KR100949586B1 - A film cutting machine for recycle bottle and apparatus for recycling bottle using thereof - Google Patents

Abstract

PURPOSE: A film cutting device for recycling a container and a film removing device with the same are provided to accurately cut a film attached to a container while preventing the loss of air by transferring air of optimal temperature and pressure to the film. CONSTITUTION: A film cutting device for recycling a container comprises a base plate(13), a driving unit(10), an air jet(20), a shape guide(30), and an air guide(40). The base plate accepts the container(1) on which one or more films are sealed. The air jet forms a cut portion in the films by transferring heated air to the films. The shape guide maintains a constant interval between the nozzle of the air jet and the films of the container by moving the air jet back and forth according to the shape of the container. The air guide operates an air switch so that the air jet is directed only to the films.

Description

FILM CUTTING MACHINE FOR RECYCLE BOTTLE AND APPARATUS FOR RECYCLING BOTTLE USING THEREOF}

The present invention relates to a film cutting device for recycling the container and a film removing device using the same, and more particularly, by cutting the sealed film on the surface of the container using air heated to a high temperature so that the film is spaced apart from the surface of the container. The present invention relates to a film cutting device and a film removing device using the same for recycling a container to facilitate peeling.

Containers such as packaging containers are molded of glass or synthetic resin, and the outer periphery of these packaging containers is to be printed and printed with a label, design, and a simple instruction manual indicating the contents stored in the packaging.

These containers are printed and marked directly on the outer periphery of the container, and as examples, various labels and designs on heat shrinkable films (PET film, PP film, PE film, PVC film, OPS film). In some cases, the product manual, precautions for use, safety precautions, quality markings, barcodes, etc. may be printed on the outer periphery of the packaging.

Recently, the printing of a separate heat-shrinkable film on the outer circumference of the container is more mainstream than the direct printing on the outer circumference of the packaging container.

Looking at the manufacturing process of the heat-shrinkable film printed as described above, while supplying a transparent film sheet to the printing device, after printing a trademark and instruction manuals with various patterns and colors on the surface of the film, and then adhesive on both ends of the printed film It is glued into a cylindrical roll.

Then, the roll-shaped printed film is installed in the film feeder to cut the printed film at regular intervals, and then the cut film is inserted into the outer periphery of the container and passed through the heater to print. The film is heat contracted to the outer circumference of the container and tightly sealed.

On the other hand, on the outer surface of the film sealed on the surface of the container, product information such as a trademark and various instructions of the product, a manufacturer, and the like are printed.

Therefore, the producer recovers an empty bottle to recycle such a container, removes the heat-shrinkable film sealed on the outer periphery of the container, removes it from the container, and then washes the inside of the container to recycle the container. It goes through the process.

Recently, with increasing interest in environmental pollution and recycling of resources, there is an increasing interest in the technology of removing waste containers and removing the heat-shrinkable film sealed on the outer circumferential surface of the container, and then cleaning and recycling the inside of the container. It is becoming a trend.

Conventional film removal apparatus for recycling of the container is configured to include a cutting device for cutting the film, a stripper for peeling off the film part cut by the cutting device from the container.

In the conventional film cutting apparatus, a method using a blade is mainly used.

The blade moves along the surface of the container and forms a straight cutting line on the film.

Such a knife-type film cutting device has the following problems.

Since the cutting method by the blade only performs the function of cutting the film, the film remains sealed on the surface of the container, and therefore, it is difficult to peel off the film by the stripper, so that a large quantity of the container has passed through the film removing device. The defective rate in which the film remains intact in the container is very high.

In addition, the container is not made of a cylindrical shape having the same cross-sectional area, the cross-sectional area of the neck and the body is different, and the shape of the container is very diverse, such as a concave portion for easy gripping in the body. It is not possible to form a cutting line on the film as a whole.

