CN116374694B - Glass presss from both sides glued membrane production facility - Google Patents

Abstract

The invention provides a glass adhesive-film production device, which comprises: base, action wheel, wind-up roll and two guide seats. The driving wheel and the two guide seats are arranged on the base, each guide seat is provided with an inclined groove, and the groove depth of the inclined groove increases from one end, far away from the driving wheel, of the guide seat to one end, close to the driving wheel, of the guide seat; the rolling members are respectively arranged at the two ends of the rolling roller, the two ends of the rolling roller are respectively arranged towards the two guide seats, the rolling members are attached to the bottom of the inclined groove, and the rolling roller is attached to the driving wheel. The glass adhesive film production equipment drives the winding roller to rotate through friction force between the driving wheel and the winding roller, no fixed connection exists between the winding roller and the guide seat, the winding roller can be directly lifted to take out coiled materials, and the material taking is convenient.

Description

Glass presss from both sides glued membrane production facility

Technical Field

The invention relates to the field of glass adhesive film production, in particular to glass adhesive film production equipment.

Background

The glass laminated film is a film material used for pasting two adjacent layers of glass in the laminated glass, and even if the glass is broken, fragments generated by the glass can be adhered to the glass laminated film, so that the safety of the laminated glass is ensured. Because the glass adhesive film needs to be arranged between two adjacent layers of glass, the width of the glass adhesive film is consistent with that of the glass, so that the width of the glass adhesive film is large, namely the size of the glass adhesive film is large.

The existing glass adhesive film production equipment needs to roll the obtained glass adhesive film into bundles so as to be convenient for storage and transportation. The glass adhesive film is kept in a tensioning state through the tensioning wheel set so as to be convenient for winding the obtained glass foot film, but because the glass adhesive film is large in size and mass, a high-power motor is required to be arranged to drive the winding roller to rotate, and because the high-power motor is large in mass, the winding of the obtained coiled material is difficult to take and place.

Disclosure of Invention

The invention aims to overcome the defects in the prior art and provides glass adhesive film production equipment with good winding effect and simple and convenient coiled material taking and placing.

The aim of the invention is realized by the following technical scheme:

glass presss from both sides glued membrane production facility includes: the device comprises a base, a driving wheel, a wind-up roll and two guide seats;

the driving wheel and the two guide seats are arranged on the base, each guide seat is provided with an inclined groove, and the groove depth of each inclined groove increases from one end, far away from the driving wheel, of the guide seat to one end, close to the driving wheel, of the guide seat;

the rolling device is characterized in that rolling elements are respectively arranged at two ends of the rolling roller, the two ends of the rolling roller face two guide seats respectively, the rolling elements are attached to the bottoms of the inclined grooves, and the rolling roller is attached to the driving wheel.

In one embodiment, the rolling elements are bearings.

In one embodiment, the winding disc further comprises a winding disc and a limit key, the limit key is embedded on the outer wall of the winding disc, a guide groove matched with the limit key is formed in the winding disc, the winding disc is penetrated by the winding disc, and the limit key is attached to the groove wall of the guide groove.

In one embodiment, the guide seat is provided with a connecting part, the connecting part is positioned at one end of the guide seat, which is close to the driving wheel, and the connecting part is rotationally connected with the base;

the elastic piece and the spring are arranged on the base, the elastic piece is provided with a bearing part and a deformation part, the deformation part is propped against one end, far away from the driving wheel, of the guide seat, and two ends of the spring are propped against the bearing part and the deformation part respectively.

In one embodiment, the guide seat is provided with a limiting edge, and the limiting edge is attached to the outer wall of the base.

In one embodiment, the glass laminated film production equipment further comprises an edge material collecting box, wherein the edge material collecting box is positioned below the driving wheel.

