KR101741007B1 - A Film Detachment System For Multi-coating Film - Google Patents

Abstract

A peeling system for multi-layer bonded films is provided. The provided multi-layer bonded film peeling system comprises a guide unit for providing a space through which the film to which the release material is attached moves; A transfer unit for providing the necessary power to move the film along the guide unit; A peeling unit for peeling off one side of the film moving along the guide unit, and a collection unit for collecting and discharging the by-products peeled off from the film, thereby reducing the investment cost of the product facility and improving the regeneration efficiency of the material .

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a film detachment system for multi-

The present invention relates to a peeling system, and more particularly, to a peeling system for a multi-layer bonded film that peels a layer from a film to which a releasing material is adhered. Particularly, it is possible to improve work efficiency through automation of the system, and it is also possible to carry out the peeling operation easily regardless of the thickness of the film through the variable adjustment of the friction roller for transporting the film and the brush roller for peeling the film To a peeling system for a film adhered to a multilayer.

In general, the film with multi-layer adhesive structure is a product that improves the problem of a single material, thus improving antistatic, waterproof, prevention of surface contamination, prevention of discoloration, tensile strength and durability. Various films, PVC wallpaper, silk wallpaper, catalog and brochure And the like are used for various purposes in various fields.

The film having such a multi-layered adhesive structure is composed of a paper base layer and a plurality of coating layers made of synthetic resin, and has various advantages in terms of utilization, but has difficulties in terms of resource recycling.

As the industrial society develops, problems of environmental pollution and resource depletion are constantly being raised, and the film having the multi-layer adhesive structure which is used and discarded is separated from the coating layer and then recycled through the regeneration process .

In the separation process between the base layer and the coating layer, a film having a multilayer bonding structure is usually cut into a predetermined size, and the base layer and the coating layer are separated by separating the base layer and the coating layer.

However, since the remaining amount of the ground layer is attached to the coating layer in the separation process, the worker has to manually remove the remaining amount of the ground layer in the coating layer, thereby increasing the labor cost and the production cost In addition, since the productivity is low, the regeneration efficiency is greatly reduced.

Therefore, although the film having the multi-layer adhesive structure used up to now has been disposed of by incineration without recycling, it is a great loss in view of the fact that the resources are absolutely lacking in Korea, and thus the film having the multi- The development of technologies that can do this is urgently required.

As a prior art for solving these problems, Korean Utility Model Brush Roller 0-252176, "Vinyl and Paper Separation Device for Waste Coated Paper" has been proposed.

However, since the prior art works through a large number of complicated processes, a high facility investment cost is required, so that there is a real problem in that the efficiency is low.

Korea Registered Utility Model Brush Roller 0-252176

SUMMARY OF THE INVENTION The present invention has been made in view of the above-mentioned problems of the prior art, and an object of the present invention is to provide a multi-layered adhesive tape which can reduce the investment cost of a product facility by improving the structure of a peeling system, Thereby providing a film peeling system.

It is another object of the present invention to provide a method and apparatus for removing a layer of a film from a film, A film peeling system for a multi-layer bonded film is provided.

It is still another object of the present invention to provide a multilayer bonding structure in which a plurality of guide pieces for guiding the traveling direction of the film are provided on the transport path of the film having a multilayered adhesive structure so that the film can stably enter the brush roller, To a peeling system for a film.

It is still another object of the present invention to provide a multilayer bonding method capable of performing a peeling operation regardless of the thickness of a film by controlling the height between the film having the multilayer bonding structure and the brush roller and adjusting the height between the friction rollers To provide a peel system for a film.

It is still another object of the present invention to provide a method and apparatus for supporting a film by using a separate pressurizing unit during the peeling process of a film so that the film can be stably supported, And provides a peeling system.

According to an aspect of the present invention, there is provided a film forming apparatus comprising: a guide unit for providing a space through which a film having a release material is moved; A transfer unit for providing the necessary power to move the film along the guide unit; A peeling unit for peeling off one side of the film moving along the guide unit, and a collection unit for collecting and discharging the by-products peeled off from the film.

In the present invention, the guide unit may include: a plurality of horizontal panels spaced apart by a predetermined distance; A connection bracket fixed to both sides of each of the horizontal panels and spaced apart from each other by a predetermined interval, and a guide plate provided at an upper portion of the horizontal panel and spaced apart from each other by a predetermined distance, As shown in FIG.

In the present invention, the conveying unit may include a plurality of friction rollers installed on upper and lower portions of a space where the horizontal panels are spaced apart from each other; A friction roller drive motor for providing a driving force to the friction rollers; And a friction roller power transmitting member for uniformly transmitting power of the friction roller driving motor to the plurality of friction rollers, wherein the friction roller power transmitting member includes a sprocket connected to an end portion of the friction roller, As shown in FIG.

