CN214569634U - Coiled material pulling mechanism and coiled material processing module - Google Patents

Abstract

The utility model discloses a coiled material pulling mechanism and coiled material processing module. The coil material pulling mechanism is used for adhering and separating a surface layer material of a strip-shaped multilayer material by using an adhesive and comprises a first machine table, a supporting piece and a pressing piece. The supporting piece is connected to the first machine table and is suitable for supporting the bottom of the multilayer material. The pressing part is connected to the first machine table, the pressing part and the supporting part are arranged oppositely, and one side, opposite to the supporting part, of the pressing part is suitable for arranging adhesive. The adhesive arranged on the laminating piece can be bonded with the surface layer material of the multilayer material supported on the supporting piece so as to separate the surface layer material. By the cooperation of the supporting member and the press-fitting member, the adhesive is brought into contact with the multilayer material and sticks up the skin material in the multilayer material, and then the adhesive adhering to the skin material is collected by the discharge roller. Thereby achieving the purpose of removing the surface layer material of the blank material belt part, and improving the production efficiency of the coiled material. The coil processing module comprises the coil pulling-up mechanism.

Description

Coiled material pulling mechanism and coiled material processing module

Technical Field

The utility model belongs to the technical field of the coiled material production technique and specifically relates to a mechanism and coiled material processing module are pulled out to coiled material is related to.

Background

During the coil processing, the coil needs to be cut. Due to the processing requirements of the roll material, blank tapes are often required to be reserved on the roll material. For example, when the protective film roll is processed, the protective film has upper and lower layers, after the protective film is cut, the upper protective film in the blank tape area needs to be pulled up, and the protective films in the rest areas are all remained. The pulling-up of the upper protective film is usually manual pulling-up, and the pulling-up method causes low production efficiency of the coiled material.

SUMMERY OF THE UTILITY MODEL

The utility model discloses aim at solving one of the technical problem that exists among the prior art at least. Therefore, the utility model provides a coiled material has pulled out mechanism can improve the production efficiency of coiled material.

The utility model discloses still provide a coiled material processing module who has above-mentioned coiled material pull-out mechanism.

According to the utility model discloses mechanism is pulled out to coiled material, mechanism is pulled out to coiled material for utilize the viscidity thing to carry out the adhesion separation to banded multilayer material's surface course material, a serial communication port, include:

a first machine table;

the supporting piece is connected to the first machine table and is suitable for supporting the bottom of the multilayer material;

the pressing piece is connected to the first machine table, the pressing piece is arranged opposite to the supporting piece, and one side of the pressing piece, which is opposite to the supporting piece, is suitable for arranging the adhesive;

wherein the pressing member is movable toward and away from the support member, and when the pressing member is moved toward the support member, the adhesive provided to the pressing member is capable of adhering a skin material of the multi-layered material supported on the support member to separate the skin material.

According to the utility model discloses coiled material pull-up mechanism has following technological effect at least: through the cooperation of the supporting piece and the laminating piece, the adhesive is contacted with the surface layer material in the multilayer material and sticks up the surface layer material in the multilayer material, so that the surface layer material of the blank material belt part is removed, and the production efficiency of the coiled material is improved.

According to some embodiments of the utility model, the stickies are the coil stock, the mechanism is pulled up to the coil stock still includes:

the discharging roller is used for placing the coil stock;

a material receiving roller for receiving the viscous material discharged from the roll material;

and the driving mechanism is connected with the material receiving roller and used for driving the material receiving roller to rotate.

According to some embodiments of the invention, the pressing piece comprises:

a rotating roller for driving and supporting the adhesive;

the pressure rod is used for driving the rotating roller so as to enable the rotating roller to be attached to the pressing piece;

and the elastic piece is positioned between the supporting piece and the rotating roller and used for resetting the rotating roller.

According to some embodiments of the utility model, the coiled material is pulled up the mechanism and is still included the rotor arm, the rotor arm with the pressure bar is connected, the rotor arm is used for artifical rotatory pressure bar, so that support piece with the laminating of pressfitting piece.

According to some embodiments of the utility model, the coiled material is pulled up the mechanism and is still included the power bottom roll, the power bottom roll with support piece meshing, support piece with the live-rollers meshing.

