CN210190829U - Glass chip mounter and polaroid dyestripping device thereof - Google Patents

Abstract

The utility model discloses a glass chip mounter and polaroid dyestripping device thereof, polaroid dyestripping device includes the mounting bracket, be provided with polaroid feed mechanism, the unwinding mechanism of non-setting adhesive book, the winding mechanism and the dyestripping mechanism of non-setting adhesive book on the mounting bracket, polaroid feed mechanism sets up in one side of unwinding mechanism, dyestripping mechanism sets up between unwinding mechanism and winding mechanism; the unwinding mechanism unwinds the adhesive sticker roll. In actual operation, the face of pasting of non-setting adhesive book is towards polaroid loading mechanism, and rotation through winding mechanism drives unwinding mechanism and rotates in step, combines polaroid loading mechanism's lapse makes the polaroid paste on the non-setting adhesive to accomplish the material loading action of polaroid, combine dyestripping mechanism to make winding mechanism when the rolling, tear the basement membrane of polaroid and rolling, in order to accomplish the dyestripping action, thereby realized full-automatic material loading and dyestripping action, improved work efficiency.

Description

Glass chip mounter and polaroid dyestripping device thereof

Technical Field

The utility model relates to a chip mounter technical field, in particular to glass chip mounter and polaroid dyestripping device thereof.

Background

In the LCD display device, a piece of polarizing plate is required to be attached to both sides of the glass substrate, so that the display effect of the LCD display device is influenced by the damage of the polarizing plate in the carrying process, when the LCD and the backlight source are assembled, the protective film on one side of the polarizer needs to be torn off, and then the polarizer is attached to the glass substrate. The protective film on the polarizing plate has strong viscosity, but the film tearing work is generally carried out by a manual film tearing method at present, the manual operation force is unstable, the damage to the polarizer is inevitably caused, meanwhile, the method is time-consuming and labor-wasting, and the automation degree is very low.

With the continuous innovation of science and technology, the requirements for various processes in the polaroid attaching process in the assembling field of display screens are higher and higher, and particularly in the polaroid film tearing process, the attaching and equipment operation efficiency is directly influenced by the success rate of tearing off the polaroid release film. If the film tearing process is unstable and incomplete, a series of problems such as damage of the polaroid and the like can be caused, and the production efficiency is greatly influenced.

Thus, the prior art has yet to be improved and enhanced.

Disclosure of Invention

In view of the foregoing prior art's weak point, the utility model aims to provide a polaroid dyestripping device of glass chip mounter glues the polaroid on the polaroid feed mechanism through the non-setting adhesive area of unwinding mechanism output, tears the back with the basement membrane through dyestripping mechanism to winding mechanism will be stained with the non-setting adhesive book recovery of basement membrane, in order to realize automatic dyestripping operation.

In order to achieve the purpose, the utility model adopts the following technical proposal:

a polaroid dyestripping device of a glass chip mounter comprises a mounting rack, wherein a polaroid feeding mechanism, an unwinding mechanism of a non-setting adhesive roll, a winding mechanism of the non-setting adhesive roll and a dyestripping mechanism are arranged on the mounting rack, the polaroid feeding mechanism is arranged on one side of the unwinding mechanism, and the dyestripping mechanism is arranged between the unwinding mechanism and the winding mechanism; unwinding mechanism unreels the non-setting adhesive book, polaroid feed mechanism delivers to the output section that the non-setting adhesive was rolled up with the polaroid and makes it paste on the non-setting adhesive, and the output section warp of non-setting adhesive book the dyestripping mechanism makes polaroid and the protection film separation of its one side, will paste the output section rolling of the non-setting adhesive book that has the protection film by winding mechanism.

The polaroid dyestripping device of glass chip mounter still including being used for sucking the piece paster mechanism of getting of polaroid cooperation dyestripping, get piece paster mechanism and set up in one side of dyestripping mechanism.

The polaroid dyestripping device of glass chip mounter in, unwinding mechanism is including the adjustable attenuator who is used for making the non-setting adhesive book unreel the unreel roller, draw roller, guide roll, translation roller and is used for adjusting the position of unreeling the roller, adjustable attenuator is connected with unreeling the roller, draw the roller and set up in unreeling of unreeling the roller and incline, the guide roll is located the below of drawing the roller, the translation roller is located the oblique below of guide roll, and with dyestripping mechanism position adaptation.

The polaroid dyestripping device of glass chip mounter in, winding mechanism includes wind-up roll, induction roller, first carry over pinch rolls, second carry over pinch rolls and motor, the motor is with the rolling of the coaxial hookup control wind-up roll of wind-up roll, the induction roller sets up in the below of wind-up roll, first carry over pinch rolls sets up between wind-up roll and induction roller, the second carry over pinch rolls sets up in the below of translation roller, and the position is less than dyestripping mechanism, makes the output section that the non-setting adhesive was rolled up bypass dyestripping mechanism.