In the present invention, the friction roller is further provided with a friction roller gap adjusting member for adjusting the gap between the friction rollers having the up / down positional relationship, and the friction roller gap adjusting member is disposed at both ends of the friction roller A support bracket axially coupled and provided with a friction roller spiral shaft at its upper end; A fixing bracket installed above the support bracket, the fixing bracket being connected to the spiral shaft of the friction roller; And a nut that is coupled to a friction roller spiral shaft passing through the fixing bracket so that the spiral shaft of the friction roller can be moved up and down.

In the present invention, a friction roller tension adjusting member for adjusting the tension is further provided on the chain of the friction roller power transmitting member, and the friction roller tension adjusting member is connected to the chain, A friction roller connector having a rotating friction roller rotator; A bolt body having one end axially coupled to the friction roller connector; The other end of the bolt body being inserted and connected, and a guide elongated hole for guiding the friction roller connecting hole formed therein; And a nut body which is fastened to the bolt through the mounting bracket so as to move the bolt body in the horizontal direction.

In the present invention, the peeling unit may include: a plurality of brush rollers installed on the upper portion of the horizontal panel; A brush roller driving motor for providing a driving force to the brush rollers; And a brush roller power transmitting member for uniformly transmitting power of the brush roller driving motor to a plurality of brush rollers, wherein the brush roller power transmitting member includes a pulley connected to an end of the brush roller and a belt connecting the pulleys And the like.

In the present invention, the brush roller is further provided with a brush roller gap adjusting member for adjusting the height of the brush roller. The brush roller gap adjusting member is axially coupled to both ends of the brush roller, A feed bracket to which the shaft is freely rotatably connected; And a guide bracket connected to an outer side of the conveying bracket and having a spiral shaft coupled to the brush roller.

In the present invention, a brush roller tension adjusting member for adjusting the tension is further provided on the belt of the brush roller power transmitting member, and the brush roller tension adjusting member is connected to the belt, A brush roller connector having a rotating brush roller rotator; And a binding bracket connected to the brush roller connection port and having a binding hole for changing the position of the brush roller tension adjusting member.

In the present invention, the horizontal panel on which the brush roller is located may be provided with a cutting groove.

In the present invention, the collection unit may include a receiving bracket installed on an adjacent side of the peeling unit for collecting by-products of the film peeled off through the peeling unit, and a collecting tank for collecting by-products of the film stacked on the receiving bracket, The receiving bracket includes: an extension piece protruding downward from the brush roller constituting the peeling unit; A receiving groove formed at an end of the extending piece; And an anti-slip piece extending from an end of the receiving groove.

In the present invention, a water supply unit for spraying water onto the peeling unit and the film may be further provided on the peeling unit.

According to another embodiment of the present invention for solving the above-mentioned problems, a guide unit for providing a space through which a film to which a release material is attached moves; A transfer unit for providing the necessary power to move the film along the guide unit; A peeling unit for peeling off one side of the film moving along the guide unit; A pressing unit for bringing the film entering the peeling unit into close contact with the guide unit, and a collecting unit collecting and discharging the by-products peeled off from the film.

According to the present invention, the guide unit comprises: a plurality of horizontal panels spaced apart by a predetermined distance; And a plurality of discharge holes formed inside the horizontal panel.

According to the present invention, the peeling unit may include a plurality of brush rollers provided on the upper surface of the horizontal panel, the outer surface of which is provided with an inlet groove, and a brush roller driving motor for providing a driving force to the brush rollers .

According to the present invention, the pressing unit includes a supporting roller provided at a lower portion of the spaced-apart space of the horizontal panel; And a pressure sprocket driving motor provided on the supporting roller to closely contact the film entering the peeling unit to the supporting roller side and a pressing sprocket driving motor provided to the pressing sprocket in the same direction as the rotating direction of the brush roller Lt; / RTI >

According to the present invention, the collection unit includes: a receiver for collecting the by-products of the film discharged through the discharge hole of the horizontal panel provided below the horizontal panel; and a by-product of the film accumulated in the receiver, And a collecting tank for collecting the collected water.

According to the present invention, it is possible to reduce the investment cost of the product facility and improve the regeneration efficiency of the material through the automated implementation of the peeling system which peels a layer from the film having the releasing material attached thereto, And thus it is possible to prevent overload of the device occurring in the peeling process in advance and to effectively remove one layer of the material from the film.

In addition, by providing a plurality of guide pieces for guiding the traveling direction of the film in the conveying path of the film, the film can smoothly enter the brush roller side, so that the peeling work of the film is smoothly realized.