In one embodiment, the glass adhesive film production device further comprises a distance adjusting rod and a rim charge cutter, wherein an adjusting bracket is arranged on the base, the distance adjusting rod is arranged on the adjusting bracket, the distance adjusting rod is parallel to the axis of the driving wheel, the rim charge cutter is slidably arranged on the distance adjusting rod, and the rim charge cutter faces the driving wheel.

In one embodiment, the adjusting bracket comprises a longitudinal adjusting block and a transverse adjusting plate, wherein the longitudinal adjusting block is provided with a longitudinal distance adjusting hole, the transverse adjusting plate is provided with a transverse distance adjusting hole, the transverse adjusting plate is arranged on the longitudinal adjusting block, and the distance adjusting rod is arranged on the transverse adjusting plate.

In one embodiment, the glass adhesive-film-clamping production equipment also comprises a rolling distance-adjusting component, wherein the rolling distance-adjusting component comprises a distance-adjusting strip, a plurality of stop blocks and a plurality of swinging rods,

the distance adjusting strip is accommodated in the inclined groove;

a clearance groove is formed in the center of the distance adjusting strip, a plurality of trapezoidal bosses are arranged on the distance adjusting strip, the trapezoidal bosses are sequentially distributed along the extending direction of the clearance groove, a transition part is arranged at the top end of each trapezoidal boss, the transition part is parallel to the bottom of the inclined groove, and a blocking groove is formed between every two adjacent trapezoidal bosses;

one end of the swing rod is rotatably arranged on the trapezoid boss, a stop block is arranged on the swing rod, the stop block faces the stop groove, a guide surface is arranged on one side, away from the stop block, of the swing rod, and the guide surface is flush with the transition part;

one end of the stop block is rotatably arranged on the swing rod, and the stop block is positioned on the guide surface.

In conclusion, the glass adhesive film production equipment drives the winding roller to rotate through friction force between the driving wheel and the winding roller, no fixed connection exists between the winding roller and the guide seat, the winding roller can be directly lifted to take out coiled materials, and the material taking is convenient.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are needed in the embodiments will be briefly described below, it being understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and other related drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic view showing a construction of a glass-film laminating apparatus according to an embodiment;

FIG. 2 is a schematic diagram of the cooperation of the drive wheel and the wind-up roller;

FIG. 3 is a schematic diagram showing the cooperation of the capstan and the wind-up roll when the glass film is wound;

FIG. 4 is a schematic diagram of the cooperation of the driving wheel and the wind-up roller when the winding is completed;

FIG. 5 is an assembled view of a spring plate and a spring in a guide seat;

FIG. 6 is a schematic view of a guide seat;

FIG. 7 is a schematic structural view of a winding distance adjusting assembly when the swing rod is not turned over;

FIG. 8 is a schematic structural view of a winding distance adjusting assembly after the swing rod is turned over;

FIG. 9 is an exploded view of the wind-up pitch assembly;

FIG. 10 is a schematic view of a pendulum rod;

FIG. 11 is a schematic view of a swing link blocking a wind-up roll.

Detailed Description

In order that the invention may be readily understood, a more complete description of the invention will be rendered by reference to the appended drawings. The drawings illustrate preferred embodiments of the invention. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "fixed to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like are used herein for illustrative purposes only and are not meant to be the only embodiment.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. The term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

Referring to fig. 1, the present invention provides a glass film laminating apparatus 10, comprising: base 100, action wheel 200, wind-up roll 300 and two guide seats 400.

Referring to fig. 1 and 2, a driving wheel 200 and two guide seats 400 are disposed on a base 100, each guide seat 400 is provided with an inclined slot 410, the slot depth of the inclined slot 410 increases from one end of the guide seat 400 far away from the driving wheel 200 to one end close to the driving wheel 200, two ends of a winding roller 300 are respectively provided with a rolling member 310, two ends of the winding roller 300 are respectively disposed towards the two guide seats 400, the rolling members 310 are attached to the bottoms of the inclined slots 410, when the winding action is not started, the winding roller 300 is attached to the driving wheel 200, and after the winding action is started, a coiled material wound on the winding roller 300 is attached to the driving wheel 200.

