CN113247351A

CN113247351A - Screen glass film pasting overturning device and method and film pasting equipment

Info

Publication number: CN113247351A
Application number: CN202110659217.3A
Authority: CN
Inventors: 郑少华; 孔家声; 刘向东; 刘良军
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-06-15
Filing date: 2021-06-15
Publication date: 2021-08-13

Abstract

The invention relates to the technical field of sticking of protective films of electronic screen glass, in particular to a device and a method for turning a sticking film of screen glass and sticking equipment. The device comprises a turnover rack, a turnover driving mechanism, a turnover base, a turnover shaft, a turnover plate and a supporting plate; the driving end of the turnover driving mechanism is connected with the turnover shaft, and two ends of the turnover shaft are in running fit with the turnover base; the turnover plate is fixed on the turnover shaft, a turnover sucker is arranged on the turnover plate, the lower end of the turnover sucker is connected with a vacuum device, and the upper end of the turnover sucker is in contact with the bottom surface of the screen glass; the supporting plate and the turnover plate are oppositely distributed along the turnover shaft, and the upper surface of the supporting plate is in contact with the top surface of the screen glass. The device automatically finishes the processes of sucking, fixing and overturning the screen glass through the overturning sucker and the overturning driving mechanism, reduces the labor intensity of workers, and improves the overturning efficiency of the screen glass.

Description

Screen glass film pasting overturning device and method and film pasting equipment

Technical Field

The invention relates to the technical field of sticking of protective films of electronic screen glass, in particular to a device and a method for turning a sticking film of screen glass and sticking equipment.

Background

The film sticking machine is a machine specially used for sticking protective films and anti-explosion films in the industries of electronics, communication, semiconductors and the like, and can ensure that no bubbles and no scratches are left on the film. The self-adhesive parts on the material belt are drawn to a stripping plate below the material suction device by the driving device, are led down by the self-adhesive, are stripped by a conveying piece through a series of tensioning guide devices, are corrected by the automatic manipulator, and are automatically attached to the screen glass positioned by the jig.

The glass screen is a part commonly used on electronic products such as electronic books, and a protective film is adhered to the glass screen through a film adhering process in the production process of the glass screen, although automation development is rapid in the current society, the purchase cost of automation equipment is high, and the labor cost is far more cost-effective than the purchase cost of the automation equipment under the condition that the order quantity demand of the glass screen is not very large, so that some steps in the film adhering process are still required to be completed by workers, and the film adhering process of the glass screen comprises five steps of sequentially tearing the protective film, tearing the glass screen, adhering the protective film, maintaining pressure and receiving materials. The prior art has the following defects: the screen glass pasted with the front surface film is turned manually, so that the labor intensity of workers is increased, and the turning efficiency of the screen glass is reduced.

Disclosure of Invention

In view of the above problems, an object of the present invention is to: the screen glass film pasting and overturning device and the method can automatically complete the processes of sucking, fixing and overturning screen glass through the overturning sucker and the overturning driving mechanism, reduce the labor intensity of workers and improve the overturning efficiency of the screen glass.

Another object of the invention is: the screen glass can move left and right to bypass the blocking device by arranging the moving manipulator, so that the moving distance is reduced, and the moving efficiency is improved; the number of the clamping cylinders is reduced by adopting one clamping cylinder to simultaneously drive the two clamping blocks, so that the cost of the whole equipment is reduced; the equipment for sticking the screen glass protective film automatically finishes the processes of sucking, fixing and overturning screen glass by the overturning sucker and the overturning driving mechanism, reduces the labor intensity of workers and improves the overturning efficiency of the screen glass.

In order to achieve the purpose, the invention adopts the following technical scheme:

a screen glass film-pasting turnover device comprises a turnover rack, a turnover driving mechanism, a turnover base, a turnover shaft, a turnover plate and a supporting plate; the driving end of the turnover driving mechanism is connected with the turnover shaft, and two ends of the turnover shaft are in running fit with the turnover base; the turnover plate is fixed on the turnover shaft, a turnover sucker is arranged on the turnover plate, the lower end of the turnover sucker is connected with a vacuum device, and the upper end of the turnover sucker is in contact with the bottom surface of the screen glass; the supporting plate and the turnover plate are oppositely distributed along the turnover shaft, and the upper surface of the supporting plate is in contact with the top surface of the screen glass.