1 is a perspective view showing a peeling system for a multi-layer bonded film according to a first preferred embodiment of the present invention.
2 is an exploded perspective view showing a peeling system for a multi-layer bonded film according to a first preferred embodiment of the present invention.
3 is a side view showing a peeling system for a multi-layer bonded film according to a first preferred embodiment of the present invention.
4 is a perspective view showing a guide unit in a peeling system for a film adhered to a multilayer in accordance with a first preferred embodiment of the present invention.
5 is a perspective view showing a transfer unit in a peeling system for a multilayer bonded film according to a first preferred embodiment of the present invention.
6 is a perspective view showing a peeling unit in a peeling system for a multi-layer bonded film according to a first preferred embodiment of the present invention.
7 is a side view showing a collection unit in a peeling system for a multi-layer bonded film according to a first preferred embodiment of the present invention.
8 is a cross-sectional view showing the operation of a peeling system for a multilayer bonded film according to a first preferred embodiment of the present invention.
FIG. 9 is an enlarged cross-sectional view showing the operation of a transfer unit in a peeling system for a multi-layer bonded film according to a first preferred embodiment of the present invention.
10 is an enlarged cross-sectional view showing the operation of a peeling unit in a peeling system for a film adhered to multiple layers according to a first preferred embodiment of the present invention.
11 is a cross-sectional side view showing a peeling system for a multi-layer bonded film according to a second preferred embodiment of the present invention.
12 is a horizontal sectional view showing a peeling system for a multi-layer bonded film according to a second preferred embodiment of the present invention.
FIG. 13 is an enlarged perspective view of a guide unit, a peeling unit, and a pressing unit in a peeling system for a film adhered in multiple layers according to a second preferred embodiment of the present invention.

Hereinafter, a peeling system for a film adhered in multiple layers will be described in detail with reference to the accompanying drawings.

FIG. 1 is a perspective view showing a peeling system for a multilayer bonded film according to a preferred embodiment of the present invention, FIG. 2 is an exploded perspective view showing a peeling system for a multi-layer bonded film according to a preferred embodiment of the present invention, 3 is a side view showing a peeling system for a multi-layer bonded film according to a preferred embodiment of the present invention.

1 to 3, a peeling system 100 for a multi-layer bonded film of the present invention includes a base unit 110 having a support frame 111 and a pair of mounting plates 113, A guide unit 120 installed on the upper part of the frame 111 and a transfer unit 130 provided between the pair of mounting plates 113 and a transfer unit 130 provided on the mounting plate 113 adjacent to the transfer unit 130. [ And a water supply unit 160 installed at an upper portion of the peeling unit 140. The water removing unit 140 is installed at a side of the peeling unit 140,

The base unit 110 is a constituent means that serves as a basic frame of a peeling system for a film adhered to a multilayer of the present invention.

The base unit 110 includes a support frame 111 installed at a lower portion and a mounting plate 113 and a shelf 115 installed at the support frame 111 at the front and rear of the support frame 111 . The shelf 115 is provided with a film P for the peeling process.

4 is a perspective view showing a guide unit in a peeling system for a multi-layer bonded film according to a preferred embodiment of the present invention.

The guide unit 120 is a constituent means for providing a space through which the film P laminated / attached with different materials can move.

3 and 4, the guide unit 120 includes a plurality of horizontal panels 121 on which the film P is placed and a space between the horizontal panel 121 and the horizontal panel 121, And a guide plate 126 for guiding the moving direction of the film P seated on the horizontal panel 121. [

A plurality of the horizontal panels 121 are spaced apart from each other at an upper portion of the supporting frame 111. Thus, the film P moves in a state of being seated on the horizontal panel 121.

The connection brackets 124 are fixed to both sides of the horizontal panels 121. The guide plate 126 is spaced apart from the horizontal panel 121 at a predetermined distance from an upper portion of the horizontal panel 121 adjacent to the peeling unit 140 and is provided with an inclined piece 127 at one side thereof. In addition, the horizontal panel 121 provided with the guide plate 126 is provided with a cutting groove 122 on the upper part thereof.

The film P that is seated on the horizontal panel 121 moves into the space between the horizontal panel 121 and the guide plate 126 at the time of entering the peeling unit 140, .

The film P placed on the guide unit 120 receives the power required for the movement through the transfer unit 130.

5 is a perspective view showing a transfer unit in a peeling system for a multilayer bonded film according to a preferred embodiment of the present invention. The transfer unit 130 is a constituent means for providing the power required for the film P to move along the guide unit 120.

5, the transfer unit 130 includes a plurality of friction rollers 131 for pushing the film P by rotational force, a friction roller driving motor T1 for providing a driving force to the friction rollers 131, A friction roller power transmission member 135 for uniformly transmitting the power of the friction roller driving motor T1 to the friction rollers 131, And a frictional roller tension adjusting member 330 for adjusting the tension of the frictional roller power transmitting member 135. The frictional roller tension adjusting member 330 includes a frictional roller tension adjusting member 330,

The friction rollers 131 are installed between the pair of mounting plates 113 so as to have a plurality of pairs of up / down positional relationship with respect to the horizontal panel 121. At this time, the multiple pairs of friction rollers 131 are positioned between the spacing spaces of the respective horizontal panels 121 (see FIG. 4). Thus, the friction roller 131 having the up / down positional relationship is in surface contact with the upper / lower surface of the film P through the spacing space of each horizontal panel 121 (see FIG. 4).

