if desired, the nozzle with a lenticular cross section ejects gas or gas mixture. The first heat-adhesive bar 11 then operates to form the next sealed third transverse side 19 of the container or package 21 and the second heat-adhesive bar 15 operates to form a fourth The lateral side 20 and the second longitudinal side 9 are sealed simultaneously.
During the cycle, the product does not move inside the bell-shaped chamber.
Then, the sealed package 21 is obtained by operating the cutting blade 12.
Thus, the bell-shaped chamber can be opened to take out the finished package and start a new cycle.
This demonstrates that the present invention achieves its intended purpose, and by using a one-fold film, it is possible to produce a commodity or non-food product such as a sliced slice of ham, meat, cheese, etc. and put it in a tray. The operating sequence that takes place in a bell-shaped vacuum chamber without the need for a touch, allows the packaging device to obtain a vacuum or controlled atmosphere of packaging, even with a shrink wrap film.
Also, in the illustrated manner, the formation and sealing of the single-folded film takes place in the bell-shaped vacuum chamber, and at the same time the transverse side of the next pouch is also sealed, all of these things being the bell-shaped vacuum. It takes place inside the chamber and takes place during the same cycle.
In addition, only the amount of gas required for the volume of the package containing the product can be used, which shortens the processing time and reduces the cost of each individual package.
Of course, the present invention may be variously modified and modified within the concept and scope of the present invention.
In addition, the materials and dimensions constituting the individual components should be most appropriate according to predetermined requirements.
权利要求:
Claims (21)
[1" claim-type="Currently amended] In particular packaging devices for food or industrial products, comprising a bell shaped vacuum chamber,
At least one single-folded film may be placed in the bellows vacuum chamber, the article or article may be inserted from an open longitudinal side of the film, and the bellows vacuum chamber is transverse to the cutting blade. First and second transverse thermal bond bars and second transverse thermal bond bars adjacent in a direction, wherein the first and second bars are L-shaped, and vacuum and / or provided to face one side of the open longitudinal direction. Packaging device comprising at least one nozzle for gas or mixed gas injection.
[2" claim-type="Currently amended] The method of claim 1,
Consisting of a lower container and a top cover, both comprising a bell shaped vacuum chamber provided with a first sealing strip or sealing gasket on the outside,
At least one one-fold film having a sealed first longitudinal side and an open second longitudinal side may be placed inside the vacuum chamber.
packer.
[3" claim-type="Currently amended] The method of claim 1,
And means for sealing three open sides of the at least one single-folded film to form at least one sealed pouch or container.
[4" claim-type="Currently amended] The method according to claim 1 or 3,
Packaging means wherein said means comprises at least a first heat-adhesive bar, a second heat-adhesive bar, and a cutting blade.
[5" claim-type="Currently amended] The method according to claim 1 or 4,
Packaging device provided with an inlet side of the at least one single-folded film inside the bellows vacuum chamber, the first heat-adhesive bar arranged along an axis transverse to the insertion axis of the single-folded film.
[6" claim-type="Currently amended] The method according to claim 1 or 5,
And said generally L-shaped cutting blade is adjacent to said first heat-adhesive bar.
[7" claim-type="Currently amended] The method according to claim 1 or 6,
And said cutting blade has a first wing adjacent said first heat-adhesive bar and a second wing arranged at right angles to said first wing.
[8" claim-type="Currently amended] The method according to claim 1 or 7,
And said second L-shaped heat-adhesive bar is adjacent to said cutting blade.
[9" claim-type="Currently amended] The method according to claim 1 or 8,
And the second heat-adhesive bar has a third wing adjacent to the first wing of the cutting blade and a fourth wing adjacent to the second wing of the cutting blade.
[10" claim-type="Currently amended] The method according to any one of claims 1 to 9,
A packaging device characterized by the creation of a vacuum and / or a step of injecting a gas or mixed gas, a heat bonding step, and a cutting of said at least one single-folded film while maintaining the product in the same position.
[11" claim-type="Currently amended] The method according to any one of claims 1 to 10,
At the end of each cycle, the first thermal bond bar defines a sealed or partially sealed third transverse side with respect to the at least one single-folded film.
[12" claim-type="Currently amended] The method according to any one of claims 1 to 11,
And the second heat-adhesive bar finishes side sealing of the at least one single-folded film on the third and fourth vanes to obtain a sealed package.
[13" claim-type="Currently amended] The method according to any one of claims 1 to 12,
The article can be inserted at the open second longitudinal side of the at least one single-folded film, and then the article and the film can be inserted together into the bell shaped vacuum chamber and sealed again. packer.
[14" claim-type="Currently amended] The method according to claim 1 or 13,
Packaging device for creating a vacuum inside at least one of the at least one single-folded film contained within the bell shaped vacuum chamber, and then selectively spraying gas or gas mixture.
[15" claim-type="Currently amended] The method according to claim 1 or 14, wherein
And the first heat-adhesive bar, the cutting blade, and the second heat-adhesive bar operate sequentially to obtain the package.
[16" claim-type="Currently amended] The method according to any one of claims 1 to 15,
For the formation of a vacuum and / or the injection of a gas or gas mixture, it comprises a first path and optionally a second path, each path sensing a pressure inside the bell-shaped chamber and / or the single-folded film. And a sensor having a sensor for controlling.
[17" claim-type="Currently amended] The method according to any one of claims 1 to 16,
The first thermally adhesive bar, the second thermally adhesive bar, and the cutting blade are attached to at least one support that is movable inside the chamber and that interacts with a suitable mating member attached to the inside of the lid. .
[18" claim-type="Currently amended] The method according to any one of claims 1 to 17,
And the nozzle is sealedly inserted into the bell-shaped chamber by a suitable piston, and retracts from the bell-shaped chamber.
[19" claim-type="Currently amended] The method according to claim 1 or 18,
A package which is secured by the pressing member which is movable inside the bell-shaped chamber and has a second strip or third gasket which is opposite to a third strip or third gasket arranged inside the lid at one end; Device.
[20" claim-type="Currently amended] The method according to any one of claims 1, 14 or 18,
The nozzle is arranged on the open second longitudinal side of the one-fold film.
[21" claim-type="Currently amended] The method according to any one of claims 1, 14 or 18,
And the nozzle is arranged on the fourth transverse side of the one-fold folded film adjacent the bell shaped chamber.
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同族专利:
公开号 | 公开日
BR9815756A|2000-11-28|
BG104743A|2001-06-29|
AU749585B2|2002-06-27|
JP2002507524A|2002-03-12|
AU7427398A|1999-10-18|
US6470652B1|2002-10-29|
IL138479D0|2001-10-31|
WO1999048758A1|1999-09-30|
SK14082000A3|2001-03-12|
CA2325457A1|1999-09-30|
CN1290225A|2001-04-04|
引用文献:
公开号 | 申请日 | 公开日 | 申请人 | 专利标题
法律状态:
1998-03-25|Application filed by 스콜라로 마우로, 보나니 알레산드로
1998-03-25|Priority to PCT/EP1998/001756
2001-05-25|Publication of KR20010042090A
优先权:
申请号 | 申请日 | 专利标题
PCT/EP1998/001756|WO1999048758A1|1998-03-25|1998-03-25|Device for packaging materials in a vacuum chamber|
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