Since the groove depth of the inclined groove 410 increases gradually from the end of the guide seat 400 away from the driving wheel 200 to the end close to the driving wheel 200, when the wind-up roll 300 is arranged on the base 100, the wind-up roll 300 rolls along the inclined groove 410 towards the driving wheel 200 under the action of self gravity of the wind-up roll 300 until the wind-up roll 300 is attached to the driving wheel 200 (as shown in fig. 2), and at this time, the wind-up roll 300 generates a component force pointing to the center of the driving wheel 200 under the action of the inclined groove 410, and the component force is used as a clamping force for clamping the glass-coated film 21;

in the process of winding the glass adhesive film, the glass adhesive film 21 passes through between the winding roller 300 and the driving wheel 200 (as shown in fig. 7 and 8), and gravity component force generated by the winding roller 300 under the action of the inclined groove 410 acts on the glass adhesive film 21 to clamp the glass adhesive film 21 between the winding roller 300 and the driving wheel 200;

referring to fig. 3, when the driving wheel 200 rotates, the clamped glass film is driven to advance by friction force, and the winding roller 300 starts to rotate, the rotation direction of the driving wheel 200 is opposite to the rotation direction of the winding roller 300 (the rotation direction is shown by arrow in fig. 3), and the winding roller 300 winds the glass film when rotating. After the winding roller 300 winds the glass film, the total mass of the winding roller 300 is increased, and the thickness of the glass film on the winding roller 300 is also increased continuously in the winding process, namely the radius of the wound glass film coiled material 22 is increased.

Referring to fig. 3 and 4, when the radius of the roll film roll 22 on the wind-up roll 300 is increased, the rolling member 310 moves along the inclined groove 410 in a direction away from the driving wheel 200, preferably, the rolling member 310 is a bearing, so that the rolling member 310 moves along the inclined groove 410 more smoothly.

In summary, during the process of winding the glass film by the winding roller 300, the inclined groove 410 is inclined to the position of the driving wheel 200, so that the winding roller 300 has a tendency to roll towards the driving wheel 200, and the glass film between the winding roller 300 and the driving wheel 200 is clamped by the clamping force;

when the material is taken, only the force is needed to lift the wind-up roller 300 from the guide seat 400, and the material is taken conveniently.

In summary, the glass adhesive film production device 10 drives the winding roller 300 to rotate through the friction force between the driving wheel 200 and the winding roller 300, no fixed connection exists between the winding roller 300 and the guide seat 400, and the winding roller 300 can be directly lifted to take out coiled materials, so that the material taking is convenient.

Referring to fig. 1, in an embodiment, the glass adhesive film production device 10 further includes a winding disc 500 and a limit key 600, the limit key 600 is embedded on an outer wall of the winding roll 300, a guide groove matched with the limit key 600 is provided on the winding disc 500, the winding disc 500 is penetrated through the winding roll 300, the glass adhesive film is wound on the winding disc 500, the limit key 600 is attached to a groove wall of the guide groove, the limit key 600 prevents the winding disc 500 from rotating relative to the winding roll 300, and the winding disc 500 can be dragged along an axial direction of the winding roll 300 to take down the winding disc 500 from the winding roll 300.

Referring to fig. 2 and 6, in an embodiment, a connection portion 420 is disposed on the guide seat 400, the connection portion 420 is located on an end of the guide seat 400 near the driving wheel 200, and the connection portion 420 is rotatably connected with the base 100. That is, the guide base 400 is rotatably connected with the base 100 through the connection part 420, the guide base 400 can rotate around the connection part 420 relative to the base 100, and the cushion pad is arranged on one side of the guide base 400 far away from the connection part 420, so that the angle between the bottom of the inclined groove 410 and the horizontal plane can be increased, and the component force of the wind-up roll 300 acting on the driving wheel 200 can be further improved.

