KR20130027937A - Cutting method and apparatus of aluminium foil - Google Patents

Abstract

The present invention relates to a processing method and processing apparatus for aluminum foil.
The processing method of the aluminum foil of the present invention includes a foil supply step of supplying a foil from a foil mounting roller; An embossing step of forming a plurality of protrusions on the surface of the advanced foil; A foil cutting step of continuously cutting the foil that has undergone the embossing step to a predetermined length; And a layering step of stacking the cut foil in a packing case. The apparatus for processing an aluminum foil of the present invention is configured to be rotatable and has a foil mounting roller having an aluminum foil wound on a roll on its outer circumference. Wow; An embossing roller configured to be rotatable and having a plurality of protrusions formed on an outer circumferential surface thereof, to which aluminum foil wound around the foil mounting roller is supplied; A support controller made of a rubber material and configured to be rotatable in contact with the embossing roller; It is configured to be rotatable, and configured to be rotatable in contact with the support controller, and a plurality of blade insertion holes are formed on the outer circumference thereof, wherein the first and second locking jaws are respectively provided at the outer end and the inner end of the blade insertion hole. The cutting roller is formed; A cutting support roller configured to be rotatable, configured to be rotatable in contact with the cutting roller, and having a plurality of blade receiving grooves formed on an outer circumference thereof to correspond to the blade insertion hole; The cutting roller is inserted into the blade insertion hole of the cutting roller, but protrudes laterally in the middle portion of the body to form a locking projection to be caught by the first catching jaw and the second catching jaw, and one side of the body as the inner end of the blade inserting hole. A protruding blade; A spring installed between the locking protrusion and the first locking jaw; It is installed on one side of the cutting roller, the blade moving device is configured to cut the aluminum foil by pushing one side of the blade toward the blade receiving groove side when the blade insertion hole and the blade receiving groove is in contact with each other.
According to the present invention, by producing a layer of aluminum foil of various specifications to meet the needs of the customer to be layered and packaged, the user can conveniently pull out and use the foil, cut to a certain size of the aluminum foil to be stacked on the packaging container By embossing the surface, it is convenient to draw out in a plurality of overlapped states, and in order to produce aluminum foils of different sizes according to the demand of consumers, the cutting size can be easily adjusted without a separate roller replacement, thereby improving productivity.

Description

Processing method and apparatus of aluminum foil {Cutting method and apparatus of aluminum foil}

The present invention relates to a processing method and processing apparatus of an aluminum foil, and to a processing method and processing apparatus of an aluminum foil, so as to eliminate the inconvenience that the consumer cuts and writes by layering and layering stacked by wrapping the aluminum foil after embossing. will be.

Cooking foil is used to prepare and store meat and other foods in restaurants or homes.

As a representative of such a cooking foil, an aluminum foil having high thermal conductivity is used.

Most of these aluminum foils are dried by means of horseshoe or the like.

However, since the aluminum foil has a roll shape, there is a problem in that it is very inconvenient to cut and use one by one according to the size of the cooking plate at a busy time such as a restaurant.

As a technique for solving this problem, "embossing processing method and embossing processing apparatus for aluminum foil" (Korean Patent Publication No. 10-0200011, Patent Document 1) has been published.

The above technique is rotatably installed at predetermined intervals, and a pair of foil mounting rollers in which aluminum foil is rolled up on an outer circumferential surface, and rotatably installed at predetermined intervals inside the foil mounting rollers. There is a pair of embossing rollers with projections, a pair of support rollers which are made of rubber material to be rotatable in contact with the embossing rollers, and embossing rollers and support rollers from foil mounting rollers on both sides. It is composed of cutting bending means for continuously bending the embossed foil to a predetermined length while the cutting is carried out to correlate the cut foil.

The above technique forms a space between the cooking pan and the aluminum foil by embossing the surface of the foil to lower the thermal conductivity to prevent food from burning quickly, and is alternately integrated in a case using a cutting bending means to a certain size. It is intended to be easily pulled out and used by the user.

However, the foil-shaped aluminum foil has a problem that it is difficult to unfold it again when the strength is very weak and thin, and it is very difficult to pull out the stacked foils differently from the toilet paper in a state where a plurality of sheets are stacked.

In particular, in the prior art as described above, the cutting standard of the foil is limited to only one type, and in order to change the standard of the aluminum foil, there is an inconvenience of changing the roller itself for cutting to a new one.

That is, there is a problem in that productivity is lowered because different rollers must be prepared according to the size of the foil.