Preferably, the turnover plate is provided with a sucker hole, the lower surface of the turnover plate is fixedly provided with a sucker bottom plate, and the turnover suckers are fixed on the sucker bottom plate and penetrate through the sucker hole to be in contact with the bottom surface of the screen glass.

Preferably, a backing plate is fixedly arranged on the outer side of the turnover plate, and the upper surface of the backing plate is contacted with the upper surface of the supporting plate after the turnover plate is turned over above the supporting plate. The overturning driving mechanism is driven by a rotating cylinder or a motor.

Preferably, the overturning frame is fixedly provided with a first limiting block and a second limiting block, and the overturning base is fixedly provided with a third limiting block; the first limiting block, the second limiting block and the third limiting block are distributed in a triangular shape, and the upper surfaces of the first limiting block, the second limiting block and the third limiting block are all in contact with the lower surface of the turnover plate.

Preferably, the first limiting block and the second limiting block are vertically distributed cuboid shapes, and the third limiting block is horizontally distributed strip-shaped.

In addition, the invention also discloses a screen glass overturning method, which adopts the screen glass film pasting overturning device and comprises the following steps:

1) the moving device moves the screen glass pasted with the front surface film to the turnover plate, and the turnover sucker sucks the bottom surface of the screen glass;

2) the turnover driving mechanism drives the turnover shaft to rotate so as to drive the turnover plate to rotate, the screen glass is turned over to the position of the supporting plate to blank the screen glass, and the bottom surface of the screen glass is turned upwards;

3) the moving device moves the turned screen glass to a reverse side film pasting station to complete the turning process of the screen glass.

In order to solve the problems: 1. the moving device can only carry out linear moving in the up-down direction and the front-back direction, and when other higher devices block the linear moving path, the moving device needs to drive the moving manipulator to move upwards for a higher distance; thereby increasing the moving distance, reducing the moving efficiency and reducing the applicability of the moving device. 2. When the screen glass is positioned and clamped, the two clamping cylinders are adopted to respectively drive the two clamping blocks to be in contact with the two vertical end faces of the screen glass to clamp the screen glass, so that the number of the clamping cylinders and the cost of the whole equipment are increased. The invention also discloses screen glass protective film pasting equipment which comprises a workbench, and a feeding device, a moving device, a plurality of positioning devices, a first film supply device, a second film supply device and a turnover device which are fixed on the workbench; the moving end of the moving device is in contact with the surface of the screen glass and is respectively connected with the positioning ends of the positioning devices and the feeding and discharging ends of the turnover device; the discharge end of the first film supply device and the discharge end of the second film supply device are respectively connected with the positioning ends of the plurality of positioning devices; the moving device is used for moving the screen glass to different stations; the positioning device is used for positioning the screen glass; the first film supply device and the second film supply device are respectively used for feeding a front film and a back film; the turnover device is used for turning over the screen glass.

Preferably, the positioning device comprises a positioning driving mechanism and a positioning clamping mechanism; the driving end of the positioning driving mechanism is connected with the positioning and clamping mechanism, and the clamping end of the positioning and clamping mechanism is contacted with the side surface of the screen glass; the positioning driving mechanism is used for driving the positioning and clamping mechanism to move to different stations, and the positioning and clamping mechanism is used for positioning and clamping the screen glass.

Preferably, the positioning and clamping mechanism comprises a clamping rack, a clamping cylinder, a clamping roller, a clamping bottom plate, a positioning block and a plurality of clamping heads; the output end of the clamping cylinder is connected with the clamping roller; the clamping head comprises a clamping base, a clamping connecting rod, a clamping guide pillar, a clamping spring and a clamping block; the middle end of the clamping connecting rod is hinged on the clamping base, the bottom surface of the tail end of the clamping connecting rod is contacted with the clamping roller, and the head end of the clamping connecting rod is contacted with the rear side surface of the lower end of the clamping block; the clamping guide column is in sliding fit with a corresponding hole position of the clamping base, the front end of the clamping guide column is connected with the rear side face of the lower end of the clamping block, and two ends of the clamping spring are respectively contacted with the rear side face of the clamping base and a tail end bulge of the clamping guide column; the positioning blocks are fixed on the clamping bottom plate, the inner side faces of the positioning blocks are respectively contacted with the front end face and the left end face of the screen glass, and the inner side faces of the upper ends of the clamping blocks are respectively contacted with the rear end face and the right end face of the screen glass.

