CN110654019A - Off-line film laminating production line and production method for ultrathin electronic glass - Google Patents

Abstract

The invention provides an off-line film laminating production line for ultrathin electronic glass; the laminating machine comprises a moving trolley, a loading machine, a first transfer conveyor, a steering roller way, a laminating machine, a second transfer conveyor and a unloading table; the off-line film laminating production line for the ultrathin electronic glass can meet the off-line film laminating work of the upper stack of the ultrathin electronic glass and the lower stack of the ultrathin electronic glass, and the scratch phenomenon is reduced to the maximum extent in the transmission process. The invention also provides a production method for realizing the off-line film coating of the ultrathin electronic glass by utilizing the off-line film coating production line of the ultrathin electronic glass, which comprises the following steps: loading and taking paper; correcting and transmitting; laminating and cutting the film; spreading paper; and (6) carrying out sheet unloading. The off-line film covering of the ultrathin electronic glass can be better realized by matching with an off-line film covering production line of the ultrathin electronic glass, the industrial production is facilitated, and the production efficiency of the off-line film covering of the ultrathin electronic glass is improved.

Description

Off-line film laminating production line and production method for ultrathin electronic glass

Technical Field

The invention relates to an off-line film laminating production line for ultrathin electronic glass.

The invention also relates to a production method for realizing the off-line film coating of the ultrathin electronic glass by utilizing the off-line film coating production line of the ultrathin electronic glass.

Background

With the rapid development of the ultrathin electronic glass industry and the rapid advance of the electronic industry, the market has higher and higher requirements on the surface of the ultrathin electronic glass. On the premise of original paper-sandwiched packaging, the cleanliness and surface scratch-free of the ultrathin electronic glass cannot be guaranteed, but the surface scratch-free of the ultrathin electronic glass can be reduced and the surface cleanliness can be improved through a film laminating process, but no film laminating production line equipment for the ultrathin electronic glass exists at present, and a corresponding process method is also lacked.

The roll table that turns to is a glass processing industry common transport steering apparatus, it has many conveyer belts and multiunit conveying roller to turn to the roll table, many conveyer belts and multiunit conveying roller staggered arrangement, the conveyer belt direction of transmission who turns to the roll table with turn to the conveying roller direction of transmission mutually perpendicular of roll table, it can go up and down in step to turn to all conveyer belts of roll table, when the conveyer belt that turns to the roll table is in the lowest position, the conveyer belt upside height that turns to the roll table is less than the level that turns to the conveying roller upside of roll table.

Disclosure of Invention

The invention aims to solve the technical problem of providing an off-line film laminating production line for ultrathin electronic glass, which is reasonable in layout and convenient to use.

The invention also provides a production method of the ultrathin electronic glass off-line film.

In order to solve the technical problem, the invention provides an off-line film coating production line for ultrathin electronic glass;

the laminating machine comprises a moving trolley, a loading machine, a first transfer conveyor, a steering roller way, a laminating machine, a second transfer conveyor and a unloading table;

the device comprises a movable trolley, a first transfer conveyor, a chip mounting machine, a second transfer conveyor, a turnover assembly and a control system, wherein the movable trolley is provided with a glass frame for placing ultrathin electronic glass, the chip mounting machine is positioned between the movable trolley and the first transfer conveyor, the chip mounting machine comprises a supporting base, a turnover assembly and a plurality of sucker assemblies, the turnover assembly comprises a turnover arm, a turnover frame and a turnover motor, one end of the turnover arm is hinged to the supporting base, the other end of the turnover arm is fixedly connected with the turnover frame, the length direction of the turnover frame is consistent with the rotation axis direction of the turnover arm, the sucker assemblies are sequentially arranged on the turnover frame along the length direction of the turnover frame, each sucker assembly comprises at least;