In addition, even if the shape of the container is taken into consideration, the film is not sealed to all parts of the container and at least one is sealed at regular intervals, and the scratches may be generated on the surface of the container without considering the sealing position of the film. .

On the other hand, as another technique for recycling the container there is a recycling method of the Patent Publication No. 2009-37273.

The prior art is to irradiate the film on the surface of the container with a laser irradiator and to cut the film, and to separate the film from the container by spreading the film with an air spray device and a brush roller.

The present invention is to solve the above problems, to form a cutting portion in the film in order to remove the film sealed on the surface of the container, by making the cutting portion fall on the surface of the container to facilitate the peeling by the peeler. It is an object of the present invention to provide a film cutting device and a film removing device using the same for recycling the container.

In addition, another object of the present invention is to maintain a constant distance between the film and the air nozzle to which air is injected regardless of the shape of the container.

Still another object of the present invention is to inject air only to a section in which the film is present.

The film cutting device for recycling the container according to the present invention for achieving the object as described above, the base plate is accommodated in the container (1) is sealed at least one film on the surface; Drive means; And an air jet driven by the driving means and heating the air to a high temperature to spray the film of the container accommodated in the base plate to drop both sides of the cut portion of the cut part from the container while cutting the film. It features.

The present invention is characterized in that the air jet further comprises a shape guide for advancing back and forth along the shape of the container to maintain the gap between the air jet and the film.

The present invention is characterized in that it further comprises an air guide for guiding the air jet to inject air only in the section with the film.

The film removing apparatus according to the present invention comprises: a container supply part for supplying a container in which a film is sealed; A film cutting device for cutting a film of the container supplied from the container supply unit; At least one stripper for peeling the film formed with the cutting portion from the container through the film cutting device; A film recovery unit for recovering the stripped film through the stripper; And, it characterized in that it comprises a container recovery unit for recovering the container from which the film has been removed.

The stripper is provided with a brush radially around the circumference to remove the film from the container through the brush.

According to the film cutting device for recycling the container and the film removing device using the same according to the present invention, the film is cut by the hot air sprayed on the film, and at the same time both sides of the surface of the container with the cutting portion of the film Since the peeling machine may be inserted between the surface of the container and the film, the peeling of the film may be accurately performed, thereby minimizing the defective rate of the container in which the film cannot be removed.

Then, the air jet is advanced back and forth along the shape of the container through the shape guide, so that the distance between the nozzle and the film of the air nozzle is the same in all parts such as the neck and the body of the container, so that the proper pressure and Air at the proper temperature can be sprayed onto the film to prevent loss of air and to accurately cut the film.

In addition, the air nozzle can be sprayed only in the section with the film through the air guide to prevent unnecessary waste of air and to prevent damage to the surface of the container can improve the reliability as a film cutting device for recycling the container. .

As shown in FIG. 1, the film cutting device 100 for recycling a container according to the present invention cuts a part of the film 2 by spraying high temperature heat onto the film 2 on the surface of the container 1. The cutting section 2a is formed away from the container 1, and as shown in FIG. 2, the driving means 10 and the air jet 20 are used as basic configurations.

This apparatus is a plurality of air jet 20 is arranged in the form of a circle or caterpillar so that a plurality of containers (1) can be continuously processed to cut the film (2) continuously while rotating in place Functionally, it has a container (1) supply section-film (2) cutting section-container (1) discharge section.

The drive means 10 is driven by the rotational force of the drive motor 11, the drive motor 11, the rotating shaft 12 is rotated in place, the rotating shaft 12 is coupled to the center rotates with the rotating shaft 12 and the circumference of the circumference It consists of a base plate 13 is installed air jet 20 along the direction.

The drive motor 11 is not limited to the position shown in the drawings and can be installed anywhere for the rotation of the base plate 13, and may rotate the rotary shaft 12 through a speed reducer (not shown).

The base plate 13 may be stacked in one or more stages so that the container 1 and the air jet 20 may be installed.