According to the utility model discloses coiled material processing module of second aspect embodiment, coiled material processing module includes as in the above-mentioned first aspect embodiment the coiled material is pulled up the mechanism and is placed the piece to multilayer material, multilayer material is placed the piece and is used for placing multilayer material.

According to the utility model discloses coiled material processing module has following technological effect at least: due to the coil lifting mechanism, the supporting piece is matched with the pressing piece, the adhesive is contacted with the multi-layer material and sticks the surface layer material in the multi-layer material, and then the adhesive adhered to the surface layer material is collected by the discharging roller. The surface layer material of the blank material belt part can be efficiently pulled out by the coiled material processing module, so that the production efficiency of the coiled material is improved.

According to some embodiments of the utility model, the coiled material processing module still includes:

a low-tack film conformable to the multilayer material;

a low-mucosa collecting roller for collecting the low-mucosa;

an integration roller for conforming the multi-layer material and the low tack film;

and the low-adhesive-film placing roller is used for placing the low adhesive film.

According to the utility model discloses some embodiments, the coiled material processing module still includes the ware of rectifying, the working plane and the coiled material processing plane of rectifying the ware are located the coplanar.

According to the embodiment of the utility model provides a some embodiments, all be provided with the gasbag in the blowing roller multilayer material placing member and low adhesive film placing roller, the gasbag can heave or shrink, works as when the gasbag heave, the viscidity multilayer material with low adhesive film is fastened, works as when the gasbag shrinks, the viscidity multilayer material with low adhesive film is unblock.

According to some embodiments of the invention, the multilayer material placement with the line between the integration rollers is a loading line, the loading line is inclined to the coil processing plane and forms an angle of inclination a, the angle of inclination a faces away from the loading direction, 30 ° < the angle of inclination a < 50 °.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

fig. 1 is a schematic structural view of a coil pulling mechanism according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a coil processing module according to an embodiment of the present invention.

Reference numerals:

a web pull-up mechanism 10, a multi-layer material 20, an adhesive 30, a low tack film 40, a web processing module 50;

the device comprises a first machine table 100, a support member 110, a pressing member 120, a pressure rod 121, a rotating roller 122, a rotating arm 123, a positioning member 124 and a power bottom roller 130;

the discharging rollers 200 and 300;

a second machine table 400, a cutting die processing table 411 and a cutting die 412;

a third machine table 500, a steel roller 511 and a rubber roller 512;

an outer frame waste collection member 600, a multi-layer material placement member 700, a deviation rectifier 800, a low-tack film placement roller 900, a low-tack film collection roller 910, and a finished product collection member 920.

Detailed Description

The conception and the resulting technical effects of the present invention will be described clearly and completely with reference to the following embodiments, so that the objects, features and effects of the present invention can be fully understood. Obviously, the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and other embodiments obtained by those skilled in the art without inventive labor based on the embodiments of the present invention all belong to the protection scope of the present invention.

In the description of the embodiments of the present invention, if an orientation description is referred to, for example, the directions or positional relationships indicated by "upper", "lower", "left", "right", etc. are based on the directions or positional relationships shown in the drawings, it is only for convenience of description and simplification of description, but it is not intended to indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the description of the embodiments of the present invention, if a feature is referred to as being "disposed", "connected", or "mounted" to another feature, it can be directly disposed, fixed, or connected to the other feature or indirectly disposed, fixed, or connected to the other feature.

A coil lifting mechanism 10 according to an embodiment of the present invention is described below with reference to fig. 1 to 2.

According to the utility model discloses mechanism 10 is pulled out to coiled material, mechanism 10 is pulled out to coiled material of first aspect embodiment, including first board 100, support piece 110, pressfitting piece 120, support piece 110 is connected in first board 100 for support multilayer material 20, be suitable for the bottom that supports multilayer material 20. The pressing member 120 is connected to the first machine 100, the pressing member 120 is disposed opposite to the supporting member 110, and a side of the pressing member 120 opposite to the supporting member 110 is adapted to be disposed with the adhesive 30. Wherein, the pressing member 120 can move close to and away from the supporting member 110, and when the pressing member 120 moves close to the supporting member 110, the adhesive 30 disposed on the pressing member 120 can adhere to the skin material of the multi-layered material 20 supported on the supporting member 110 to separate the skin material.