when the loading machine is in a grabbing state, a sucker of the loading machine extends into a glass frame of the movable trolley and is matched with the ultrathin electronic glass; when the loading machine is in a loading state, a sucker of the loading machine adsorbs the ultrathin electronic glass and moves to the starting end of a conveying belt of the first transfer conveyor;

the turning roller way comprises a plurality of conveying belts and a plurality of groups of conveying rollers, the conveying directions of all the conveying belts of the turning roller way are consistent, the conveying directions of all the conveying rollers of the turning roller way are consistent, the conveying belts of the turning roller way and the conveying rollers of the turning roller way are arranged in a staggered manner, the projection of the conveying direction of the conveying belts of the turning roller way on the horizontal plane is mutually vertical to the projection of the conveying direction of the conveying rollers of the turning roller way on the horizontal plane, the starting end of the conveying rollers of the turning roller way is connected with the tail end of the conveying belt of the first transit conveyor, all the conveying belts of the turning roller way can be synchronously lifted, when the conveying belts of the turning roller way are at the highest position, the conveying belts of the turning roller way are flush with the conveying rollers of the laminating machine, when the conveying belts of the turning roller way are at the lowest position, the, the tail end of a conveying belt of the steering roller way is connected with a conveying roller of the film laminating machine;

the tail end of a conveying roller of the laminating machine is connected with the starting end of a conveying roller of the second transfer conveyor, and the tail end of the conveying roller of the second transfer conveyor is connected with the starting end of the sheet unloading table.

As a preferred scheme of the off-line film coating production line of the ultrathin electronic glass, the chip loading machine further comprises a lifting assembly, wherein the lifting assembly comprises a rotating shaft, a connecting rod, a driving cylinder, a plurality of first lifting blocks, a plurality of second lifting blocks, a plurality of first swing rods and a plurality of second swing rods;

the device comprises a plurality of first lifting blocks, a plurality of second lifting blocks, a plurality of groups of first swing rods, a plurality of groups of second swing rods and a plurality of sucker components, wherein one end of each first lifting block is fixedly connected with a turnover frame, the other end of each first lifting block is hinged with one end of the corresponding second swing rod, the other end of each second swing rod is hinged with one end of the corresponding second lifting block, the other end of each second lifting block is hinged with one end of the corresponding first swing rod, the other end of each first swing rod is fixedly connected with the side wall of a rotating shaft, the rotating shaft is supported on all the first lifting blocks, a cylinder body of a driving cylinder is hinged on the turnover frame, the end part of a piston rod of the driving cylinder is hinged with one end of a connecting rod, and the other end;

and the suction cups of the suction cup assemblies are arranged on the corresponding second lifting blocks.

As the preferred scheme of the off-line film coating production line of the ultrathin electronic glass, the length of a first swing rod of a loading machine is greater than that of a second swing rod.

As the preferable scheme of the off-line film coating production line of the ultrathin electronic glass, the off-line film coating production line of the ultrathin electronic glass further comprises a paper taking machine, wherein the paper taking machine is arranged beside the movable trolley, a swing arm is arranged on the paper taking machine, and a sucking disc matched with the isolation paper is arranged on the swing arm.

As the preferred scheme of the off-line film coating production line of the ultrathin electronic glass, the off-line film coating production line of the ultrathin electronic glass further comprises an artificial loading platform, wherein the artificial loading platform is positioned beside the steering roller way, and the artificial loading platform is connected with the starting end of a conveying belt of the steering roller way.

As a preferred scheme of the off-line film coating production line of the ultrathin electronic glass, the conveyer belts in the off-line film coating production line of the ultrathin electronic glass are all cloth-attached conveyer belts, and the transmission rollers are rubber rollers;

and a transmission roller of the laminating machine adopts a full rubber roller.

After the structure is adopted, the off-line film laminating production line for the ultrathin electronic glass can meet the off-line film laminating work of the upper stack of the ultrathin electronic glass and the lower stack of the ultrathin electronic glass, and the scratch phenomenon is reduced to the greatest extent in the transmission process.