As shown in FIG. 3A, the air jet 20 is composed of an air jet body 21, an air nozzle 22, and a heater 23.

The airjet body 21 may be a hollow pipe structure, and is made of a predetermined length or more for lifting. The airjet body 21 may have a structure irrelevant to the supply of air, or may supply air through the hollow part therein.

The air nozzle 22 is a hollow pipe structure and is detachably coupled to the air jet body 21 through fasteners in consideration of assembly and repair, and receives air from the air supply pipe and sprays the air nozzle 22.

The heater 23 may be, for example, a hot wire for generating heat by receiving electricity, and is inserted into the air nozzle 22.

The heat of the air will vary depending on the heat exchange time with the heater 23, and when the air is supplied through the inside of the air jet body 21, the heater 23 is provided with the air jet body 21 to ensure a long heating time of the air. ) May be installed over the air nozzle 22.

As shown in FIGS. 3A and 3B, the degree of heat generation varies depending on the contact time with the heater 23, and the inside of the air nozzle 22 may generate air of a desired temperature even at a small volume by increasing the residence time. The core 24 is inserted. The core 24 is cylindrical with an outer diameter that can form a space in which air can flow in and out between the air nozzle 22, and a vortex guide groove 24a is formed in the circumference thereof. In addition, a heater 23 may be inserted into the core 24.

Therefore, the air introduced into the air nozzle 22 flows in the vortex form along the vortex guide groove 24a of the core 24 and is heated by receiving heat generated from the heater 23, and then the injection hole of the air nozzle 22. Since it is injected through the air nozzle 22 may be heated to a higher temperature than when passing through.

If the area of the jet port of the air jet 20 is equal to the height of the container 1 or the film 2, the film 2 can be cut by jetting air without moving the air jet 20, but this will cause the air The size of the nozzle 22 will be unreasonably large, while the film 2 may be sealed at a distance of two or more without sealing over all parts of the container 1, Since unnecessary waste of air may occur during cutting, it is preferable to minimize the size of the air nozzle 22 and to configure the air nozzle 22 to be elevated along the container 1.

In addition, the container 1 may have a cylindrical structure having the same cross-sectional area, but most of the container 1 is formed in a narrower cross-sectional area than a trunk portion having a neck portion of the other section, and if the position of the air jet 20 does not change, the air jet 20 Since the distance between the container 1 will be different from the air, the air cannot be used efficiently. To solve this problem, the air jet 20 moves (backwards) along the shape of the container 1 to the shape of the container 1. Regardless, the distance between the air nozzle 22 of the air jet 20 and the container 1 is configured to be constant.

As shown in Figure 2 and 4, the lifting means for guiding the lifting of the forward and backward block 27 to be described later is applied on the base plate 13 for the lifting of the air jet 20.
The elevating means is fitted to the elevating guide rod 14, elevating guide rod 14 of one or more (shown as two in the figure) that is built on the base plate 13 and the air jet 20 An elevating block 25 for elevating is included.

The plurality of air jets 20 should be raised and lowered along the film 2 while rotating in a circle with the base plate 13, and the lifting guide 26 is installed at one side of the lifting block 25. The lifting guide rail 15 is provided at a position spaced apart from the circumference of the base plate 13 by a predetermined distance.

As shown in Figure 5, because the lifting guide rail 15 is a structure having a height difference, the lifting guide 26 moves down the lifting guide rail 15 while lowering down the container 1 in the cutting section and cutting section After that, it rises to the waiting section.

The lifting guide 26 is preferably in the form of a roller that is rotated in place to minimize friction with the lifting guide rail 15.

As in FIGS. 7A and 7B, the air jet 20 is advanced back and forth through the forward and backward blocks 27.

The forward and backward block 27 is preferably installed in the lifting block 25 of the lifting means so that the lifting and lowering together with the forward and backward movement of the air jet 20 is possible.