The screen glass film pasting and overturning device and the method adopting the technical scheme have the advantages that:

the processes of sucking, fixing and turning the screen glass are respectively completed by driving the turning plate to rotate by the turning sucker sucking and turning driving mechanism; the process of sucking, fixing and overturning the screen glass is automatically completed by equipment, so that the labor intensity of workers is reduced, and the overturning efficiency of the screen glass is improved.

The invention discloses a screen glass protective film pasting device which has the advantages that:

when one clamping cylinder extends out, the clamping cylinders simultaneously drive the clamping heads to be opened so that the screen glass can be placed in the positioning station, and after the clamping cylinders contract, the clamping heads clamp the screen glass by utilizing the elasticity of the clamping springs; in the mode, two clamping heads can be driven simultaneously only by one air cylinder and two springs, so that the using number of the air cylinders is reduced; and the cost of the spring is lower relative to the cost of the air cylinder, so that the cost of the whole equipment is reduced.

Drawings

Fig. 1 is a schematic structural view of a screen glass protective film attaching apparatus.

Fig. 2 is a schematic product structure diagram of the screen glass.

Fig. 3 and 4 are schematic structural views of the moving device.

Fig. 5-7 are schematic structural views of the positioning device.

Fig. 8 is a schematic structural view of the turning device.

Detailed Description

The following describes in detail embodiments of the present invention with reference to the drawings.

Example 1

The equipment for sticking the protective film to the screen glass as shown in figure 1 comprises a workbench, a feeding device, a moving device 1, a plurality of positioning devices 2, a first film supplying device 3, a second film supplying device 4 and a turning device 5, wherein the feeding device, the moving device 1, the plurality of positioning devices 2, the first film supplying device, the second film supplying device and the turning device are fixed on the workbench; the moving end of the moving device 1 is contacted with the surface of the screen glass and is respectively connected with the positioning ends of the positioning devices 2 and the feeding and discharging ends of the turnover device 5; the discharge end of the first film supply device 3 and the discharge end of the second film supply device 4 are respectively connected with the positioning ends of the plurality of positioning devices 2; the moving device 1 is used for moving the screen glass to different stations; the positioning device 2 is used for positioning the screen glass; the first film supply device 3 and the second film supply device 4 are respectively used for feeding a front film and a back film; the turnover device 5 is used for turning over the screen glass;

the product flow direction of the screen glass is as follows: the loading device is moved to the moving device 1, the positioning device 2 of the front film pasting station, the first film supplying device 3, the overturning device 5, the positioning device 2 of the back film pasting station and the second film supplying device 4.

Fig. 2 is a schematic diagram of a product structure of the screen glass. The screen glass product comprises screen glass a, a front film b and a back film c; the front film b and the back film c are respectively attached to the front and the back of the screen glass a.

As shown in fig. 3, the conveying device 1 includes a conveying frame 11, a conveying drive mechanism 12, a conveying base plate 13, and a conveying robot 14; the driving end of the moving driving mechanism 12 is connected with the moving bottom plate 13, and a plurality of moving manipulators 14 are respectively fixed on the moving bottom plate 13; the transfer robot 14 includes a transfer extension cylinder 15, a transfer ventilation bar 16, and a transfer suction cup 17; the output end of the moving extending cylinder 15 is connected with a moving ventilation rod 16, and a ventilation hole is arranged inside the moving ventilation rod 16; both ends of the vent hole are respectively connected with a vacuum suction device and a moving sucker 17, and the suction end of the moving sucker 17 is contacted with the surface of the screen glass. The moving sucker 17 is in a horn shape with a small upper part and a big lower part;