The friction rollers 131 located at the bottom of the friction rollers 131 are freely rotatably coupled to the mounting plate 113. The friction rollers 131 located at the upper ends of the friction rollers 131 are fixed to both ends of the friction roller 131, (Not shown).

The friction roller power transmitting member 135 includes a sprocket 136 connected to an end of the friction roller 131 and a chain 137 connecting the sprockets 136. [ When the power of the friction roller driving motor T1 is transmitted to the chain 137, the sprocket 136 and the friction rollers 131 connected to the chain 137 rotate.

The friction roller gap adjusting member 230 includes a support bracket 231 axially coupled to both ends of a friction roller 131 disposed at an upper portion thereof and having a friction roller spiral shaft 233 at an upper end thereof, 3, a fixing bracket 235 which is coupled to the inside of the mounting plate 113 through which the friction roller spiral shaft 233 is inserted, and a friction roller spiral shaft 233 penetrating the fixing bracket 235 And a nut 237 fastened thereto. At the same time, the support bracket 231 and the friction roller 131 are lifted and lowered together with the friction roller spiral shaft 233, And adjusts the distance between the pair of friction rollers 131. [

The friction roller tension adjusting member 330 includes a friction roller connecting hole 331 connected to the chain 137 and having a friction roller rotating body 333 that receives power of the chain 137 and rotates freely, A bolt body 335 whose one end is axially coupled to the roller connection port 331 and a mounting plate 113 of the base unit 110 (see FIG. 3), and the other end of the bolt body 335 is connected And a nut body 339 fastened to the bolt body 335 passing through the mounting bracket 337. A guide elongated hole 338 is formed in the mounting bracket 337 to guide the moving direction of the frictional roller connecting hole 331. The bolt body 335 moves in the horizontal direction along the rotating direction of the nut body 339 and at the same time the friction roller connector 331 moves together with the bolt body 335, Adjust the tension.

The film P moving through the transfer unit 130 is transferred to the peeling unit 140 so that one side is peeled off through the peeling unit 140. At this time, the material of the peeled surface is generally a paper material.

6 is a perspective view showing a peeling unit in a peeling system for a multi-layer bonded film according to a preferred embodiment of the present invention. The peeling unit 140 is a constituent means for peeling off one side of the film P moving along the guide unit 120.

6, the peeling unit 140 includes a plurality of brush rollers 141 provided on the upper part of the horizontal panel 121 (see FIG. 4), a brush roller 141 for providing a driving force to the brush rollers 141, A brush roller power transmitting member 145 for uniformly transmitting the power of the brush roller driving motor T2 to the plurality of brush rollers 141; A brush roller gap adjusting member 240 for adjusting the height of the roller 141 and a brush roller tension adjusting member 340 for adjusting the tension of the brush roller power transmitting member 145.

The brush roller 141 is disposed between a pair of mounting plates 113 (see FIG. 2). The brush roller gap adjusting member 240 is installed at both ends of the mounting plate 113 (see FIG. 2) do. Thus, the film P moving along the horizontal panel 121 (see FIG. 4) is brought into contact with one surface of the film P by the rotating brush roller 141.

The brush roller power transmitting member 145 includes a pulley 147 connected to an end of the brush roller 141 and a belt 149 connecting the pulleys 147. [ When the power of the brush roller driving motor T2 is transmitted to the belt 149, the pulley 147 and the brush roller 141 connected to the belt 149 rotate.

The brush roller interval adjusting member 240 includes a conveying bracket 241 axially coupled to both ends of the brush roller 141 and having a brush roller spiral shaft 243 rotatably connected thereto, And a guide bracket 245 fastened to the mounting plate 113 (see FIG. 3) of the brush roller spiral shaft 243 (see FIG. 3).

The brush roller spiral shaft 243 and the conveyance bracket 241 move up and down according to the rotational direction of the brush roller spiral shaft 243 and simultaneously move up and down the conveying bracket 241, Are lifted and lowered together to adjust the interval between the brush roller 141 and the horizontal panel 121 (see FIG. 4).

The brush roller tension adjusting member 340 includes a brush roller connecting hole 341 connected to the belt 149 and having a brush roller rotating body 343 that receives power of the belt 149 and rotates freely, And a binding bracket 345 fastened to the mounting plate 113 (see FIG. 3) of the base unit 110 (see FIG. 3) while being connected to the roller connecting hole 341. The binding bracket 345 has a binding hole 347 for changing the mounting position of the binding bracket 345 inside thereof. Accordingly, the brush roller tension adjusting member 340 adjusts the tension of the belt 149 by varying the position of the binding bracket 345.