KR 10-0200011 (1999.03.08)

The processing method and processing apparatus of the aluminum foil of the present invention is to solve the problems caused in the prior art as described above, by producing a layer of aluminum foil of various specifications to meet the needs of the customer by layering and packaging the user to the foil It is intended to be convenient to use.

In addition, by embossing the surface of the aluminum foil that is cut to a certain size and stacked on the packaging container, it is intended to be convenient to pull out in a plurality of overlapping state.

In particular, in order to produce aluminum foils of different sizes according to consumer demand, the cutting size can be easily adjusted without a separate roller replacement.

Thus, while cutting and supplying to a certain size to meet the needs of the consumer, it is easy to use and easy to pull out in an overlapped state, and to produce a variety of sizes without changing the equipment, but to improve productivity.

In order to solve the above problems, the aluminum foil processing method of the present invention includes a foil supply step of supplying a foil from a foil mounting roller; An embossing step of forming a plurality of protrusions on the surface of the advanced foil; A foil cutting step of continuously cutting the foil that has undergone the embossing step to a predetermined length; It is configured to include; packing step of loading the cut foil in a packaging case layer.

In addition, the processing apparatus of the aluminum foil of the present invention for performing the above process, the foil mounting roller is configured to be rotatable, the aluminum foil is wound around the outer peripheral surface roll; An embossing roller configured to be rotatable and having a plurality of protrusions formed on an outer circumferential surface thereof, to which aluminum foil wound around the foil mounting roller is supplied; A support controller made of a rubber material and configured to be rotatable in contact with the embossing roller; It is configured to be rotatable, and configured to be rotatable in contact with the support controller, and a plurality of blade insertion holes are formed on the outer circumference thereof, wherein the first and second locking jaws are respectively provided at the outer end and the inner end of the blade insertion hole. The cutting roller is formed; A cutting support roller configured to be rotatable, configured to be rotatable in contact with the cutting roller, and having a plurality of blade receiving grooves formed on an outer circumference thereof to correspond to the blade insertion hole; The cutting roller is inserted into the blade insertion hole of the cutting roller, but protrudes laterally in the middle portion of the body to form a locking projection to be caught by the first catching jaw and the second catching jaw, and one side of the body as the inner end of the blade inserting hole. A protruding blade; A spring installed between the locking protrusion and the first locking jaw; It is installed on one side of the cutting roller, the blade moving device is configured to cut the aluminum foil by pushing one side of the blade toward the blade receiving groove side when the blade insertion hole and the blade receiving groove is in contact with each other.

At this time, the blade moving device is characterized in that the cylinder device is provided with a rod for pushing out the blade protruding to the inner end of the blade insertion groove to the outside.

In addition, the control device is electrically connected to the cylinder device, and is configured to determine the operation of the cylinder device to selectively push some of the blades of the plurality of blades to cut the aluminum foil; characterized in that it is installed.

In addition, the inner end of the blade is characterized in that the plate protruding from side to side is provided.

According to the present invention, by producing a layer of aluminum foil of various specifications to meet the needs of the customer to be layered and packaged, the user can conveniently pull out the foil to use.

In addition, by embossing the surface of the aluminum foil which is cut to a certain size and stacked on the packaging container, it is convenient to draw out in a large number of overlapped states.

In addition, in the production of aluminum foil having different sizes according to consumer demand, the cutting size can be easily adjusted without a separate roller replacement.

That is, while cutting and supplying to a certain size to meet the needs of the consumer, it is easy to use and easy to pull out in an overlapped state, and despite the production of a variety of sizes produced without changes in equipment, productivity is improved.

1 is a schematic view showing a conventional aluminum foil processing apparatus.
2 is a process chart showing a processing method of the aluminum foil of the present invention.
3 is a schematic view showing an apparatus for processing aluminum foil of the present invention.
Figure 4 is a detailed view showing a cutting roller and a cutting support roller in the present invention.

Hereinafter, the processing method and processing apparatus of the aluminum foil of the present invention will be described in detail with reference to the accompanying drawings.

The processing method of the aluminum foil of the present invention, as shown in Figure 2, the foil supply step of supplying the foil from the foil mounting roller; An embossing step of forming a plurality of protrusions on the surface of the advanced foil; A foil cutting step of continuously cutting the foil that has undergone the embossing step to a predetermined length; It is configured to include a; packing step of loading the cut foil in a packaging case layer.

3 to 4 show the processing apparatus of the aluminum foil of the present invention for carrying out this process.

First, the foil mounting roller 10 is configured to be rotatable, and the aluminum foil 1 is wound in a roll shape on the outer circumferential surface.