Specifically, for example, as shown in fig. 1, the feeding direction is from left to right. The adhesive 30 is a roll, the discharging roller 200 and the discharging roller 300 are shaft-like structures, and the adhesive 30 is a sealing tape and is in a roll shape. The adhesive 30 is sleeved on the discharge roller 200 and extends through a passage (not labeled) between the stitching member 120 and the support member 110, and finally reaches the discharge roller 300. When it is desired to draw the skin material from the blank web area, a drive mechanism (not shown) rotates the discharge roller 300, thereby collecting the adhesive 30, and driving the adhesive 30 continuously through the path between the nip 120 and the support 110. In this process, the pressing member 120 is moved downward until the adhesive 30 contacts the multi-layer material 20, and when the adhesive 30 contacts the multi-layer material 20, the skin material in the multi-layer material 20 is adhered. When the blank belt area is pulled up, the pressing piece 120 moves upwards, the adhesive 30 is separated from the multilayer material 20, and the discharging roller 300 stops working, so that the pulling-up efficiency of the blank belt is improved, and the production efficiency of the coiled material is improved.

In other embodiments, the adhesive in the coil pulling mechanism 10 is manually placed on the engaging member 120, when the multi-layer material 20 is to be pulled, the engaging member 120 is moved toward the supporting member 110 to apply the adhesive 30 to the area of the multi-layer material 20 to be pulled, thereby pulling the skin material off the area, and when the pulling is completed, the adhesive 30 on the engaging member 120 is manually removed. Thereby achieving the effect of improving the production efficiency of the coiled material.

It is to be understood that the driving mechanism may be an air cylinder, an ac motor, or the like, and the discharging roller 200 may be a storage box or the like in which the adhesive 30 is placed. The adhesive 30 may be a transparent adhesive, a hook and loop fastener, or other material capable of adhering the skin material, and the adhesive 30 may adhere the skin material through the above material. The discharge roller 300 may be a motor or the like that drives the adhesive 30. When the discharging roller 200 and the discharging roller 300 are shaft-like structures, both of them can be driving members, so as to drive the sticky object 30 to move, and the plurality of driving members can make the sticky object 30 not easy to break or deform due to the excessive tensile force. The pressing member 120 may be located below the supporting member 110, and the supporting member 110 may be actively displaced and attached to the pressing member 120, thereby satisfying the layout requirement during processing. The movement of the pressing member 120 and the supporting member 110 on the first machine 100 may be driven by an air cylinder or a driving motor so that the adhesive 30 moves more smoothly.

In some embodiments, the stitching member 120 includes a rotating roller 122, a pressure rod 121, and an elastic member, wherein the rotating roller 122 is used for driving and supporting the adhesive 30, the pressure rod 121 is used for driving the rotating roller 122 to make the rotating roller 122 fit with the stitching member 120, and the elastic member is located between the support member 110 and the rotating roller 122 for resetting the rotating roller 122.

Specifically, for example, as shown in fig. 1, the supporting member 110 is a shaft-like structure, the elastic member is a spring, the pressure rod 121 is fixed on the first machine 100 by a fixing member 125 (not labeled), and the bottom end of the pressure rod 121 abuts against the upper end of the rotating roller 122. The rotating roller 122 itself may rotate, thereby driving the adhesive 30 to move, with the adhesive 30 engaging the rotating roller 122 through the gap between the rotating roller 122 and the support 110. The elastic member is disposed between the rotating roller 122 and the supporting member 110. The pressure rod 121 is driven by the air cylinder, and when the blank material belt needs to be pulled up, the air cylinder drives the pressure rod 121, so that the pressure rod 121 moves downwards, and the adhesive 30 is attached to the surface layer material. After the blank material belt is pulled up, the air cylinder does not drive the pressure rod 121 any more, and the pressure rod 121 receives the elastic force of the elastic member to move upwards and return to the position before operation, so that the blank material belt is pulled up.