as shown in fig. 4, the output end of the moving and extending cylinder 15 is provided with a fixing block 151, and the fixing block 151 is provided with a positioning hole 152 penetrating in the left-right direction and a fixing hole 153 communicating with the positioning hole 152 in the up-down direction; the positioning hole 152 is in sliding fit with the outer surface of the moving ventilation bar 16, threads are arranged in the fixing hole 153 and are screwed with screws, and the bottoms of the screws are in contact with the outer surface of the moving ventilation bar 16;

as shown in fig. 3, the conveyance base plate 13 includes a conveyance fixing plate 131, a conveyance sliding plate 132, and a conveyance base 133; the conveying fixed plate 131 is connected with the driving end of the conveying driving mechanism 12; the transfer sliding plate 132 is fixed to the transfer fixing plate 131, the transfer base 133 is fixed to the transfer sliding plate 132, and the transfer extension cylinder 15 is fixed to the transfer base 133; the moving base 133 is provided with a base sliding groove in sliding fit with the moving sliding plate 132; the conveying driving mechanism 12 comprises a front and rear driving assembly 121, a driving bottom plate 122 and an up and down driving assembly 123, the driving end of the front and rear driving assembly 121 is connected with the driving bottom plate 122, a driving guide rail slider is arranged on the driving bottom plate 122, and a slider in the driving guide rail slider is connected with the conveying fixing plate 131; the up-down driving unit 123 is fixed to the driving base plate 122, and a driving end of the up-down driving unit 123 is connected to the moving fixing plate 131.

During operation of the transfer device 1: 1) the front-back driving assembly 121 drives the moving manipulator 14 to move to the position above the feeding device along the front-back direction; 2) the up-down driving component 123 drives the moving manipulator 14 to move down to suck the screen glass at the position of the feeding device; 3) when a higher device on the moving path blocks, the moving stretching cylinder 15 drives the moving sucker 17 to move backwards so as to drive the screen glass to move backwards to bypass the higher device on the path, so that the screen glass is moved to the film pasting station to complete the moving process.

The moving device 1 solves the problem that the moving device can only carry out linear moving in the up-down direction and the front-back direction, and when other higher devices block a linear moving path, the moving device needs to drive the moving manipulator to move upwards for a higher distance; thereby increasing the moving distance, reducing the moving efficiency and reducing the applicability of the moving device. By providing a transfer robot 14; when other higher devices block the moving path, the extending cylinder 15 is moved to drive the screen glass to move backwards for a short distance to bypass the blocked device without moving upwards to the higher distance to bypass the blocked device; the moving device is used for moving the object to be moved, and the moving device is used for moving the object to be moved.

As shown in fig. 5, the positioning device 2 includes a positioning drive mechanism 21 and a positioning clamp mechanism 22; the driving end of the positioning driving mechanism 21 is connected with a positioning and clamping mechanism 22, and the clamping end of the positioning and clamping mechanism 22 is contacted with the side surface of the screen glass; the positioning driving mechanism 21 is used for driving the positioning and clamping mechanism 22 to move to different stations, and the positioning and clamping mechanism 22 is used for positioning and clamping the screen glass. The positioning driving mechanism 21 comprises a positioning driving cylinder 211, a positioning guide rail slide block 212 and a driving limiting block 213; the output end of the positioning driving cylinder 211 is connected with the positioning and clamping mechanism 22, a guide rail in the positioning guide rail slide block 212 is fixed on the workbench, and a slide block in the positioning guide rail slide block 212 is connected with the positioning and clamping mechanism 22; the driving stoppers 213 are respectively distributed on two sides of the positioning and clamping mechanism 22, and the driving stoppers 213 are in contact with the side surfaces of the positioning and clamping mechanism 22.