For example, the forward and backward block 27 is installed through the elevating block 25 and the elastic member, for example, the coil spring 28 is supported by one side (forward direction) by the elastic force of the coil spring 28 and the shape guide 30 Reverse through).

As shown in FIG. 8, for convenience of description, the container 1 is described as having a neck 1a and a body 1b having different cross-sectional areas, and the shape guide 30 has a first section corresponding to the neck 1a. It may have a bar shape having a second section 32 corresponding to the 31 and the trunk portion (1b).

The shape guide 30 is fixed on the base plate 13, and the forward and backward block 27 moves forward and backward while the slider 27a installed on the forward and backward block 27 moves up and down along the shape guide 30. As the slider 27a passes through the first section 31 and passes through the second section 32, the forward and backward blocks 30 retreat while elastically deforming the coil spring 28. That is, the intervals d1 and d2 between the air nozzle 22 and the film 2 are the same both when passing through the neck 1a and when passing through the trunk 1b.

The present invention is characterized in that it is possible to increase the efficiency of the air by injecting air only at the position where the film 2 is provided without spraying air to all parts of the container 1, as shown in FIG. When the second films 2b and 2c are sealed, the air guide 40 is provided to guide the air to be supplied at the positions of the first and second films 2b and 2c.

Air guide 40 is the first, second on-contact portion 41 so that the air switch 50 installed on the elevating block 25 is turned on when passing through the first, second film (2b, 2c) as shown in the figure 42 may be provided in a bar shape. That is, when the air switch 50 passes through the first and second contacts 41 and 42, the first and second on-contact parts 41 and 42 have different cross-sectional areas than other sections so that air is supplied when the air switch 50 passes through the first and second contacts 41 and 42. In other words, it protrudes toward the air switch 50.

The air switch 50 is installed through an elastic member such as a coil spring 51 so that the air switch 50 is out of the first and second on-contact points 41 and 42 so as to be in a home position.

The first and second on-contact portions 41 and 42 may be changed to off-contact portions and the on-contact portion may be formed in the other section.

Through the structure described above, the film 2 of all shapes and sizes can be cut by changing the air guide 40 according to the position and size of the film 2.

The shape guide 30 and the air guide 40 are detachably mounted through fasteners, respectively, so that the shape guide 30 and the air guide 40 can be replaced with those that match the shape of the container 1, the shape and size of the film 2, and the like. Cutting is possible.

When the container 1 is supplied to the base plate 13, it is fixed to the base plate 13 through the holder 60. The holder 60 is provided in the form of a rod in the same quantity as that of the air jet 20, and is installed on the base plate 13 so as to be lifted and lowered to fit the inside of the container 1 to fix the container 1.

The holder 60 is lowered toward the container 1 at the moment when the container 1 enters the base plate 13 in the same manner as the air jet 20 to fix the container 1 until the cutting is completed. When the cutting is completed, it rises and moves away from the container 1. This is realized by the same configuration as the lifting guide 26, the lifting guide rail 15, which is a configuration for lifting the air jet 20, a detailed description thereof will be omitted.

As shown in FIG. 6, the guide bar 61 may be installed at the side of the holder 60 so that the lifting and lowering of the holder 60 is made stable. Guide bar 61 is provided with a lifting guide groove (61a) in the vertical longitudinal direction and is detachably fixed to the base plate 13 through the fastener, the lifting guide 62 of the holder 60 is a pin (62a) It is supported by the rail through the lifting guide groove (61a) through).

Here, the stopper 63 may be applied to stop the lowering of the holder 60 so that the holder 60 is not lowered by force and the container 1 is not broken. The stopper 63 is fixed to the base plate 13 to the guide bar 61 by fasteners to be replaceable according to the size of the container 1.

The action of the film cutting device for recycling the container configured as described above is as follows.

As shown in FIG. 10, the container 1 enters from one side of the baseplate 13 in plan view, and the film 2 is cut while the entered container 1 rotates through the baseplate 13. .