It can be understood that the supporting member 110 may also be a structure such as a conveying table that supports the multilayer material 20, and the elastic member may be a spring plate or an elastic band, when the elastic member is an elastic band, one end of the elastic band is attached to the bottom of the rotating roller 122, and the other end of the elastic band is fixed to the upper end of the rotating roller 122, and when the blank band is completely pulled up, the rotating roller 122 returns to the position before operation due to the pulling force of the elastic band, thereby preventing the spring from coming out of the gap between the rotating roller 122 and the supporting member 110 when the elastic member is a spring. The pressure bar 121 may also be disposed below the support member 110, thereby driving the support member 110 to move upward to achieve the adhesion of the adhesive 30 to the multi-layer material 20 and meet the layout of the process. The turning roll 122, the discharging roll 200, the supporting member 110 and the discharging roll 300 may move as driving members.

In some embodiments, the coil pulling mechanism 10 further includes a rotating arm 123, the rotating arm 123 is connected to the pressure rod 121, and the rotating arm 123 is used for manually rotating the pressure rod 121 to make the supporting member 110 fit to the pressing member 120. Specifically, for example, as shown in fig. 1, the rotating arm 123 has a step structure and is provided with friction grains. The rotating arm 123 is disposed at the top end of the pressure rod 121, and the connection between the rotating arm 123 and the pressure rod 121 is a threaded connection. When the roll-up mechanism 10 requires manual adjustment of the blank strip pull-up, the user may actuate the pressure bar 121 by grasping the rotating arm 123, thereby causing the pressure bar 121 to actuate the rotating roller 122, thereby causing the adhesive 30 to stick up the multiple layers of material 20. When the blank material strip is pulled up, the pressure rod 121 can return to the position before the operation by rotating the arm 123. Therefore, the blank material belt can be manually pulled up.

It will be appreciated that the rotating arm 123 may be a structure that can be grasped such as an L-shaped bar and a T-shaped bar, thereby allowing a user to conveniently grasp and drive the rotating arm 123. The connection between the rotating arm 123 and the pressure rod 121 may also be a welding or a snap connection, and the welding can ensure the stability between the rotating arm 123 and the pressure rod 121. The rotatable arm 123 can be maintained and replaced conveniently by means of detachable connections such as snap connections and threaded connections.

In some embodiments, the web pull mechanism 10 further includes a powered backing roller 130, the powered backing roller 130 engaging the support member 110, the support member 110 engaging the rotatable roller 122. Specifically, for example, as shown in fig. 1, the web pull-up mechanism 10 further includes a powered base roller 130, and the powered base roller 130 is disposed below the support member 110 and connected to the first machine 100. When the blank tape needs to be pulled up, the supporting member 110 is engaged with the rotating roller 122 and the power bottom roller 130, respectively. The power bottom roller 130 rotates to thereby drive the support member 110, and the support member 110 drives the rotating roller 122, thereby achieving the effect of driving the multi-layered material 20 and the adhesive 30

It will be appreciated that the power bottom roller 130 may be positioned at various locations on the first machine 100, as long as it is in engagement with the support member 110 and/or the rotatable roller 122, thereby accommodating the mounting configuration of the first machine 100.

In some embodiments, the coil pulling mechanism 10 further comprises a positioning member 124, and the positioning member 124 is engaged with the rotating arm 123 to prevent the pressure rod 121 from moving too far. Specifically, for example, as shown in fig. 1, the positioning member 124 is disposed above the first machine 100, the pressure rod 121 passes through the positioning member 124, and when the pressure rod 121 moves downward over a certain distance, the rotating arm 123 abuts against the positioning member 124, thereby preventing the pressure rod 121 from moving further, and further preventing the rotating roller 122 from colliding with the supporting member 110.

According to the coil processing module 50 of the embodiment of the second aspect of the present invention, the coil processing module 50 includes the coil lifting mechanism 10 as described in the embodiment of the first aspect. Specifically, for example, as shown in fig. 2, the web processing module 50 is further provided with a second machine table 400, a finished product collecting member 920, a multi-layered material placing member 700, and an outer frame waste collecting member 600. The second machine 400 is provided with processing devices (not labeled), which are a cutting die 412 and a cutting die processing table 411. The multi-layered material 20 is placed in the multi-layered material 20 placing frame, the multi-layered material 20 extends through the gap between the cutting die 412 and the cutting die table 411, and the skin material of the multi-layered material 20 extends up to the outer frame garbage collector 600.