Adjacent to the foil mounting roller 10, the guide roller 11 is rotatably installed as shown, so that the aluminum foil 1 wound around the foil mounting roller 10 surrounds one side of the outer peripheral surface of the guide roller 11. It is configured to move to the next roller.

As shown, a plurality of protrusions 21 are formed on the outer circumferential surface of the lower portion of the guide roller 11 so that the aluminum foil 1 wound on the foil mounting roller 10 passes through the guide roller 11 and then is supplied. An embossing roller 20 is provided.

That is, the surface of the aluminum foil 1 by the projection 21 formed on the surface while the aluminum foil 1 supplied from the guide roller 11 is wound on the embossing roller 20 while the embossing roller 20 rotates. Will be embossed.

On the other hand, the support controller 30 is formed on the right side of the embossing roller 20 as shown, and is made of a material having a cushion, such as rubber on the outer peripheral surface.

The support controller 30 is configured to be rotatable in contact with the embossing roller 20 so that the aluminum foil 1 passes through a portion where the embossing roller 20 and the support controller 30 come into contact with each other. ) Is to move to the next roller while winding one side of the outer peripheral surface of the support controller (30).

The cutting roller 40 is located on the right side of the support controller 30 as shown, and is configured to be rotatable in contact with the support controller 30.

This cutting roller 40 is different from the known roller formed rollers.

Specifically, as shown in FIG. 4, a plurality of blade insertion holes 41 are formed on the outer circumferential surface, and the first catching jaw 41a and the outer end and the inner end of each blade insertion hole 41 are respectively. The second catching jaw 41b is formed.

Arrangement intervals of the blade insertion hole 41 is characterized in that the number of aluminum foils to be produced, for example, A3, A4, A5, B4, B5 and the like are all formed to produce all the specifications.

Cutting support roller 50 is formed in the upper portion of the cutting roller 40 as shown, it is configured to be rotatable in contact with the cutting roller 40, at the position of the knife insertion hole of the cutting roller 40 A plurality of blade receiving grooves 51 are formed so as to correspond.

On the other hand, the blade 60 is inserted into the blade insertion hole 41 of the cutting roller 40 as shown in Figure 4, the middle portion of the body is formed with a locking projection 61 protruding in the left and right sides The locking protrusion 61 is configured to be caught in the first locking jaw 41a and the second locking jaw 41b so as to limit the moving width.

In addition, the blade 60 is configured such that one side of the body protrudes to the inner end of the blade insertion hole 41.

In addition, between the locking projection 61 and the first locking jaw (41a) is a spring 70 is installed so that the blade 60 has an elastic restoring force to press the second locking jaw (41b) side in normal The tip of the blade 60 is configured not to protrude toward the outer circumferential surface side of the cutting roller 40.

The blade moving device is installed in one side of the cutting roller 40 as shown in Figure 4, the blade insertion hole 41 and the blade receiving groove 51 at the moment of contact with each other blade 60 one side It is comprised so that the aluminum foil 1 may be cut | disconnected by pushing to the blade receiving groove 51 side.

To this end, the cutting roller 40 is made of an empty tube shape inside, the shaft for the rotation of the cutting roller 40 is preferably formed in a structure that can be accommodated inside the blade movement device is formed on one side. .

As shown in a preferred embodiment of such a blade moving device, a cylinder device provided with a rod for pushing the blade 60 protruding to the inner end of the blade insertion groove in the outer direction from the center of the cutting roller 40 It is preferable that it consists of 80.

At this time, it is preferable that the operation of the cylinder device 80 selectively pushes a plurality of blades 60 in accordance with the size of the aluminum foil 1 desired by the user.

To this end, it is electrically connected to the cylinder device 80, by determining whether the cylinder device 80 is operating or not, by selectively pushing some of the blades 60 of the plurality of blades 60 to cut the aluminum foil (1) It is preferable that the control device 90 is provided.

The control device 90 is provided with an input device to determine the operation of the cylinder device 80 by a timer as the user operates an input device such as a keyboard or a button dial, or to each blade receiving groove 51 The sensor may be installed, and the sensor may be electrically connected to the control device 90 to operate according to the response of the sensor.

On the other hand, in this configuration, since the blade 60 accommodated in the blade insertion hole 41 inside the cutting roller 40 rotates together with the cutting roller 40, the operation of the cylinder device 80 should be made very precisely. In order to secure this, a plate protruding from side to side on the inner end of the blade 60, that is, the portion protruding to the outside of the second catching jaw 41b is installed so that the rod of the cylinder device 80 It can be pushed so that it works relatively smoothly.