Specifically, when the container 1 is supplied to the base plate 13, the holder 60 is lowered to fit inside the container 1 so that the container 1 can be moved without shaking the base plate 13. Rotate along.

At this time, the air is jetted from the air jet 20 to cut the film 2, the cutting operation is as follows.

When the base plate 13 reaches the cutting section while the elevating guide 26 moves along the elevating guide rail 15, the elevating block 26 is lowered. Move to the side.

At the same time as the lifting block 25 descends, the slider 27a moves along the shape guide 30, and the forward and backward block 27 moves forward and backward according to the shape of the shape guide 30 to the shape of the container 1. Regardless, the distance between the injection port of the air nozzle 22 and the film 2 is kept constant.

Meanwhile, the air switch 50 moves up and down along the air guide 40 while the lifting block 25 moves up and down only when passing through the first and second warm contact portions 41 and 42 of the air guide 40. The air switch 50 is switched to the on contact so that air is supplied to the air nozzle 22.

Air introduced into the air nozzle 22 through the air supply pipe passes through the air nozzle 22 in the form of a vortex along the vortex guide groove 24a of the core 24, and at this time, a heater (inside the core 24) It is heated by the heat generated in 23) and then sprayed. Air injected from the air nozzle 22 may be approximately 200 ~ 300 ℃, when the air of this heat is injected to the film 2 by the heat and pressure to the film 2 along the moving path of the air nozzle 22 A straight cutting line is generated to form the cutting portion 2a on the film 2. The film 2 around the cutting portion 2a is separated from the surface of the container 1 by thermal deformation.

The air nozzle 22 may not induce a malfunction in cutting the film 2 by injecting air during both the falling and the rising.

Hereinafter, for convenience of description, the sizes of the neck 1a and the trunk 1b are different from each other, and the first and second films 2b and 2c are spaced apart from each other on the neck 1a and the trunk 1b, respectively. The cutting action of the first and second films 2b and 2c will be described taking the container 1 as an example. According to the shape of the container 1 and the position of the first and second films 2b and 2c, the shape guide 30 having the first and second sections 31 and 32 and the first and second warm contact portions 41, 42 is provided with an air guide (40).

As shown in FIG. 8, when the lifting block 25 descends and the slider 27a passes through the first section 31, the air nozzle 22 passes through the neck 1a.

In this case, as shown in FIG. 9, the air switch 50 passes through the first on-contact point portion 41, and the air switch 50 is switched to the on contact point, so that air is injected only to the first film 2b.

When the slider 27a descends and passes through the first section 31 to reach the second section 32, the forward and backward block 27 is pushed backwards so that the gap between the air nozzle 22 and the trunk portion 1b is the neck portion. It is kept equal to the interval when passing (1a).

In this process, when the air switch 50 passes through the first hot contact portion 41, the air switch 50 is switched to the off contact to stop the injection of air.

On the other hand, if the air nozzle 22 corresponds to the second film 2c while the air nozzle 22 passes through the body portion 1b, the air switch 50 passes through the second hot contact portion 42. Since it is switched to the on contact, the injection of air is started to inject air to the second film (2c).

In this way, when hot air is sprayed onto the first and second films 2b and 2c, the first and second films 2b and 2c are respectively provided with cutting parts 2a in the vertical direction, and the cutting parts ( The portion of the film 2 on both sides around 2a) is thermally deformed to fall off the surface of the container 1.

In this case, a gap is generated between the surface of the container 1 and the film 2, and this gap is a place where the stripper can be inserted into the gap so that the first and second films 2b and 2c can be inserted into the gap. You can escape.

When passing through the cutting section, the holder 60 and the air jet 20 are raised to move the container 1 toward the stripper.

The film removing apparatus for recycling the container according to the present invention is as follows.