By-products of the film P peeled off by the peeling unit 140 are discharged to the outside of the peeling system by the collection unit 150.

7 is a perspective view showing a collection unit in a peeling system for a multi-layer bonded film according to a preferred embodiment of the present invention.

The collecting unit 150 is a constituent means for collecting and discharging the by-products peeled off from the film P.

The collecting unit 150 includes a receiving bracket 151 provided on an adjacent one side of the brush roller 141 (see FIG. 6) constituting the peeling unit 140, And a water collecting tank 159 for collecting by-products.

The receiving bracket 151 is installed between a pair of mounting plates 113 (see FIG. 3) constituting the base unit 110 (see FIG. 3). The receiving bracket 151 includes an extension piece 153 protruding downward from the brush roller 141 and a receiving groove 155 extending from an end of the extending piece 153. The receiving groove 155 extends from the end of the receiving groove 155, And an anti-scattering member 157 formed on the lower surface of the base body 157. [

The extension piece 153 is protruded to the closest position where the film P and the brush roller 141 (see FIG. 3) are in contact with each other so that the by-product of the film P peeled off by the brush roller 141 And guided to the receiving groove 155 side. The anti-jamming member 157 protrudes upward at a predetermined angle to guide the by-product of the film P, which is peeled off by the brush roller 141 (see FIG. 3), to the receiving groove 155 side. By-products of the film P led to the receiving groove 155 are gathered in the collecting tank 159 and used for recycling.

Referring to FIGS. 1 and 2, the water supply unit 160 serves to prevent by-products from being easily peeled off from the film P, It is means.

The water supply unit 160 is connected to the brush roller 141 through a pipe 161 and a nozzle 163 provided on the brush roller 141 (see FIG. 3) constituting the peeling unit 140 (see FIG. 3) Water.

Accordingly, the present invention having the above-described combined structure can improve the structure of the peeling system for peeling off the peeled film from the film having different materials, thereby reducing the investment cost of the facility and easily peeling off the film regardless of the condition of the film , The operation relationship therebetween, and the operation effect will be described in detail with reference to the drawings.

8 is a cross-sectional view showing the operation of a peeling system for a multi-layer bonded film according to a preferred embodiment of the present invention.

8, the peeling system 100 for a multi-layer bonded film of the present invention is characterized in that the film P moves along the guide unit 120 by the transfer unit 130, And the by-product of the peeled film P is discharged to the outside through the collection unit 150 (see FIG. 7). At this time, the water supply unit 160 is provided on the peeling unit 140 to prevent the by-products generated during the peeling and peeling of the film from being scattered.

Hereinafter, the operation relationships of the respective processes will be separately described with reference to the drawings.

FIG. 9 is an enlarged cross-sectional view showing the operation of a transfer unit in a peeling system for a multi-layer bonded film according to a preferred embodiment of the present invention.

9, when the film P is placed on the shelf 115 of the base unit 110 and then the film P is pushed toward the horizontal panel 121 of the guide unit 120, P are engaged with each other between the rotating friction rollers 131 on the horizontal panel 121 in the up / down positional relationship.

At this time, the gap between the pair of friction rollers 131 is adjustable through the friction roller gap adjusting member 230.

The friction roller spiral shaft 233 of the friction roller gap adjusting member 230 moves up and down according to the rotating direction of the nut 237. When the spiral spiral shaft 233 is lifted up through the rotation of the nut 237, the support bracket 231 and the friction roller 131 positioned above the pair of friction rollers 131 And the intervals of the friction rollers 131 having the up / down positional relationship are further spaced apart. When the spiral shaft 233 is lowered through the rotation of the nut 237, the support bracket 231 and the friction roller 131 located at the upper portion of the pair of friction rollers 131 The distance between the friction rollers 131 having the up / down position relationship becomes narrower.

Thus, the peeling system of the present invention makes it possible to perform the peeling operation easily regardless of the thickness of the film P by adjusting the interval of the friction rollers 131 having the up / down position relationship.

Further, the tension of the chain 137, which is the friction roller power transmission member 135, is adjustable through the friction roller tension adjusting member 330.

The bolt member 335 of the friction roller tension adjusting member 330 moves leftward / rightward according to the rotating direction of the nut member 339. [ When the bolt body 335 is moved in the direction away from the sprocket 136 of the friction roller power transmitting member 135 through the rotation of the nut member 339, the rotating body of the friction roller connecting hole 331 333 move together to bring the chain 137 into a more tightened tension condition. When the bolt body 335 is moved in the direction of the sprocket 136 through the rotation of the nut body 339 and the rotating body 333 moves toward the sprocket 136 side, ) Is loosened.