As shown in fig. 5 to 7, the positioning and clamping mechanism 22 includes a clamping frame 23, a clamping cylinder 24, a clamping roller 25, a clamping base plate 26, a positioning block 27, and a plurality of clamping heads 28; the output end of the clamping cylinder 24 is connected with a clamping roller 25; clamping head 28 comprises a clamping base 281, a clamping link 282, a clamping post 283, a clamping spring 284, and a clamping block 285; the middle end of the clamping connecting rod 282 is hinged on the clamping base 281, the bottom surface of the tail end of the clamping connecting rod 282 is contacted with the clamping roller 25, and the head end of the clamping connecting rod 282 is contacted with the rear side surface of the lower end of the clamping block 285; the clamping guide post 283 is in sliding fit with a corresponding hole position of the clamping base 281, the front end of the clamping guide post 283 is connected with the rear side surface of the lower end of the clamping block 285, and two ends of the clamping spring 284 are respectively contacted with the rear side surface of the clamping base 281 and the end protrusion of the clamping guide post 283; the positioning blocks 27 are fixed on the clamping bottom plate 26, the inner side surfaces of the positioning blocks are respectively contacted with the front end surface and the left end surface of the screen glass, and the inner side surfaces of the upper ends of the clamping blocks 285 are respectively contacted with the rear end surface and the right end surface of the screen glass. The output end of the clamping cylinder 24 is provided with a pushing base 241, a plurality of clamping rollers 25 are hinged on the pushing base 241, and the outer surfaces of the clamping rollers 25 are contacted with the bottom surface of the tail end of the clamping connecting rod 282;

the clamp link 282 includes a link body 2821, a link drive face 2822, and a link push face 2823; the connecting rod driving surface 2822 is a plane and is positioned on the bottom surface of the connecting rod body 2821, and the connecting rod driving surface 2822 is contacted with the outer surface of the clamping roller 25; the connecting rod pushing surface 2823 is a circular arc surface and is contacted with the rear side surface of the lower end of the clamping head 28; the link body 2821 is L-shaped;

the clamping base plate 26 is provided with a sliding groove 261, the middle end of the clamping block 285 passes through the sliding groove 261 and the inner side surface of the upper end of the clamping block 285 contacts with the corresponding side end surface of the screen glass.

The clamping block 285 includes a first clamping block 2851, a second clamping block 2852, and a third clamping block 2853; the rear side of the first clamping block 2851 is connected with the front end of the clamping guide post 283, the second clamping block 2852 is fixed on the first clamping block 2851 and passes through the sliding groove 261, the third clamping block 2853 is fixed on the second clamping block 2852 and the inner side of the third clamping block 2853 is contacted with the corresponding side end face of the screen glass; a plurality of threaded holes are formed in the second clamping block 2852 along the moving direction, fixing holes are formed in the third clamping block 2853, and the third clamping block 2853 is fixed to the corresponding threaded holes according to the size of the screen glass.

During operation of the positioning device 2: 1) the clamping cylinder 24 extends out to drive the plurality of clamping rollers 25 to move upwards simultaneously, and the upper surfaces of the clamping rollers 25 are in contact with the connecting rod driving surface 2822 to push the clamping connecting rod 282 to rotate around the clamping base 281; 2) the link pushing surface 2823 contacts with the rear side of the lower end of the clamping head 28 to push the clamping head 28 to move outwards and compress the clamping springs 284 to open the clamping heads 28 simultaneously; 3) the moving device 1 moves the screen glass to the film pasting station, and two mutually vertical end faces of the screen glass are respectively contacted with the inner side faces of the positioning blocks 27; 4) the clamping cylinder 24 contracts to the initial position, the clamping spring 284 extends and drives the clamping heads 28 to move inwards, and the inner side surfaces of the clamping heads 28 are respectively contacted with the other two end surfaces of the screen glass to position and clamp the screen glass, so that the screen glass positioning process is completed.

The positioning device 2 solves the problems that when the screen glass is positioned and clamped, two clamping cylinders are adopted to respectively drive two clamping blocks to be in contact with two vertical end faces of the screen glass to clamp the screen glass, and the number of the clamping cylinders and the cost of the whole equipment are increased. In this way, when one clamping cylinder 24 extends, the clamping heads 28 are driven to open simultaneously so as to put the screen glass into the positioning station, and after the clamping cylinder 24 contracts, the clamping heads 28 clamp the screen glass by using the elastic force of the clamping springs 284; in this way, only one cylinder and two springs are needed to drive the two clamping heads 28 simultaneously, so that the number of cylinders is reduced; and the cost of the spring is lower relative to the cost of the air cylinder, so that the cost of the whole equipment is reduced.