In order to solve the technical problems, the invention also provides a production method for realizing the off-line film coating of the ultrathin electronic glass by utilizing the off-line film coating production line of the ultrathin electronic glass, which comprises the following steps:

a) loading and taking paper: placing the whole stack of ultrathin electronic glass on a moving trolley by a forklift, transferring the ultrathin electronic glass to a first transfer conveyor of an offline ultrathin electronic glass laminating production line one by one through a loading machine, and taking out the isolation paper between adjacent ultrathin electronic glass;

b) correction and transmission: the first transfer conveyor conveys the ultrathin electronic glass to a steering roller way, and the ultrathin electronic glass is in contact with a stop block of the steering roller way, so that the position and the angle of the ultrathin electronic glass are corrected;

c) film covering and cutting: conveying the ultrathin electronic glass to conveying rollers of a laminating machine by the conveying rollers of the steering roller way, laminating the ultrathin electronic glass by the laminating machine, cutting a film by a cutter of the laminating machine, and conveying the ultrathin electronic glass to a second transfer conveyor by the conveying rollers of the laminating machine;

d) paper laying: laying isolation paper on the lower piece platform;

e) and (3) sheet preparation: and the second transfer conveyor conveys the coated ultrathin electronic glass to a blanking table, the coated ultrathin electronic glass is positioned at the lower side of the isolation paper, and the ultrathin electronic glass paved with the isolation paper is subjected to blanking.

By adopting the method, the off-line film covering of the ultrathin electronic glass can be better realized by matching with an off-line film covering production line of the ultrathin electronic glass, the industrial production is facilitated, and the production efficiency of the off-line film covering of the ultrathin electronic glass is improved.

Drawings

FIG. 1 is a top view of a first embodiment of the off-line film coating production line for ultrathin electronic glass.

FIG. 2 is a schematic structural diagram of a moving trolley and a loading machine in an embodiment of the off-line film coating production line for ultrathin electronic glass.

FIG. 3 is a perspective view of a loading machine in an embodiment of the off-line film coating production line for ultrathin electronic glass.

FIG. 4 is a view showing a state of a loading machine in an embodiment of the off-line film-coating production line for ultrathin electronic glass.

FIG. 5 is a second view showing the usage state of a loading machine in an embodiment of the off-line film-coating line for ultrathin electronic glass.

FIG. 6 is a flow chart of a first embodiment of the method for producing the off-line ultra-thin electronic glass coating.

Detailed Description

Example one

As shown in fig. 1 to 5 (the support base 11 and the flip assembly of the loading machine are omitted in fig. 4 and 5).

The off-line film covering production line for the ultrathin electronic glass comprises a moving trolley 2, a sheet feeding machine 1, a first transfer conveyor 3, a steering roller table 4, a film covering machine 5, a second transfer conveyor 7 and a sheet discharging table 8.

The moving trolley 2 is provided with a glass frame 21 for placing ultrathin electronic glass, after the glass frame 21 is placed on the moving trolley 2, the angle of the glass frame 21 is adjusted to be kept between 95 degrees and 98 degrees so as to ensure that when a piece is fed by the piece feeding machine 1, the piece feeding machine 1 does not cause the strip of the ultrathin electronic glass at the back, and is positioned between the moving trolley 2 and the first transfer conveyor 3.

The loading machine 1 comprises a supporting base 11, a lifting assembly, a turning assembly and three groups of sucker assemblies.

A floor bottom plate 11a is fixed on the lower side of the supporting base 11 through bolts, and the floor bottom plate 11a plays a supporting role for the whole piece feeding machine 1; the supporting base 11 is a driving system mounting base.

The overturning assembly comprises an overturning arm 12a, an overturning frame 12c and an overturning motor 12b, one end of the overturning arm 12a is hinged to the supporting base 11, the other end of the overturning arm 12a is fixed with the overturning frame 12c through a bolt, the length direction of the overturning frame 12c is consistent with the direction of a rotating axis of the overturning arm 12a, and the overturning motor 12b drives the rotating arm to rotate relative to the supporting base 11.