Accordingly, the friction rollers 131, which are operated by receiving the power of the chain 137, perform an accurate operation.

The film P moving through the transfer unit 130 is peeled off from the one side by the peeling unit 140 and the by-products of the peeling film are collected by the collection unit 150.

10 is an enlarged cross-sectional view showing the operation of a peeling unit in a peeling system for a film adhered in multiple layers according to a preferred embodiment of the present invention.

Referring to FIG. 10, the film P moving along the guide unit 120 is peeled off from one side of the peeling unit 140 through friction with the brush roller 141.

The film P is bent in the same shape as the outer surface of the brush roller 141 through the cutout groove 122 of the horizontal panel 121 while the brush roller 141 presses the film P, As a result, the area of contact between the brush roller 141 and the film P is widened so that the peeling operation using the brush roller 141 can be efficiently performed.

Water is sprayed to the brush roller 141 through the nozzle 163 of the water supply unit 160 to perform a smooth peeling operation and prevent the byproducts generated in the peeling process from being scattered.

By-products of the film peeled off by the brush roller 141 are collected in the water collecting tank 159 (see FIG. 7) through the receiving bracket 151 (see FIG. 7) and recycled.

The interval between the horizontal panel 121 and the brush roller 141 is adjustable through the brush roller gap adjusting member 240.

The brush roller spiral shaft 243 of the brush roller gap adjusting member 240 moves up and down on the guide bracket 245 in accordance with the rotation direction thereof. At the same time, when the conveying bracket 241 is raised through the rotation of the brush roller spiral shaft 243, the brush roller 141 is moved upward to move the brush roller 141 between the brush roller 141 and the horizontal panel 121 The gap is further spaced. When the conveying bracket 241 is lowered through the rotation of the brush roller spiral shaft 243, the brush roller 141 descends to move the brush roller 141 between the brush roller 141 and the horizontal panel 121 The interval becomes narrower.

The friction force generated between the brush roller 141 and the film P can be adjusted by the user through the movement of the brush roller 141 through the brush roller gap adjusting member 240, It is possible to control the degree of exfoliation. The peeling system according to the present invention prevents the component from being damaged due to excessive frictional force by gradually increasing the frictional force between the brush roller 141 and the film P as the film P advances, , So that an efficient peeling operation can be performed.

Further, the tension of the belt 149, which is the brush roller power transmitting member 145, is adjustable through the brush roller tension adjusting member 340.

The brush roller rotation body 343 of the brush roller tension adjusting member 340 is connected to the belt 149 and the binding bracket 345 fastened to the mounting plate 113 of the base unit 110 is fastened It is possible to adjust the mounting position thereof through the opening 347. The brush roller tension adjusting member 340 can be adjusted to change the position of the brush roller rotating body 343 by adjusting the position of the binding bracket 345 so that the belt 149 is in a tight tension state or a loose state .

The exfoliation system according to the first preferred embodiment of the present invention ensures that the components operating by the power of the belt 149 through correcting the tension of the power transmitting belt 149 have an accurate working relationship.

Accordingly, the multi-layered film peeling system according to the first preferred embodiment of the present invention can reduce the investment cost of the facility through the improvement of its structure, and also improve the peeling work and peeling efficiency .

Hereinafter, a multilayer bonded film peeling system according to a second preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

Here, the same reference numerals denote the same components as those of the second embodiment of the peeling system according to the first embodiment of the present invention, and a detailed description thereof will be omitted.

FIG. 11 is a cross-sectional side view showing a peeling system for a multilayer bonded film according to a second preferred embodiment of the present invention, and FIG. 12 is a cross-sectional side view showing a peeling system for a film adhered to a multilayer according to a second preferred embodiment of the present invention FIG. 13 is an enlarged perspective view showing a guide unit, a peeling unit and a pressing unit in a peeling system for a film adhered to a multilayer in accordance with a second preferred embodiment of the present invention. FIG.

11 to 13, a peeling system 1000 for a multi-layer bonded film according to a second preferred embodiment of the present invention includes a guide unit (not shown) for providing a space through which a film P having a release- And a film P moving along the guide unit 1120 are provided on the side of the guide unit 1120 so that the film P moves along the guide unit 1120, A pressurizing unit 1160 for bringing the film P coming into the peeling unit 1140 into close contact with the guide unit 1120 and a byproduct removed from the film P are collected and discharged (1150).

The guide unit 1120 includes a plurality of horizontal panels 1121 spaced apart from each other by a predetermined distance and a plurality of discharge holes 1123 formed inside the horizontal panel 1121.

By-products, which are peeled off the film P from the peeling unit 1140, are discharged to the lower side of the horizontal panel 1121 through the discharge hole 1123.