When the web processing module 50 is in operation, the frame waste collector 600 drives the cover material in the feeding direction and the product collector 920 drives the multi-layer material 20 in the feeding direction. The multi-layer material 20 passes through the processing equipment and is cut by the cutting die 412. The unnecessary part of the cut skin material is driven and collected by the outer frame garbage collector 600. The remaining multi-layer material 20 passes through the first machine 100, and is subjected to blank strip pulling processing, and the processed multi-layer material 20 is a finished product and is driven and collected by the finished product collecting member 920. Thereby achieving the purpose of processing the coiled material.

In some embodiments, the web processing module 50 further comprises: a low-adhesive film 40, an integration roller (not labeled in the figure), a low-adhesive film placement roller 900, and a low-adhesive film collection roller 910, the low-adhesive film 40 being capable of being combined with the multilayer material 20, the low-adhesive film collection roller 910 being used to collect the low-adhesive film 40, the low-adhesive film placement roller 900 being used to place the low-adhesive film 40, and the integration roller being used to laminate the multilayer material 20 and the low-adhesive film 40.

Specifically, for example, as shown in FIG. 2, the web processing module 50 further includes a third station 500, a low-tack film 40, an integration roller, a low-tack film placement roller 900, and a low-tack film collection roller 910. The low adhesive film 40 is a low adhesive film with the adhesive side of the low adhesive film facing the multilayer material 20, and the low adhesive film 40 is placed in the low adhesive film placement roller 900. The integrated roller is located on the third machine 500, and the integrated roller is a bonded rubber roller 512 and a bonded steel roller 511. The low adhesive film 40 and the multi-layered material 20 pass through the integrated rolls and are combined into a whole by the integrated rolls, which is called a workpiece, the workpiece passes through the second machine 400 and is processed by the processing equipment, and the unnecessary part of the surface material is collected by the outer frame waste collecting member 600. And then the blank tape is removed by the first machine 100. After the blank strip is removed, the low adhesion film 40 in the workpiece is collected by the low adhesion film collecting roller 910, and the rest is called a finished product and is collected by the finished product collecting member 920. By providing the low adhesive film 40, the multilayer material 20 can be prevented from being scratched when being processed, and the cutter die 412 can be prevented from colliding with the cutter die processing table 411 and being worn.

In some embodiments, web processing module 50 also includes a deviation rectifier 800, the working plane of deviation rectifier 800 being in the same plane as the web processing plane. Specifically, for example, as shown in fig. 2, the working plane of the conformable roller is flush with both the working plane of the processing equipment and the working plane of the web-pulling mechanism 10, i.e., the working plane of the web-processing module 50. The working plane of rectifier 800 is flush with the working plane of web processing module 50. When the low-viscosity film 40 enters the third machine 500 through the deviation rectifier 800, the low-viscosity film 40 can be prevented from deviating, so that the low-viscosity film 40 and the multilayer material 20 can be accurately superposed. It will be appreciated that the working plane of the conformable rollers may be non-flush with the working plane of the processing equipment and the working plane of the roll-up mechanism 10, thereby satisfying the mounting layout.

In some embodiments, the discharge roll 200, the multi-layer material placing member 700, and the low-tack film placing roll 900 are each provided therein with a balloon that can be inflated or deflated, when the balloon is inflated, the adhesive 30, the multi-layer material 20, and the low-tack film 40 are fastened, and when the balloon is deflated, the adhesive 30, the multi-layer material 20, and the low-tack film 40 are unlocked. Specifically, the discharge roller 200, the multilayer material placement member 700, and the low-tack film placement roller 900 are shaft-like structures, and are provided with air bags. When the air bag is inflated, the discharging roller 200, the multi-layer material placing member 700 and the low-viscosity film placing roller 900 are all inflated, and the adhesive 30, the multi-layer material 20 and the low-viscosity film 40 are all fastened to avoid falling off because the adhesive 30, the multi-layer material 20 and the low-viscosity film 40 are respectively sleeved on the discharging roller 200, the multi-layer material placing member 700 and the low-viscosity film placing roller 900. It is understood that the outer frame waste collecting member 600, the discharging roller 300, and the finished product collecting member 920