As shown in FIG. 11, the film removing apparatus for recycling the container according to the present invention includes a container supply part 200 for supplying a container 1 with a film 2 sealed on a surface thereof, and a container supply part 200. A film cutting device 100 for cutting the film 2 of the container 1 to be supplied, and a stripper for peeling the film 2 from which the cutting part 2a is formed through the film cutting device 100 from the container 1. 300, a film recovery unit 400 for recovering the film 2 stripped through the stripper 300, and a container recovery unit 500 for recovering the container 1 from which the film 2 has been removed. It consists of.

Since the film cutting device 100 is a film cutting device for recycling the container of the present invention described above, a detailed description thereof will be omitted.

The container supply unit 200 supplies the container 1 with the film 2 sealed on the surface, and supplies the container 1 conveyed along the supply conveyor 210 and the supply conveyor 210 for conveying the container 1. It may be configured as an alignment feeder 220 for supplying alignment to the interval of the air jet 20.

Alignment feeder 220 is a cylindrical structure formed with a container accommodating groove 221 on the periphery and is installed to be rotated in place by a drive motor. The alignment feeder 220 receives the container 1 in the container accommodating groove 221 and then supplies it to the film cutting device 100.

Although not shown in the drawings, a plurality of rollers for supplying the container 1 to the film cutting device 100 may be installed between the alignment feeder 220 and the film cutting device 100.

11 and 12, the stripper 300 is a structure provided with a radial brush 310 at the periphery, one that is installed rotatably in place between the discharge point of the container 1 and the cutting section. It is in the form of a strippy roller as described above (shown in two in the drawing).

The stripper 300 is installed on the conveying path of the container 1 and the brush 310 can remove the film 2 from the container 1 by scraping the surface of the container 1 or pulling the film 2. For example, a brush 310 is inserted between the film 2 and the container 1 through the cutting portion 2a of the film 2 to peel off the film 2 from the container 1. .

The film recovery part 400 is disposed at the periphery of the film cutting device 100 to provide a suction duct 410 for sealing the periphery of the container 1, and to provide a forced suction force to the interior of the recovery duct 410. It consists of an inhaler 420 for sucking the film 2 peeled off, and a collecting duct 430 for collecting the sucked film 2 by the suction force of the inhaler 420.

The recovery duct 410 has a size capable of recovering the film 2 peeled from the stripper 300 and the film 2 separated from the surface of the container 1 by the suction force of the inhaler 420.

The collecting duct 430 may be a branched form in the recovery duct 410, or may have a single structure or a structure having a plurality of collecting parts 431 and 432. A damper 433 for selectively opening and closing the collecting portions 431 and 432 is provided between the collecting portions 431 and 432.

The container recovery unit 500 may be a recovery conveyor which may be operated separately from the supply conveyor 210 and may be differently controlled from the supply conveyor 210. Although not shown in the drawings, a roller or the like for supporting the container 1 may be provided to stably recover the container 1 that has exited the film recovery part 400.

The action of the film removing device for recycling the container according to the present invention is as follows.

A plurality of containers 1 are transferred through a supply conveyor 210 of the container supply unit 200, and at this time, the containers 1 are aligned and stood up at regular intervals through the alignment feeder 220 so that the film cutting device 100 Is supplied.

The cutting action of the film 2 according to the film cutting device 100 is the same as the above description of the operation of the film cutting device, and thus will be omitted.

The containers 1 in which the cutting portion 2a is formed by the film cutting device 100 pass through the stripper 300, and at this time, the brush 310 of the stripper 300 passes through the cutting portion 310. The film 2 is inserted between the surface of the film 1 and the film 2 to peel off the film 2 from the surface of the container 1. That is, as the film 2 is physically / chemically changed by the physical force (air injection pressure) and the chemical force (temperature of the air), the cutting portion 2a is formed, and as the film 2 falls off the surface of the ��� group 1 Peeling by the stripper 300 is facilitated.

The inhaler 410 of the film recovery unit 400 generates a forced suction force in the recovery duct 420, and the film 2 peeled from the container 1 is collected in the collecting unit 430 by the suction force.