And a plurality of brush rollers 1141 provided on the upper part of the horizontal panel 1121. The brush roller 1141 is provided with an inlet groove 1143 on its outer surface and is provided with a driving force (rotation) through a brush roller driving motor 1145.

The positions of the inflow grooves 1143 formed in the brush rollers 1141 are formed at the same position between the brush rollers 1141 having the same power transfer relationship.

The film P moving along the horizontal panel 1121 is peeled off from the adhesive layer of the paper material adhered to the film P by the rotating brush roller 1141.

The pressurizing unit 1160 includes a support roller 1161 disposed at a lower portion of the space separated by the horizontal panel 1121 and a support member 1161 disposed at an upper portion of the support roller 1161, A pressure sprocket driving motor 1165 for providing a driving force in the same direction as the rotational direction of the brush roller 1141 to the pressure sprocket 1163 and a pressure sprocket 1163 for bringing the pressure roller P into contact with the supporting roller 1161 side, .

The collection unit 1150 includes a receiver 1151 disposed below the horizontal panel 1121 for collecting by-products of the film discharged through the discharge hole 1123 of the horizontal panel 1121, And a water collecting tank 1159 for collecting and collecting by-products of the film stacked in the peeling system 1151 outside the peeling system.

Hereinafter, the operation relationships of the respective processes will be separately described with reference to the drawings.

When the film P is placed on the shelf 115 of the base unit 110 and then the film P is pushed toward the horizontal panel 1121 of the guide unit 1120, And is moved on the horizontal panel 1121 in engagement with the rotating friction rollers 131 in a positional relationship.

The film P moving through the transfer unit 130 is peeled off by the peeling unit 1140 and by-products of the peeled film are collected by the collection unit 1150.

That is, the film P moving along the guide unit 1120 is peeled off from one side of the peeling unit 1140 through friction with the brush roller 1141.

The film P is bent in the same shape as the outer surface of the brush roller 1141 through the cutout groove 122 of the horizontal panel 1121 while the brush roller 1141 presses the film P, As a result, the contact area between the brush roller 1141 and the film P is widened so that the peeling operation using the brush roller 1141 can be efficiently performed.

The film P is further tightly adhered to the guide unit 1120 side through the pressing unit 1160 before the film P enters the brush roller 1141 of the peeling unit 1140. The film P is prevented from being inversed or twisted by the frictional force between the film P and the brochure roller 1141 during the peeling process.

That is, before entering the brush roller 1141, the film P enters between the supporting roller 1161 and the pressing sprocket 1163. In this process, the pressing sprocket 1163 presses the film P do.

At this time, the driving force of the pressure sprocket 1163 is provided by a pressure sprocket driving motor 1165, and the pressure sprocket driving motor 1165 is connected to the pressure sprocket driving motor 1165 through a chain so as to transmit power. The chain also connects the pressure sprockets 1163 through the inlet grooves 1143 of the brush roller 1141.

By-products of the film peeled off by the brush roller 1141 flow into the receiving part 1151 of the collection unit 1150 through the discharge hole 1123 of the horizontal panel 1121, By-products of the film introduced into the water collecting tank 1159 are used for recycling.

Thus, in the peeling system for a multilayer bonded film according to the second preferred embodiment of the present invention, the structure is improved so that the peeling operation by the brush roller can be performed more stably.

110: base unit 111: support frame 113: mounting plate
115: shelf 120: guide unit 121: horizontal panel
126: guide plate 127: inclined piece 130: conveying unit
131: Friction roller 135: Friction roller Power transmission member 136: Sprocket
137: chain 140: peeling unit 141: brush roller
145: Brush roller power transmitting member 147: Pulley 149: Belt
150: Collection unit 151: Receiving bracket 153: Extension piece
155: receiving groove 157: preventing member 159: water collecting tank
160: Water supply unit 230: Friction roller interval adjusting member
240: Brush roller interval adjusting member 330: Friction roller tension adjusting member
340: Brush roller tension adjusting member
1120: guide unit 1121: horizontal panel 1123: exhaust hole
1140: peeling unit 1141: brush roller 1143: inflow groove
1145: Brush roller driving motor 1150: Collection unit
1151: Receiving 1159: Water collecting tank
1160: pressure unit 1161: support roller
1163: Pressurizing sprocket 1165: Pressurizing sprocket drive motor

Claims (16)