Referring to fig. 5, preferably, a spring plate 110 and a spring 120 are disposed on the base 100, the spring plate 110 is provided with a bearing portion 111 and a deformation portion 112, the deformation portion 112 abuts against one end of the guide seat 400 away from the driving wheel 200, and two ends of the spring 120 abut against the bearing portion 111 and the deformation portion 112 respectively. When the glass adhesive film is rolled up just, the radius of the glass adhesive film coiled material 22 is small, the center of the rolling roller 300 is positioned on one side, close to the driving wheel 200, of the guide seat 400, at the moment, the mass of the rolling roller 300 is small, the gravity center of the rolling roller 300 is positioned on one side, far away from the elastic sheet 110, of the elastic sheet 110 is stressed by the elastic force smaller than the elastic force of the spring 120, the guide seat 400 is lifted, the angle between the bottom of the inclined groove 410 and the horizontal plane is increased, and the component force of the rolling roller 300 acting on the driving wheel 200 is increased;

along with the increase of the glass-coated film rolled on the winding roller 300, the diameter of the glass-coated film coiled material 22 on the winding roller 300 is increased, the center of the winding roller 300 moves towards one side far away from the driving wheel 200, at the moment, the gravity center of the winding roller 300 also moves towards the position close to the elastic sheet 110, and as the glass-coated film rolled on the winding roller 300 is increased, the total weight of the winding roller 300 is also increased, the elastic sheet 110 is stressed by the elastic force of the elastic sheet 110, the elastic sheet 110 deforms, the guide seat 400 descends, the angle between the bottom of the inclined groove 410 and the horizontal plane is reduced, and the component force of the winding roller 300 acting on the driving wheel 200 is reduced, so that the component force of the winding roller 300 acting on the driving wheel 200 is maintained in a relatively balanced state by changing the angle between the bottom of the inclined groove 410 and the horizontal plane, namely, the winding force of the glass-coated film is maintained in a relatively stable state, and the excessive winding force after the total weight of the winding roller 300 is increased is avoided.

Referring to fig. 2 and 6, the guide base 400 is preferably provided with a limiting edge 430, and the limiting edge 430 is attached to the outer wall of the base 100. When the guide seat 400 rotates, the limit edge 430 provides guidance to improve the stability of the connection structure between the guide seat 400 and the base 100.

Referring to fig. 1, further, the glass-film laminating apparatus 10 further includes a rim charge collecting box 710, and the rim charge collecting box 710 is located below the driving wheel 200. The rim charge collecting box 710 is used to collect the waste material.

It should be noted that, in order to avoid that the width of the glass adhesive film is too small, which leads to that the size of the obtained glass adhesive film does not reach the standard, the actual width of the glass adhesive film is larger than the target width thereof, and the glass adhesive film is cut into the target width before being rolled, and the cut offcut is stored in the offcut collecting box 710.

Referring to fig. 1, the glass film production apparatus 10 further includes a distance adjusting rod 720 and a rim charge cutter 730, the base 100 is provided with an adjusting bracket 130, the distance adjusting rod 720 is disposed on the adjusting bracket 130, the distance adjusting rod 720 is parallel to the axis of the driving wheel 200, the rim charge cutter 730 is slidably disposed on the distance adjusting rod 720, and the position of the rim charge cutter 730 on the distance adjusting rod 720 can be adjusted according to the target width of the glass film. The rim charge cutter 730 is disposed toward the driving wheel 200, and the rim charge cutter 730 is disposed on a transmission path of the glass adhesive film, and when the glass adhesive film passes through the rim charge cutter 730, the rim charge cutter 730 cuts off the excessive rim charge of the glass adhesive film.