The lifting assembly comprises a rotating shaft 13g, a connecting rod 13f, a driving cylinder 13e, three first lifting blocks 13a, three second lifting blocks 13b, three groups of first swing rods 13d and three groups of second swing rods 13 c.

Three first lifting blocks 13a, three second lifting blocks 13b, three groups of first swing rods 13d and three groups of second swing rods 13c are in one-to-one correspondence with the plurality of sucker assemblies, each second lifting block 13b is placed in parallel with the corresponding first lifting block 13a, the three first lifting blocks 13a are sequentially arranged on the overturning frame 12c along the length direction of the overturning frame 12c, one end of each first lifting block 13a is fixedly welded with the overturning frame 12c, the other end of each first lifting block 13a is hinged with one end of one group of two second swing rods 13c, the other ends of the two second swing rods 13c are hinged with one end of the corresponding second lifting block 13b, the other end of each second lifting block 13b is hinged with one end of one group of two first swing rods 13d, the other ends of the two first swing rods 13d are connected with the side wall of the rotating shaft 13g through keys, and the rotating shaft 13g is supported on all the first lifting blocks 13 a;

the cylinder body of the driving cylinder 13e is hinged on the overturning frame 12c, the end part of the piston rod of the driving cylinder 13e is hinged with one end of the connecting rod 13f, and the other end of the connecting rod 13f is fixedly connected with the side wall of the rotating shaft 13g through a key.

The rotating shaft 13g is a rotation center of the second lifting block 13b, the driving cylinder 13e stretches and retracts to drive the connecting rod 13f to drive the rotating shaft 13g to rotate, and the rotating shaft 13g drives the first swing rod 13d and the second swing rod 13c connected with the second lifting block 13b to move, so that the second lifting block 13b is lifted.

Three groups of sucker components are arranged on the corresponding second lifting blocks 13b and comprise two suckers 14a, each sucker 14a is connected with an external air source, the sucker components are in contact with the ultrathin electronic glass to complete the adsorption of the ultrathin electronic glass in vacuumizing, the ultrathin electronic glass is blown off by blowing, and power for blowing the ultrathin electronic glass and sucking the ultrathin electronic glass is provided and implemented through external pneumatic and vacuum systems.

The turning roller table 4 comprises a plurality of conveying belts and a plurality of groups of conveying rollers, the conveying directions of all the conveying belts of the turning roller table 4 are consistent, the conveying directions of all the conveying rollers of the turning roller table 4 are consistent, the conveying belts of the turning roller table 4 and the plurality of groups of conveying rollers are arranged in a staggered manner, the projection of the conveying direction of the conveying belts of the turning roller table 4 on the horizontal plane is mutually vertical to the projection of the conveying direction of the conveying rollers of the turning roller table 4 on the horizontal plane, the starting ends of the conveying rollers of the turning roller table 4 are connected with the tail end of the conveying belt of the first transfer conveyor 3, all the conveying belts of the turning roller table 4 can be lifted synchronously, when the conveying belts of the turning roller table 4 are at the highest position, the conveying belts of the turning roller table 4 are flush with the conveying rollers of the laminating machine 5, when the conveying, a stop block 41 matched with the side wall of the position of the ultrathin electronic glass is arranged at the tail end of the conveying roller of the turning roller table 4, and the tail end of a conveying belt of the turning roller table 4 is connected with the conveying roller of the film laminating machine 5;

the conveying roller of the film laminating machine 5 is a full rubber roller, the tail end of the conveying roller of the film laminating machine 5 is connected with the starting end of the conveying roller of the second transfer conveyor 7, and the tail end of the conveying roller of the second transfer conveyor 7 is connected with the starting end of the sheet unloading table 8.

The manual loading platform 6 is arranged beside the steering roller way 4, and the manual loading platform 6 is connected with the initial end of the conveying belt of the steering roller way 4.