The container 1 (the container from which the film 2 has been removed) passing through the stripper 300 is transferred through the container recovery part 500.

Although the shape guide 30 and the air guide 40 have been described so far as an example, the shape guide 30 and the air guide 40 can be used independently because they can perform respective functions without interworking with each other. It is possible.

1 is a cutting state of the film according to the film cutting device for recycling of the container according to the present invention.

Figure 2 is an installation state of the film cutting device for recycling of the container according to the present invention.

Figure 3a and Figure 3b is a block diagram of an air jet applied to the film cutting device for recycling of the container according to the present invention.

Figure 4 is a perspective view of the main portion excavated to show the lifting and back of the air jet applied to the film cutting device for recycling of the container according to the present invention.

5 is a conceptual diagram showing the lifting operation of the air jet applied to the film cutting device for recycling of the container according to the present invention.

Figure 6 is a configuration of the guide bar for guiding the lifting of the holder applied to the film cutting device for recycling of the container according to the present invention.

Figure 7a and 7b is a configuration of the guide guide to guide the air jet applied to the film cutting device for recycling the container according to the present invention forward and backward along the shape of the container.

8 is a view showing an operation of the air jet applied to the film cutting device for recycling the container according to the present invention forward and backward along the shape of the container.

9 is a configuration diagram of an air switch for inducing air to be injected only when the air jet applied to the film cutting apparatus for recycling the container according to the present invention passes through the film.

10 is a plan view showing the operation concept of the film cutting device for recycling of the container according to the present invention.

11 is a block diagram of a film removing device for recycling the container according to the present invention.

12 is a plan view of a stripper applied to the film removing device for recycling of the container according to the present invention.

<Description of Signs for Main Parts of Drawings>

1: container, 2a, 2b: film

10: drive means, 13: base plate

20: air jet, 21: air jet body

22: air nozzle, 23: heater

24: core, 24a: vortex flow guide

25: lifting block, 26: lifting guide

27: forward and backward block, 28: coil spring

30: shape guide, 40: air guide

50: air switch, 100: film cutting device

200: container supply unit, 300: stripping machine

400: film recovery part, 500: container recovery part

Claims (22)