Referring to fig. 1 and 2, preferably, the adjusting bracket 130 includes a longitudinal adjusting block 131 and a transverse adjusting plate 132, the longitudinal adjusting block 131 is provided with a longitudinal distance adjusting hole, the transverse adjusting plate 132 is provided with a transverse distance adjusting hole, the transverse adjusting plate 132 is disposed on the longitudinal adjusting block 131, and the distance adjusting rod 720 is disposed on the transverse adjusting plate 132.

It should be noted that, when the glass film laminating apparatus 10 winds the glass film laminating film, the power source is the driving wheel 200, the wind-up roller 300 is the driven component, the driving wheel 200 drives the wind-up roller 300 to rotate through friction force, when the tension force of the glass film laminating film is greater than the friction force, a slipping phenomenon occurs, and the winding action is stopped; the wind-up roller 300 is connected with the guide seat 400 in a contact manner, so that it is difficult to determine by calculating the number of rotations of the driving wheel 200/the wind-up roller 300, and the wind-up length of the glass adhesive film on the wind-up roller 300, that is, the above-mentioned glass adhesive film production device 10 has the problem of inconvenient statistics of the wind-up amount of the glass adhesive film. To solve the above problem, the glass-film-clamping-adhesive-film production apparatus 10 further includes a winding and distance-adjusting assembly 800.

Referring to fig. 9, the winding distance adjusting assembly 800 includes a distance adjusting bar 810, a plurality of stoppers 820 and a plurality of swing rods 830, wherein the distance adjusting bar 810 is accommodated in the inclined groove 410, and the distance adjusting bar 810 is parallel to the bottom of the inclined groove 410, i.e. the inclination angle of the distance adjusting bar 810 is consistent with the inclined groove 410.

Referring to fig. 9, a clearance groove 811 is formed at a center position of the distance adjusting bar 810, and the clearance groove 811 extends from one end of the distance adjusting bar 810 near the driving wheel 200 to one end far from the driving wheel 200; the clearance groove 811 is used for accommodating the swing link 830.

Referring to fig. 7 and 9, a plurality of trapezoidal bosses 812 are disposed on the distance adjusting bar 810, the plurality of trapezoidal bosses 812 are sequentially distributed along the extending direction of the avoidance groove 811, a transition portion 812a is disposed at the top end of each trapezoidal boss 812, the transition portion 812a is parallel to the bottom of the inclined groove 410, and a blocking groove 812b is disposed between every two adjacent trapezoidal bosses 812; the blocking groove 812b has an inverted triangle shape in cross section.

Referring to fig. 7 and 10, one end of the swing rod 830 is rotatably disposed on the trapezoid boss 812, a stop 831 is disposed on the swing rod 830, the stop 831 faces the stop recess 812b, and a guide surface 832 is disposed on a side of the swing rod 830 away from the stop 831. The stop 831 is triangular.

Referring to fig. 7, in the initial state, the stop 831 abuts against the blocking recess 812b, and the guide surface 832 is flush with the transition portion 812a, and the guide surfaces 832 of the plurality of swing rods 830 and the transition portion 812a on the trapezoid boss 812 form a guide plane. When the glass-coated film is wound, the rolling element 310 rolls above a guide plane formed by the guide surface 832 and the transition portion 812 a;

referring to fig. 11, the swing link 830 is shifted, the swing link 830 is turned towards the side far away from the driving wheel 200 until the guiding surface 832 of the swing link 830 abuts against the end of the adjacent swing link 830, and the swing link 830 rotates in place, at this time, the swing link 830 is obliquely arranged above the distance-adjusting bar 810 to form a barrier (as shown in fig. 8) so as to prevent the rolling member 310 from moving towards the direction far away from the driving wheel 200;