The conveyer belts in the ultrathin electronic glass off-line film covering production line are all cloth-attached conveyer belts, and the transmission rollers are rubber rollers.

As shown in fig. 6

The production method of the off-line film of the ultrathin electronic glass comprises the following steps:

a) loading and taking paper: placing the whole stack of ultrathin electronic glass on the moving trolley 2 by a forklift;

the operation of the loading machine 1 is as follows: firstly, a driving cylinder 13e of a lifting assembly is controlled, three second lifting blocks 13b are driven to move through a rotating shaft 13g, so that a chip loader 1 is turned to an extending state from a withdrawing state, a moving trolley 2 drives an ultrathin electronic glass frame 21 to move towards the chip loader 1, after the ultrathin electronic glass abuts against a sucker assembly of the chip loader 1, a sucker 14a of the sucker assembly starts to adsorb the ultrathin electronic glass, then the lifting assembly of the chip loader 1 moves, the three second lifting blocks 13b return to a turning middle position state and stop temporarily to ensure that no chip is carried and the ultrathin electronic glass is not scratched, then a turning arm 12a of the chip loader 1 turns over to drive the cylinder 13e to move, and the three second lifting blocks 13b are driven through the rotating shaft 13g to move so that the chip loader 1 is turned to the extending state;

the turning arm 12a of the loading machine 1 is turned, when the ultrathin electronic glass is positioned above the conveying belt of the first transfer conveyor 3, the ultrathin electronic glass is blown open by blowing, the air cylinder 13e is driven to act, and in the process that the second lifting block is retracted, the ultrathin electronic glass falls onto the conveying belt of the first transfer conveyor 3.

The ultra-thin electronic glass is transferred to a first transfer conveyor 3 of an off-line ultra-thin electronic glass laminating production line one by a sheet loading machine 1, and the separation paper between adjacent ultra-thin electronic glass is manually taken out by a worker.

b) Correction and transmission: the first transfer conveyor 3 conveys the ultrathin electronic glass to the turning roller way 4, the ultrathin electronic glass is in contact with a stop block 41 of the turning roller way 4, the position and the angle of the ultrathin electronic glass are corrected, after the side face of the glass is corrected by the turning roller way 4, a belt conveying device of the turning roller way 4 is lifted under the pushing of an air cylinder and a connecting rod mechanism, the belt surface is higher than the roller surface after the lifting, and the ultrathin electronic glass is conveyed to the rear end conveying roller way after the conveying belt is lifted. When the ultra-thin electronic glass starts to enter the conveying roller way, a photoelectric switch senses that the ultra-thin electronic glass reaches the lower part of the film laminating machine 5, and the film laminating roller of the film laminating machine 5 and the conveying roller way are at the same speed.

c) Film covering and cutting: the conveying rollers of the steering roller table 4 convey the ultrathin electronic glass to the conveying rollers of the film laminating machine 5, the ultrathin electronic glass is subjected to film laminating through the film laminating machine 5, and then a cutter of the film laminating machine 5 is used for cutting the film;

laminating machine 5 is two upper and lower faces and carries out the tectorial membrane simultaneously, and simultaneous control system passes through photoelectric switch, two ultra-thin electronic glass's around the control board interval, and the tail end of guaranteeing a preceding glass and the front end interval of a back glass are about 10mm, and after first glass tectorial membrane, when the tail end to 5 cutter positions of laminating machine, the roll table stops around, and the cutter begins to cut the membrane. After the film is cut, the first piece of glass is conveyed backwards, the second piece of glass and the following glass continue to be coated with the film, and the conveying rollers of the film coating machine 5 convey the ultrathin electronic glass to the second transfer conveyor 7.

d) Paper laying: manually laying isolation paper on the lower piece table 8 by a worker;

e) and (3) sheet preparation: the second transfer conveyor 7 conveys the coated ultrathin electronic glass to a sheet unloading table 8, the coated ultrathin electronic glass is positioned on the lower side of the isolation paper, and the ultrathin electronic glass coated with the isolation paper is unloaded.