As shown in fig. 8, the turnover device 5 includes a turnover frame 51, a turnover driving mechanism 52, a turnover base 53, a turnover shaft 54, a turnover plate 55 and a support plate 56; the driving end of the turning driving mechanism 52 is connected with the turning shaft 54, and both ends of the turning shaft 54 are in rotating fit with the turning base 53; the turnover plate 55 is fixed on the turnover shaft 54, the turnover sucker 57 is arranged on the turnover plate 55, the lower end of the turnover sucker 57 is connected with a vacuum device, and the upper end of the turnover sucker 57 is contacted with the bottom surface of the screen glass; the support plate 56 is disposed opposite to the flip plate 55 along the flip axis 54, and the upper surface of the support plate 56 is in contact with the top surface of the screen glass. The turnover plate 55 is provided with a sucker hole 551, the lower surface of the turnover plate 55 is fixedly provided with a sucker bottom plate, and a plurality of turnover suckers 57 are fixed on the sucker bottom plate and pass through the sucker hole 551 to be contacted with the bottom surface of the screen glass; a backing plate 552 is fixedly arranged on the outer side of the turnover plate 55, and after the turnover plate 55 is turned over above the supporting plate 56, the upper surface of the backing plate 552 is in contact with the upper surface of the supporting plate 56; the overturning driving mechanism 52 is driven by a rotating cylinder or a motor; the overturning frame 51 is fixedly provided with a first limiting block 511 and a second limiting block, and the overturning base 53 is fixedly provided with a third limiting block 513; the first limiting block 511, the second limiting block and the third limiting block 513 are distributed in a triangular shape, and the upper surfaces of the first limiting block 511, the second limiting block and the third limiting block 513 are all in contact with the lower surface of the turnover plate 55; the first limiting block 511 and the second limiting block are vertically distributed in a rectangular shape, and the third limiting block 513 is horizontally distributed in a rectangular shape.

The turning device 5 is in the working process: 1) the moving device 1 moves the screen glass with the front surface film to the turnover plate 55, and the turnover sucker 57 sucks the bottom surface of the screen glass; 2) the turnover driving mechanism 52 drives the turnover shaft 54 to rotate so as to drive the turnover plate 55 to rotate, the screen glass is turned over to the position of the supporting plate 56 to blank the screen glass, and the bottom surface of the screen glass is turned upwards; 3) the moving device 1 moves the turned screen glass to a reverse side film pasting station to complete the turning process of the screen glass.

The turnover device 5 solves the problems that the screen glass pasted with the front surface film is turned manually, the labor intensity of workers is increased, and the turnover efficiency of the screen glass is reduced. In this way, the sucking, fixing and turning processes of the screen glass are respectively completed by the sucking and turning driving mechanism 52 of the turning sucker 57 driving the turning plate 55 to rotate; the process of sucking, fixing and overturning the screen glass is automatically completed by equipment, so that the labor intensity of workers is reduced, and the overturning efficiency of the screen glass is improved.

Claims

1. A screen glass film-pasting turning device is characterized by comprising a turning frame (51), a turning driving mechanism (52), a turning base (53), a turning shaft (54), a turning plate (55) and a supporting plate (56); the driving end of the turning driving mechanism (52) is connected with the turning shaft (54), and the two ends of the turning shaft (54) are in rotating fit with the turning base (53); the turnover plate (55) is fixed on the turnover shaft (54), a turnover sucker (57) is arranged on the turnover plate (55), the lower end of the turnover sucker (57) is connected with a vacuum device, and the upper end of the turnover sucker (57) is contacted with the bottom surface of the screen glass; the support plate (56) and the flip plate (55) are distributed along the flip axis (54), and the upper surface of the support plate (56) is in contact with the top surface of the screen glass.

2. The device for turning the film on the screen glass as claimed in claim 1, wherein the turning plate (55) is provided with a suction cup hole (551), the lower surface of the turning plate (55) is fixedly provided with a suction cup bottom plate, and the plurality of turning suction cups (57) are fixed on the suction cup bottom plate and pass through the suction cup hole (551) to contact the bottom surface of the screen glass.

3. The screen glass film laminating and turning device of claim 1, wherein a backing plate (552) is fixedly arranged on the outer side of the turning plate (55), and after the turning plate (55) is turned over the supporting plate (56), the upper surface of the backing plate (552) is contacted with the upper surface of the supporting plate (56).