In some embodiments, the line connecting the multi-layer material placement member 700 and the integral roller is a feed line that is inclined to the web processing plane and forms an inclination angle A that is away from the feed direction, 30 ° < inclination angle A < 50 °. Specifically, for example, as shown in fig. 2, the line connecting the multi-layer material placing member 700 and the integrated roller is the moving path of the multi-layer material 20 and is called a feeding line. The working plane of the integrated roll is the moving path of the multi-layer material 20 from the third station 500 to the first station 100. The feeding line is inclined to the integrating roller and forms an inclination angle A. The inclination angle A faces back to the feeding direction, and the size of the inclination angle A is 40 degrees. Due to the mechanics principle, when the inclination angle a is 40 °, the resultant force of the traction forces applied to the multi-layer material 20 is relatively stable, and therefore, the multi-layer material 20 can be prevented from being scratched when entering the integrating roller. It is understood that the angle of inclination a may be 30 ° to 50 °.

In some embodiments, the web processing module 50 includes a web processing mechanism, and the multi-layer material 20 is a protective film in two layers, with the top layer being the uppermost layer of the protective film. The low-adhesive film 40 is a low-adhesive film. The web pulling mechanism 10 includes a first machine 100, a support member 110, a discharge roller 300, a pressing member 120, and a discharge roller 200, the support member 110 being connected to the first machine 100 for supporting the multi-layered material 20. The pressing member 120 is connected to the first machine 100. The discharging rollers 200 and 300 are shaft-like structures, and the adhesive 30 is a sealing tape and is in a roll shape. The adhesive 30 is sleeved on the discharge roller 200 and extends through the gap between the stitching member 120 and the support member 110 and finally reaches the discharge roller 300. The bottom end of the pressure rod 121 abuts against the upper end of the rotating roller 122. The rotating roller 122 itself may rotate, thereby driving the adhesive 30 to move, with the adhesive 30 engaging the rotating roller 122 through the gap between the rotating roller 122 and the support 110.

The elastic member is disposed between the rotating roller 122 and the supporting member 110. The pressure rod 121 is driven by a cylinder, and the rotating arm 123 has a step structure and is provided with friction grains. The rotating arm 123 is disposed at the top end of the pressure rod 121, and the connection between the rotating arm 123 and the pressure rod 121 is a threaded connection. Therefore, the blank material belt can be manually pulled up. The web pull mechanism 10 further includes a powered backing roller 130, the powered backing roller 130 engaging the support member 110, the support member 110 engaging the rotatable roller 122. The web pull-up mechanism 10 further includes a powered backing roller 130, the powered backing roller 130 being disposed below the support member 110 and connected to the first station 100. When the blank tape needs to be pulled up, the supporting member 110 is engaged with the rotating roller 122 and the power bottom roller 130, respectively. The power bottom roller 130 rotates to thereby drive the support member 110, and the support member 110 drives the rotating roller 122, thereby achieving the effect of driving the multi-layered material 20 and the adhesive 30

The coil drawing mechanism 10 further includes a positioning member 124, and the positioning member 124 is engaged with the rotating arm 123 to prevent the pressure rod 121 from moving too far. The positioning member 124 is disposed above the first machine 100, the pressure rod 121 passes through the positioning member 124, and when the pressure rod 121 moves downward over a certain distance, the rotating arm 123 abuts against the positioning member 124, thereby preventing the pressure rod 121 from moving further, and further preventing the rotating roller 122 from colliding with the supporting member 110. The web processing module 50 is further provided with a second machine table 400, a finished product collecting member 920, a multi-layered material placing member 700, and an outer frame waste collecting member 600. The second machine table 400 is provided with processing devices, which are a cutting die 412 and a cutting die processing table 411. The cutting die processing table 411 is a steel rod 511. The multi-layered material 20 is placed in the multi-layered material 20 placing frame, the multi-layered material 20 extends through the gap between the cutting die 412 and the cutting die table 411, and the skin material of the multi-layered material 20 extends up to the outer frame garbage collector 600.