Example two

The present embodiment is different from the first embodiment only in that: in the embodiment, manual operation is replaced by an automatic paper taking machine, a paper laying machine and a sheet discharging machine.

The paper taking machine is placed beside the moving trolley and is used for taking paper by using machinery, the paper taking machine is a mechanism with a stand column and a cantilever, a sucker component is arranged on the cantilever, the sucker component sucks the part of the paper higher than the glass, and after the glass is taken away by the sheet loading machine, the paper taking mechanism sucks the paper to take away the paper and places the paper at a fixed position.

The paper spreading machine is placed on the rear side of the second transfer conveyor and the front side of the lower roller way, a plurality of sections of roller ways are arranged between the transfer conveyor and the lower roller way and used for spreading paper for transmission, the paper spreading machine spans over the roller ways, the paper spreading machine is an electrostatic paper spreading machine, the paper spreading work of glass is guaranteed through speed matching, and the flatness of the spread paper is guaranteed through the action of the dehumidifier and the electrostatic device.

The structure of the lower sheet machine is the same as that of the upper sheet machine, the action of the lower sheet machine is opposite to that of the upper sheet machine, and the lower sheet machine adopts a high-speed lower sheet mode to ensure that paper cannot slide down when the lower sheet machine sucks glass to overturn.

While only two embodiments of the present invention have been described, it should be understood that various changes and modifications can be made by one skilled in the art without departing from the spirit of the invention, and these changes and modifications should be construed as falling within the scope of the invention.

Claims (7)

1. An off-line film coating production line for ultrathin electronic glass is characterized in that:

the laminating machine comprises a moving trolley, a loading machine, a first transfer conveyor, a steering roller way, a laminating machine, a second transfer conveyor and a unloading table;

the device comprises a movable trolley, a first transfer conveyor, a chip mounting machine, a second transfer conveyor, a turnover assembly and a control system, wherein the movable trolley is provided with a glass frame for placing ultrathin electronic glass, the chip mounting machine is positioned between the movable trolley and the first transfer conveyor, the chip mounting machine comprises a supporting base, a turnover assembly and a plurality of sucker assemblies, the turnover assembly comprises a turnover arm, a turnover frame and a turnover motor, one end of the turnover arm is hinged to the supporting base, the other end of the turnover arm is fixedly connected with the turnover frame, the length direction of the turnover frame is consistent with the rotation axis direction of the turnover arm, the sucker assemblies are sequentially arranged on the turnover frame along the length direction of the turnover frame, each sucker assembly comprises at least;

when the loading machine is in a grabbing state, a sucker of the loading machine extends into a glass frame of the movable trolley and is matched with the ultrathin electronic glass; when the loading machine is in a loading state, a sucker of the loading machine adsorbs the ultrathin electronic glass and moves to the starting end of a conveying belt of the first transfer conveyor;

the turning roller way comprises a plurality of conveying belts and a plurality of groups of conveying rollers, the conveying directions of all the conveying belts of the turning roller way are consistent, the conveying directions of all the conveying rollers of the turning roller way are consistent, the conveying belts of the turning roller way and the conveying rollers of the turning roller way are arranged in a staggered manner, the projection of the conveying direction of the conveying belts of the turning roller way on the horizontal plane is mutually vertical to the projection of the conveying direction of the conveying rollers of the turning roller way on the horizontal plane, the starting end of the conveying rollers of the turning roller way is connected with the tail end of the conveying belt of the first transit conveyor, all the conveying belts of the turning roller way can be synchronously lifted, when the conveying belts of the turning roller way are at the highest position, the conveying belts of the turning roller way are flush with the conveying rollers of the laminating machine, when the conveying belts of the turning roller way are at the lowest position, the, the tail end of a conveying belt of the steering roller way is connected with a conveying roller of the film laminating machine;

the tail end of a conveying roller of the laminating machine is connected with the starting end of a conveying roller of the second transfer conveyor, and the tail end of the conveying roller of the second transfer conveyor is connected with the starting end of the sheet unloading table.