On the other hand, by installing the support plate 100 inclined to the right side of the cutting roller of the processing apparatus of the aluminum foil of the present invention configured as described above, the aluminum foil 1 cut through the cutting roller 40 slides on the support plate 100. By arranging the packaging box thereunder, the aluminum foil 1 may be configured to be stacked on the packaging box 110 after the support plate 100 is moved by sliding.

As described above, the tip of the blade 60 is normally inside the outer circumferential surface of the cutting roller 40, that is, the blade by the elastic restoring force of the spring 70 installed between the first locking jaw 41a and the locking protrusion 61. When the cylinder device 80 is operated and the rod pushes one side of the body of the blade 60 as the cylinder device 80 is operated, the blade 60 protrudes outward from the blade insertion hole 41 and the blade accommodation groove. In the process of being inserted into the 51 will be cut aluminum foil (1) is wrapped around the outer peripheral surface of the cutting roller (40).

In the aluminum foil processing apparatus of the present invention configured as described above, the cylinder device 80 selectively pushes a plurality of blades 60 according to the operation of the control device 90 so that the blade 60 inserts the blade insertion hole 41. By cutting out the aluminum foil (1) winding the cutting roller 40 therebetween by protruding to be inserted into the blade receiving groove (51), thereby cutting the aluminum foil (1) of various specifications in one cutting roller (40) can be produced.

Even according to the operation of the control unit 90, it is possible to produce aluminum foils 1 of different sizes at a time, so that a consumer can load aluminum foils 1 of different sizes into one package box. You may be able to get it.

The processing method and processing apparatus of the aluminum foil of the present invention configured as described above is not limited to the foil of the material is aluminum, it can be applied to the processing method and apparatus of the foil of various materials.

1: foil 10: foil mounting roller
11: guide roller 20: embossing roller
21: projection 30: support controller
40: cutting roller 41: blade insertion hole
41a: first jammed jaw 41b: second jammed jaw
50: cutting support roller 51: blade receiving groove
60: blade 61: jamming
70: spring 80: cylinder device
90: control device 100: support plate
110: packing box

Claims (5)

In the processing method of aluminum foil,
A foil supply step of supplying the foil from the foil mounting roller;
An embossing step of forming a plurality of protrusions on the surface of the advanced foil;
A foil cutting step of continuously cutting the foil that has undergone the embossing step to a predetermined length;
It comprises a; packing step of loading the cut foil in a packing case layered;
Processing method of aluminum foil.
In the processing apparatus of aluminum foil,
A foil mounting roller 10 configured to be rotatable and having an aluminum foil 1 wound around the outer circumferential surface thereof;
An embossing roller 20 configured to be rotatable and having a plurality of protrusions 21 formed on an outer circumferential surface thereof, to which an aluminum foil 1 wound around the foil mounting roller 10 is supplied;
A support controller 30 made of a rubber material and configured to be rotatable in contact with the embossing roller 20;
It is configured to be rotatable, and is configured to be rotatable in contact with the support controller 30, a plurality of blade insertion holes 41 are formed on the outer peripheral surface, the outer end and the inner end of the blade insertion hole 41 Cutting rollers 40 each having a first catching jaw 41a and a second catching jaw 41b;
The cutting support roller is configured to be rotatable, and is configured to be rotatable in contact with the cutting roller 40, and a plurality of blade receiving grooves 51 are formed on the outer circumferential surface so as to correspond to the blade insertion hole 41 ( 50);
Is inserted into the blade insertion hole 41 of the cutting roller 40, the projection protruding laterally in the middle portion of the body to catch the first catching jaw (41a) and the second catching jaw (41b) ( 61 is formed, the blade (60) protruding one side of the body to the inner end of the blade insertion hole (41);
A spring 70 installed between the locking protrusion 61 and the first locking jaw 41a;
It is installed on one side of the cutting roller 40, the moment the blade insertion hole 41 and the blade receiving groove 51 abuts against each other, push one side of the blade 60 toward the blade receiving groove 51 side aluminum foil (1). Configured to include; blade mover configured to cut
Processing equipment of aluminum foil.
The method of claim 2,
The blade moving device,
Characterized in that the cylinder device 80 is provided with a rod for moving the blade 60 protruding to the inner end of the blade insertion groove to the outside,
Processing equipment of aluminum foil.
The method of claim 3, wherein
It is electrically connected to the cylinder device 80, it is determined to operate the cylinder device 80 to selectively push some blades 60 of the plurality of blades 60 to cut the aluminum foil (1) Characterized in that the control device 90;
Processing equipment of aluminum foil.
5. The method of claim 4,
The inner end of the blade 60 is characterized in that the plate protruding from side to side is installed,
Processing equipment of aluminum foil.

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