The web processing module 50 further includes: low-stick film 40, conformable roller, low-stick film placement roller 900, and low-stick film collection roller 910. the web processing module 50 further includes a third station 500, low-stick film 40, conformable roller, low-stick film placement roller 900, and low-stick film collection roller 910. The low adhesive film 40 is a low adhesive film with the adhesive side of the low adhesive film facing the multilayer material 20, and the low adhesive film 40 is placed in the low adhesive film placement roller 900. The integrated roller is located on the third machine 500, and the integrated roller is a bonded rubber roller 512 and a bonded steel roller 511. The combination of the rubber roller 512 and the steel roller 511 can prevent the multi-layer material 20 from scratching. The web processing module 50 also includes a deviation rectifier 800, the working plane of the deviation rectifier 800 being in the same plane as the web processing plane.

The discharge roller 200, the multilayer material placing member 700, and the low-tack film placing roller 900 are shaft-like structures, and are provided with air bags. When the airbag is inflated, the discharging roller 200, the multi-layer material placing member 700, and the low-tack film placing roller 900 are inflated, and the viscous substance 30, the multi-layer material 20, and the low-tack film 40 are respectively sleeved on the discharging roller 200, the multi-layer material placing member 700, and the low-tack film placing roller 900. The line connecting the multi-layer material placement member 700 and the conformable roller is the path of movement of the multi-layer material 20 and is referred to as the feed line. The working plane of the integrated roll is the moving path of the multi-layer material 20 from the third station 500 to the first station 100. The feeding line is inclined to the integrating roller and forms an inclination angle A. The inclination angle A faces back to the feeding direction, and the size of the inclination angle A is 40 degrees.

In the description herein, references to the description of "some embodiments" mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

While embodiments of the present invention have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.

Claims (10)

1. A web pull-up mechanism for adhesively separating a skin material of a strip of a multi-layer material with an adhesive, comprising:

a first machine table;

the supporting piece is connected to the first machine table and is suitable for supporting the bottom of the multilayer material;

the pressing piece is connected to the first machine table, the pressing piece is arranged opposite to the supporting piece, and one side of the pressing piece, which is opposite to the supporting piece, is suitable for arranging the adhesive;

wherein the pressing member is movable toward and away from the support member, and when the pressing member is moved toward the support member, the adhesive provided to the pressing member is capable of adhering a skin material of the multi-layered material supported on the support member to separate the skin material.

2. The coil puller mechanism as set forth in claim 1, wherein said adhesive is a coil, said coil puller mechanism further comprising:

the discharging roller is used for placing the coil stock;

a material receiving roller for receiving the viscous material discharged from the roll material;

and the driving mechanism is connected with the material receiving roller and used for driving the material receiving roller to rotate.

3. The coil puller mechanism as set forth in claim 1, wherein said clutch member includes:

a rotating roller for driving and supporting the adhesive;

the pressure rod is used for driving the rotating roller so as to enable the rotating roller to be attached to the supporting piece;

and the elastic piece is positioned between the supporting piece and the rotating roller and used for resetting the rotating roller.

4. The coil lifter mechanism of claim 3, further comprising a rotating arm coupled to the pressure bar, the rotating arm configured to manually rotate the pressure bar to engage the support member with the rotating roller.

5. The coil puller mechanism as set forth in claim 3 further including a powered backing roller, said powered backing roller engaging said support member, said support member engaging said rotatable roller.

6. A coil processing module, comprising:

the coil lifter according to any of claims 1 to 5;

a multi-layer material placement member for placing the multi-layer material.

7. The web processing module of claim 6, further comprising:

a low-tack film conformable to the multilayer material;

a low-mucosa collecting roller for collecting the low-mucosa;

an integration roller for conforming the multi-layer material and the low tack film;

and the low-adhesive-film placing roller is used for placing the low adhesive film.

8. The web processing module of claim 7, further comprising a deviation rectifier,

and the working plane of the deviation rectifier and the coiled material processing plane are positioned on the same plane.

9. The web processing module of claim 7, wherein each of the unwind roller, the multi-layer material placement member, and the low-tack film placement roller has a bladder disposed therein, the bladder being capable of expanding or contracting, the adhesive, the multi-layer material, and the low-tack film being secured when the bladder is expanded, and the adhesive, the multi-layer material, and the low-tack film being unlocked when the bladder is contracted.

10. The web-processing module of claim 7 wherein the line connecting the multi-layer material placement member and the integrated roll is a feed line that is inclined to the web-processing plane and forms an inclination angle A that faces away from the feed direction, 30 ° < the inclination angle A < 50 °.

Images