2. The off-line film coating production line for ultrathin electronic glass as claimed in claim 1, which is characterized in that:

the loading machine also comprises a lifting assembly, wherein the lifting assembly comprises a rotating shaft, a connecting rod, a driving cylinder, a plurality of first lifting blocks, a plurality of second lifting blocks, a plurality of first swing rods and a plurality of second swing rods;

the device comprises a plurality of first lifting blocks, a plurality of second lifting blocks, a plurality of groups of first swing rods, a plurality of groups of second swing rods and a plurality of sucker components, wherein one end of each first lifting block is fixedly connected with a turnover frame, the other end of each first lifting block is hinged with one end of the corresponding second swing rod, the other end of each second swing rod is hinged with one end of the corresponding second lifting block, the other end of each second lifting block is hinged with one end of the corresponding first swing rod, the other end of each first swing rod is fixedly connected with the side wall of a rotating shaft, the rotating shaft is supported on all the first lifting blocks, a cylinder body of a driving cylinder is hinged on the turnover frame, the end part of a piston rod of the driving cylinder is hinged with one end of a connecting rod, and the other end;

and the suction cups of the suction cup assemblies are arranged on the corresponding second lifting blocks.

3. The off-line film-coating production line for ultrathin electronic glass as claimed in claim 2, which is characterized in that:

the length of the first swing rod is greater than that of the second swing rod.

4. The off-line film coating production line for ultrathin electronic glass as claimed in claim 1, which is characterized in that:

the paper taking machine is arranged beside the movable trolley, a swing arm is arranged on the paper taking machine, and a sucker matched with the isolation paper is arranged on the swing arm.

5. The off-line film coating production line for ultrathin electronic glass as claimed in claim 1, which is characterized in that:

the automatic sheet feeding device is characterized by further comprising an artificial sheet feeding table, wherein the artificial sheet feeding table is located beside the steering roller way and is connected with the initial end of a conveying belt of the steering roller way.

6. The off-line film coating production line for ultrathin electronic glass as claimed in claim 1, which is characterized in that:

the conveyer belts in the off-line film covering production line of the ultrathin electronic glass are all cloth-attached conveyer belts, and the transmission rollers are rubber rollers;

and a transmission roller of the laminating machine adopts a full rubber roller.

7. A production method for realizing off-line film covering of ultrathin electronic glass by using the off-line film covering production line of the ultrathin electronic glass as claimed in any one of claims 1 to 6 comprises the following steps:

a) loading and taking paper: placing the whole stack of ultrathin electronic glass on a moving trolley by a forklift, transferring the ultrathin electronic glass to a first transfer conveyor of an offline ultrathin electronic glass laminating production line one by one through a loading machine, and taking out the isolation paper between adjacent ultrathin electronic glass;

b) correction and transmission: the first transfer conveyor conveys the ultrathin electronic glass to a steering roller way, and the ultrathin electronic glass is in contact with a stop block of the steering roller way, so that the position and the angle of the ultrathin electronic glass are corrected;

c) film covering and cutting: conveying the ultrathin electronic glass to conveying rollers of a laminating machine by the conveying rollers of the steering roller way, laminating the ultrathin electronic glass by the laminating machine, cutting a film by a cutter of the laminating machine, and conveying the ultrathin electronic glass to a second transfer conveyor by the conveying rollers of the laminating machine;

d) paper laying: laying isolation paper on the lower piece platform;

e) and (3) sheet preparation: and the second transfer conveyor conveys the coated ultrathin electronic glass to a blanking table, the coated ultrathin electronic glass is positioned at the lower side of the isolation paper, and the ultrathin electronic glass paved with the isolation paper is subjected to blanking.

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