after the swing rod 830 is turned in place, the blocking groove 812b at the original position of the swing rod 830 is exposed, the blocking groove 812b is a "pit" on the guiding plane formed by the guiding surface 832 and the transition portion 812a, when the rolling member 310 slides along the guiding plane to the blocking groove 812b, the rolling member 310 rolls towards the side far away from the driving wheel 200 under the guiding of the blocking groove 812b, at this time, the wind-up roller 300 is separated from the driving wheel 200, and no contact exists between the driving wheel 200 and the wind-up roller 300, so that the driving wheel 200 cannot continuously drive the wind-up roller 300 to rotate, and the winding action stops. The swing rod 830 is obliquely arranged above the distance adjusting strip 810 to form a blocking, when the rolling element 310 enters the blocking groove 812b, the stop dog 831 on the swing rod 830 is propped against the outer wall of the rolling element 310, namely, the swing rod 830 after overturning is the displacement limit of the rolling element 310, and the rolling element 310 can be prevented from rolling out of the blocking groove 812b under the action of inertia.

Referring to fig. 8 and 11, one end of the stop block 820 is rotatably disposed on the swing link 830, the other end thereof has no fixing structure, and the stop block 820 is disposed on the guide surface 832. In the process of swinging the swing rod 830 in a direction away from the driving wheel 200, when the included angle between the guide surface 832 and the inclined groove 410 is smaller than 90 degrees, the stop block 820 rotates relative to the swing rod 830 under the action of gravity, the tail end of the stop block 820 keeps vertical downward in the process, and when the swing rod 830 is turned in place, the tail end of the stop block 820 abuts against the guide surface 832 on the adjacent swing rod 830 so as to provide supporting force for the swing rod 830.

The following describes the working principle of the winding and distance adjusting assembly 800:

referring to fig. 7, in the initial state, the stop 831 on each swing link 830 abuts against the stop groove 812b, and the body of each swing link 830 is located in the avoidance groove 811, the guide surface 832 of each swing link 830 and each transition portion 812a are kept flush, and the guide surface 832 and the transition portion 812a are on the same plane as the guide plane of the rolling member 310.

First, a target winding length of the cellophane film is confirmed, a radius of the cellophane film coiled material 22 on the winding roller 300 is confirmed according to the target winding length, and a swing rod 830 on the corresponding distance adjusting strip 810 is confirmed according to the radius of the cellophane film coiled material 22 on the winding roller 300.

The target swing rod 830 is shifted, the swing rod 830 leaves the avoidance groove 811 and turns towards the side of the driving wheel 200, in the turning process of the swing rod 830, the stop block 820 positioned on the swing rod 830 is separated from the swing rod 830 under the action of gravity, when the swing rod 830 turns in place, the tail end of the stop block 820 is abutted against the guide surface 832 of the adjacent swing rod 830, the swing rod 830 is obliquely arranged on the distance adjusting strip 810, and the stop groove 812b at the original position of the swing rod 830 is exposed;

the glass film production device 10 is started, the driving wheel 200 and the winding roller 300 are matched to wind up the glass film, the winding roller 300 is pushed by the glass film coiled material 22 on the winding roller 300 to move away from the driving wheel 200, the rolling piece 310 rolls along a guide plane formed by the guide surface 832 and the transition part 812a, and when the radius of the glass film coiled material 22 on the winding roller 300 is increased, the rolling piece 310 is continuously close to the target swing rod 830.

Referring to fig. 8 and 11, when the rolling element 310 moves to the blocking groove 812b exposed outside, the rolling element 310 rolls into the blocking groove 812b, and the target swing rod 830 is attached to the outer wall of the rolling element 310 to prevent the rolling element 310 from separating from the blocking groove 812b, at this time, the wind-up roller 300 is separated from the driving wheel 200, and no contact exists between the driving wheel 200 and the wind-up roller 300, so that the driving wheel 200 cannot continue to drive the wind-up roller 300 to rotate, and the winding action stops.