4. The device for turning over a screen glass film as claimed in claim 1, wherein the turning-over driving mechanism (52) is a rotary cylinder or a motor drive.

5. The screen glass film laminating turnover device of claim 1, wherein a first limiting block (511) and a second limiting block are fixedly arranged on the turnover rack (51), and a third limiting block (513) is fixedly arranged on the turnover base (53); the first limiting block (511), the second limiting block and the third limiting block (513) are distributed in a triangular shape, and the upper surfaces of the first limiting block (511), the second limiting block and the third limiting block (513) are all in contact with the lower surface of the turnover plate (55).

6. The screen glass film turnover device of claim 1, wherein the first limiting block (511) and the second limiting block are vertically distributed in a rectangular parallelepiped shape, and the third limiting block (513) is horizontally distributed in a strip shape.

7. A screen glass overturning method is characterized in that the method adopts the screen glass film overturning device, and the method comprises the following steps:

1) the moving device moves the screen glass pasted with the front surface film to a turnover plate (55), and a turnover sucker (57) sucks the bottom surface of the screen glass;

2) the turnover driving mechanism (52) drives the turnover shaft (54) to rotate so as to drive the turnover plate (55) to rotate, the screen glass is turned over to the position of the supporting plate (56) to blank the screen glass, and the bottom surface of the screen glass is turned upwards;

8. A screen glass protective film pasting device is characterized by comprising a workbench, a feeding device, a moving device (1), a plurality of positioning devices (2), a first film supply device (3), a second film supply device (4) and a turnover device (5), wherein the feeding device, the moving device, the plurality of positioning devices, the first film supply device, the second film supply device and the turnover device are fixed on the workbench; the turning device (5) is as claimed in claim 1; the moving end of the moving device (1) is contacted with the surface of the screen glass and is respectively connected with the positioning ends of the positioning devices (2) and the feeding and discharging ends of the turnover device (5); the discharge end of the first film supply device (3) and the discharge end of the second film supply device (4) are respectively connected with the positioning ends of the plurality of positioning devices (2); the moving device (1) is used for moving the screen glass to different stations; the positioning device (2) is used for positioning the screen glass; the first film supply device (3) and the second film supply device (4) are respectively used for feeding a front film and a back film; the turnover device (5) is used for turning over the screen glass.

9. A screen glass protective film pasting apparatus as defined in claim 8, wherein the positioning device (2) comprises a positioning driving mechanism (21) and a positioning clamping mechanism (22); the driving end of the positioning driving mechanism (21) is connected with a positioning and clamping mechanism (22), and the clamping end of the positioning and clamping mechanism (22) is contacted with the side surface of the screen glass; the positioning driving mechanism (21) is used for driving the positioning and clamping mechanism (22) to move to different stations, and the positioning and clamping mechanism (22) is used for positioning and clamping the screen glass.

10. The screen glass protective film pasting device according to claim 9, wherein the positioning and clamping mechanism (22) comprises a clamping frame (23), a clamping cylinder (24), a clamping roller (25), a clamping base plate (26), a positioning block (27) and a plurality of clamping heads (28); the output end of the clamping cylinder (24) is connected with a clamping roller (25); the clamping head (28) comprises a clamping base (281), a clamping connecting rod (282), a clamping guide post (283), a clamping spring (284) and a clamping block (285); the middle end of the clamping connecting rod (282) is hinged on the clamping base (281), the bottom surface of the tail end of the clamping connecting rod (282) is contacted with the clamping roller (25), and the head end of the clamping connecting rod (282) is contacted with the rear side surface of the lower end of the clamping block (285); the clamping guide post (283) is in sliding fit with a corresponding hole position of the clamping base (281), the front end of the clamping guide post (283) is connected with the rear side surface of the lower end of the clamping block (285), and two ends of the clamping spring (284) are respectively contacted with the rear side surface of the clamping base (281) and the tail end of the clamping guide post (283); the positioning blocks (27) are fixed on the clamping bottom plate (26) and the inner side faces of the positioning blocks are respectively contacted with the front end face and the left end face of the screen glass, and the inner side faces of the upper ends of the clamping blocks (285) are respectively contacted with the rear end face and the right end face of the screen glass.