delete A base plate on which the neck 1a on which the first and second films 2b and 2c are sealed and the container 1 on which the body part 1b is formed are accommodated; A holder (60) installed on the base plate to be liftable and inserted into the container to fix the container; Drive means 10; The base plate consists of an air supply pipe for supplying air, a heater 23 for heating air supplied from the air supply pipe, and an air nozzle 22 for injecting air heated through the heater and driven by the driving means. An air jet (20) for dropping both sides of the cut portion of the cut portion from the container while cutting the film by injecting air into the film of the container (1) accommodated in the container; And, Recycling the container, characterized in that it comprises a shape guide 30 for advancing the air jet back and forth in accordance with the shape of the container to maintain the same distance between the injection port formed in the air jet and the film sealed in the container Film cutting device for A base plate on which the neck 1a on which the first and second films 2b and 2c are sealed and the container 1 on which the body part 1b is formed are accommodated; A holder (60) installed on the base plate to be liftable and inserted into the container to fix the container; Drive means 10; The base plate consists of an air supply pipe for supplying air, a heater 23 for heating air supplied from the air supply pipe, and an air nozzle 22 for injecting air heated through the heater and driven by the driving means. An air jet (20) for dropping both sides of the cut portion of the cut portion from the container while cutting the film by injecting air into the film of the container (1) accommodated in the container; And, And an air guide (40) for operating the air switch so that the injection hole formed in the air jet is sprayed only on the film of the container. A base plate on which the neck 1a on which the first and second films 2b and 2c are sealed and the container 1 on which the body part 1b is formed are accommodated; A holder (60) installed on the base plate to be liftable and inserted into the container to fix the container; Drive means 10; The base plate consists of an air supply pipe for supplying air, a heater 23 for heating air supplied from the air supply pipe, and an air nozzle 22 for injecting air heated through the heater and driven by the driving means. An air jet (20) for dropping both sides of the cut portion of the cut portion from the container while cutting the film by injecting air into the film of the container (1) accommodated in the container; A shape guide (30) for advancing and retreating the air jet according to the shape of the container so as to maintain the same distance between the injection hole formed in the air jet and the film sealed in the container; And, And an air guide (40) for operating the air switch so that the injection hole formed in the air jet is sprayed only on the film of the container. The method of claim 2 or 4, wherein the shape guide is provided with a first section (31) corresponding to the neck of the container and a second section (32) corresponding to the body portion of the container, the air jet is the first , Film cutting device for recycling of the container, characterized in that it guides forward and backward along the two sections. The film cutting apparatus of claim 5, wherein the shape guide is provided with the first and second sections and is bar-shaped to be interchangeably coupled to the base plate. 7. The film cutting apparatus of claim 6, wherein the air jet is fixed to a forward and backward block (27) coupled to the base plate to be forward and backward. The apparatus of claim 7, wherein the forward and backward blocks are installed to be supported to one side through the elastic member. The film cutting apparatus for recycling the container according to claim 8, wherein the forward and backward blocks are installed on the base plate via an elevating means installed on the base plate to move up and down. 10. The method according to claim 9, The lifting means is one or more lifting guide rods 14, which are built on the base plate, the lifting block 25, which is fitted to the lifting guide bar to be lifted and the forward and backward block is mounted, the base plate Is installed on the periphery of the film cutting device for recycling of the container, characterized in that it comprises a lifting guide rail (15) that the lifting block is connected to the lifting. The method according to claim 3 or 4, The air jet is lifted through the lifting means which is installed to the base plate to be lifted, The air guide is a film cutting for recycling the container, characterized in that the bar shape is provided with one or more on-contact parts (41, 42) on-contacting the air switch 50 is installed in the elevating means forward and backward Device. The film cutting apparatus of claim 11, wherein the air guide has a bar shape in which the on-contact portion is formed and is replaceably mounted on the base plate. delete The core according to any one of claims 2 to 4, wherein a vortex guide groove (24a) is inserted into the air nozzle and has a circumference formed therein to inject air supplied to the air nozzle through the vortex guide groove (5). Film cutting device for recycling of the container, characterized in that it further comprises 24). delete According to any one of claims 2 to 4, Next to the holder is provided with a guide bar 61 is formed with a lifting guide groove (61a) in the vertical longitudinal direction, the holder is a pin through the lifting guide groove ( 62a) is installed in the guide bar and the film cutting device for recycling of the container, characterized in that it further comprises a lifting guide (62) for lifting along the rail. The film cutting apparatus of claim 16, further comprising a stopper 63 installed in the guide bar so as to replace the pin 62a to stop the lowering of the holder. . delete delete delete delete A container supply part 200 for supplying a container 1 in which a film is sealed; Claim 1 to 4, wherein the film cutting device (100) for cutting the first and second films (2b, 2c) sealed on the surface of the container (1) supplied from the container supply unit (200); The first and second films in which the cutting part 2a is formed through the film cutting device 100 are installed on the transport path of the container while the brushes 310 are radially provided at the circumference. One or more strippers 300 for stripping; A recovery duct 410 disposed on the periphery of the film cutting device 100 to provide a forced suction force to the inside of the recovery duct, and to suction and remove the first and second films from the container, or The inhaler 420 which inhales the first and second films stripped from the container, and the collecting duct 430 which collects the first and second films sucked by the suction force of the inhaler 420, the first stripped through the stripper A film recovery unit 400 for recovering the first and second films; And, And a container recovery part 500 for recovering the container 1 from which the first and second films have been removed. The collecting duct has a plurality of collecting parts (431,432) that is selectively opened and closed by a damper (433) film removal apparatus for recycling the container.

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