A plurality of horizontal panels spaced apart from each other by a predetermined distance so as to provide a space for moving the film having the releasing material thereon and a guide for guiding the moving direction of the film, A guide unit including a plate; A transfer unit for providing the necessary power to move the film along the guide unit; A peeling unit for peeling off one side of the film moving along the guide unit; And a collecting unit for collecting and discharging the by-products which have been peeled off from the film, the peeling system comprising:
The transfer unit
A plurality of frictional rollers provided on the upper and lower sides of the space in which the respective horizontal panels are spaced apart;
A friction roller drive motor for providing a driving force to the friction rollers; And
And a friction roller power transmitting member for uniformly transmitting the power of the friction roller driving motor to the plurality of friction rollers,
Wherein the frictional roller power transmitting member comprises a sprocket connected to an end of the friction roller and a chain connecting the sprockets.
delete delete The method according to claim 1,
The friction roller is further provided with a friction roller gap adjusting member for adjusting a gap between the friction rollers having an up / down positional relationship,
Wherein the friction roller gap adjusting member comprises:
A support bracket axially coupled to both ends of a friction roller disposed at an upper portion thereof and having a friction roller spiral shaft at an upper end thereof;
A fixing bracket installed above the support bracket, the fixing bracket being connected to the spiral shaft of the friction roller; And
And a nut (14) fastened to a friction roller spiral shaft passing through the fixing bracket so that the friction roller spiral shaft can be moved up and down. The method according to claim 1,
A friction roller tension adjusting member for adjusting tension is further provided on the chain of the friction roller power transmitting member,
Wherein the friction roller tension adjusting member comprises:
A friction roller connection port connected to the chain, the friction roller connection port having a frictional roller rotation body that receives free rotation of the chain and receives power;
A bolt body having one end axially coupled to the friction roller connector;
The other end of the bolt body being inserted and connected, and a guide elongated hole for guiding the friction roller connecting hole formed therein; And
And a nut body which is fastened to a bolt body passing through the mounting bracket so as to move the bolt body in a horizontal direction. The method according to claim 1,
Wherein the peeling unit comprises:
A plurality of brush rollers installed on the upper portion of the horizontal panel;
A brush roller driving motor for providing a driving force to the brush rollers; And
And a brush roller power transmitting member for uniformly transmitting power of the brush roller driving motor to a plurality of brush rollers,
Wherein the brush roller power transmitting member comprises a pulley connected to an end of the brush roller and a belt connecting the pulleys. The method according to claim 6,
Wherein the brush roller is further provided with a brush roller gap adjusting member for adjusting the height of the brush roller,
Wherein the brush roller gap adjusting member comprises:
A conveyance bracket axially coupled to both ends of the brush roller and having a spiral screw shaft rotatably connected to the brush roller; And
And a guide bracket connected to an outer side of the conveying bracket and having a spiral shaft coupled to the upper portion of the guide bracket. The method according to claim 6,
The brush roller power transmission member is further provided with a brush roller tension adjusting member for adjusting tension,
Wherein the brush roller tension adjusting member comprises:
A brush roller connection port connected to the belt, the brush roller connection port having a brush roller rotation body that receives free rotation of the belt and receives power; And
And a binding bracket connected to the brush roller connection port and having a binding hole for changing the position of the brush roller tension adjusting member formed on the inside thereof. The method according to claim 6,
Wherein the horizontal panel on which the brush roller is located is provided with a cutting groove. The method according to claim 1,
Wherein the collection unit comprises:
A receiving bracket disposed on an adjacent side of the peeling unit, the peeling through the peeling unit collecting by-products of the film; And
And a collecting tank for collecting by-products of the film stacked on the receiving bracket,
The receiving bracket includes:
An extension piece protruding downward from the brush roller constituting the peeling unit;
A receiving groove formed at an end of the extending piece; And
And a peel prevention piece extending from the end of the receiving groove. The method according to claim 1,
And a water supply unit for spraying water onto the peeling unit and the film is further provided on the peeling unit. A guide unit having a plurality of horizontal panels spaced apart from each other by a predetermined distance so as to provide a space for moving the film to which the release material is attached, and a plurality of discharge holes formed inside the horizontal panel; A transfer unit for providing the necessary power to move the film along the guide unit; A peeling unit for peeling off one side of the film moving along the guide unit; And a collecting unit for collecting and discharging the by-products which are peeled off from the film, wherein the peeling unit comprises a pressing unit for bringing the film entering the peeling unit into close contact with the guide unit,
Wherein the peeling unit comprises:
A plurality of brush rollers installed on the upper side of the horizontal panel and provided with inlet grooves on the outer surface thereof,
And a brush roller drive motor for providing a driving force to the brush rollers. delete delete 13. The method of claim 12,
The pressure unit
A support roller provided at a lower portion of the spaced space of the horizontal panel;
A pressing sprocket provided on the supporting roller to closely contact the film entering the peeling unit with the supporting roller side,
And a pressure sprocket drive motor for applying a driving force to the pressure sprocket in the same direction as the rotating direction of the brush roller. 13. The method of claim 12,
Wherein the collection unit comprises:
A receiver installed below the horizontal panel for collecting by-products of the film discharged through the discharge hole of the horizontal panel,
And a collecting tank for collecting and collecting by-products of the film accumulated in the receiving part to the outside of the peeling system.

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