Through the corresponding pendulum rod 830 on the turnover distance adjusting strip 810, the winding action of the glass adhesive film production equipment 10 can be automatically stopped when the radius of the glass adhesive film coiled material 22 on the winding roller 300 reaches the target length, an encoder or other counting sensors are not required to be additionally arranged to calculate the length of the glass adhesive film coiled on the winding roller 300, the rolling piece 310 is limited by the cooperation of the pendulum rod 830 and the blocking groove 812b, and the consistency of the length of the glass adhesive film coiled material 22 obtained by each winding can be ensured.

The above examples illustrate only a few embodiments of the invention, which are described in detail and are not to be construed as limiting the scope of the invention. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of protection of the present invention is to be determined by the appended claims.

Claims (7)

1. Glass presss from both sides glued membrane production facility, its characterized in that includes: the device comprises a base, a driving wheel, a wind-up roll and two guide seats;

the driving wheel and the two guide seats are arranged on the base, each guide seat is provided with an inclined groove, and the groove depth of each inclined groove increases from one end, far away from the driving wheel, of the guide seat to one end, close to the driving wheel, of the guide seat;

two ends of the wind-up roll are respectively provided with a rolling piece, the two ends of the wind-up roll are respectively arranged towards the two guide seats, the rolling pieces are attached to the bottom of the inclined groove, and the wind-up roll is attached to the driving wheel;

the guide seat is provided with a connecting part, the connecting part is positioned at one end of the guide seat, which is close to the driving wheel, and the connecting part is rotationally connected with the base;

the elastic piece and the spring are arranged on the base, the elastic piece is provided with a bearing part and a deformation part, the deformation part is propped against one end of the guide seat far away from the driving wheel, and two ends of the spring are propped against the bearing part and the deformation part respectively;

the rolling distance adjusting assembly comprises a distance adjusting strip, a plurality of stop blocks and a plurality of swing rods;

the distance adjusting strip is accommodated in the inclined groove;

a clearance groove is formed in the center of the distance adjusting strip, a plurality of trapezoidal bosses are arranged on the distance adjusting strip, the trapezoidal bosses are sequentially distributed along the extending direction of the clearance groove, a transition part is arranged at the top end of each trapezoidal boss, the transition part is parallel to the bottom of the inclined groove, and a blocking groove is formed between every two adjacent trapezoidal bosses;

one end of the swing rod is rotatably arranged on the trapezoid boss, a stop block is arranged on the swing rod, the stop block faces the stop groove, a guide surface is arranged on one side, away from the stop block, of the swing rod, and the guide surface is flush with the transition part;

one end of the stop block is rotatably arranged on the swing rod, and the stop block is positioned on the guide surface.

2. The glass laminated film production apparatus according to claim 1, wherein the rolling member is a bearing.

3. The glass adhesive film production device according to claim 1, further comprising a winding disc and a limit key, wherein the limit key is embedded on the outer wall of the winding disc, a guide groove matched with the limit key is formed in the winding disc, the winding disc is penetrated by the winding disc, and the limit key is attached to the groove wall of the guide groove.

4. The glass adhesive film production device according to claim 1, wherein the guide seat is provided with a limit edge, and the limit edge is attached to the outer wall of the base.

5. The glass laminated film production apparatus according to claim 1, further comprising an edge material collecting box located below the driving wheel.

6. The glass adhesive film production device according to claim 1, further comprising a distance adjusting rod and a rim charge cutter, wherein an adjusting bracket is arranged on the base, the distance adjusting rod is arranged on the adjusting bracket, the distance adjusting rod is parallel to the axis of the driving wheel, the rim charge cutter is slidably arranged on the distance adjusting rod, and the rim charge cutter is arranged towards the driving wheel.

7. The apparatus for producing glass coated film according to claim 6, wherein the adjusting bracket comprises a longitudinal adjusting block and a transverse adjusting plate, wherein the longitudinal adjusting block is provided with a longitudinal distance adjusting hole, the transverse adjusting plate is provided with a transverse distance adjusting hole, the transverse adjusting plate is arranged on the longitudinal adjusting block, and the distance adjusting rod is arranged on the transverse adjusting plate.