The polaroid dyestripping device of glass chip mounter in, dyestripping mechanism is including dyestripping platform and spiller, the spiller is fixed in the output of dyestripping platform, the translation roller is located same water flat line with the dyestripping platform.

The polaroid dyestripping device of glass chip mounter in, polaroid feed mechanism includes material frame, first cylinder, second cylinder, push rod, slider and slide rail, the removal end and the material frame of first cylinder are connected, the slide rail sets up on the material frame, the slider sets up on the slide rail, the one end of push rod is connected with the removal end of second cylinder, the other end and the slider of push rod are connected.

In the polaroid dyestripping device of glass chip mounter, the below of polaroid feed mechanism still is provided with the material and collects the box, the material is collected the box and is had the introduction part, the introduction part extends to inductor below.

In the polaroid dyestripping device of the glass chip mounter, the front end of the dyestripping platform is provided with a leading-in guide angle, and the bottom surface of the output end of the dyestripping platform is provided with a dyestripping guide angle.

The polaroid dyestripping device of glass chip mounter in, one side of the output of dyestripping platform is provided with the response mechanism that is used for the perception whether to have the polaroid, the output of dyestripping platform still is provided with prevents blowing of polaroid landing and expects the mechanism, blow the below that expects the mechanism is located the dyestripping platform, be preset interval setting with the dyestripping platform.

The utility model provides a glass chip mounter, is including the conveying mechanism who is used for carrying polaroid to one side of glass, including glass conveying mechanism, be used for the clear scraper mechanism of glass and as above-mentioned polaroid dyestripping device, scraper mechanism sets up in glass conveying mechanism's one end, dyestripping device sets up in glass conveying mechanism's homonymy.

Compared with the prior art, the utility model provides a glass chip mounter and polaroid dyestripping device thereof, polaroid dyestripping device drives unwinding mechanism synchronous rotation through winding mechanism and receives and releases the non-setting adhesive book, combines polaroid loading mechanism's pass makes the polaroid paste on the non-setting adhesive to accomplish the material loading action of polaroid, rethread dyestripping mechanism tears the basement membrane of polaroid when the winding mechanism is rolling, in order to accomplish the dyestripping action. The utility model discloses can realize automatic feeding and dyestripping action, improve work efficiency, roll up the mode that cooperation dyestripping mechanism tore the polaroid basement membrane through receiving and releasing the non-setting adhesive moreover, the dyestripping dynamics is balanced, at the not fragile polaroid of dyestripping in-process.

Drawings

Fig. 1 is the utility model provides a structural schematic diagram of polaroid dyestripping device of glass chip mounter.

Fig. 2 is the utility model provides a local structure schematic diagram of polaroid dyestripping device of glass chip mounter.

Fig. 3 is the utility model provides a local structure of polaroid dyestripping device of glass chip mounter looks sideways at the schematic diagram.

Fig. 4 is a schematic top view of a local structure of the polarizer film tearing device of the glass chip mounter.

Fig. 5 is a schematic structural diagram of the glass mounter provided by the present invention.

Detailed Description

In order to make the objects, technical solutions and effects of the present invention clearer and clearer, the following description of the present invention will refer to the accompanying drawings and illustrate embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention.

Referring to fig. 1, 2 and 3, the polarizer film tearing device of a glass chip mounter according to the present invention includes a mounting frame 1, wherein a polarizer feeding mechanism 2, an unwinding mechanism 3 of an adhesive tape roll 6, a winding mechanism 4 of the adhesive tape roll 6 and a film tearing mechanism 5 are disposed on the mounting frame 1, the polarizer feeding mechanism 2 is disposed on one side of the unwinding mechanism 3, and the film tearing mechanism 5 is disposed between the unwinding mechanism 3 and the winding mechanism 4; unwinding mechanism 3 unreels 6 with the non-setting adhesive, polarizer feed mechanism 2 sends the polaroid to the output section that the non-setting adhesive was rolled up 6 and makes it paste on the non-setting adhesive, and the output section warp of 6 is rolled up to the non-setting adhesive the dyestripping mechanism 5 makes the polaroid separate rather than the protection film of one side, will paste the output section rolling of 6 is rolled up to the non-setting adhesive that has the protection film by winding mechanism 4.

Specifically, the winding mechanism 4 is arranged below the unwinding mechanism 3, so that the occupied space is saved. In actual operation, 6 is rolled up to the non-setting adhesive and pastes the face outwards, and rotation through winding mechanism 4 drives unwinding mechanism 3 synchronous rotation, combines polaroid feed mechanism 2's lapse makes the polaroid paste on the non-setting adhesive area to accomplish the material loading action of polaroid, combine dyestripping mechanism 5 again when winding mechanism 4 is rolling, tear the basement membrane of polaroid and the rolling, in order to accomplish the dyestripping action. The utility model discloses an automatic feeding and dyestripping action can be realized, work efficiency is high, and through receiving and releasing the mode that 6 cooperation dyestripping mechanisms 5 of non-setting adhesive book torn the polaroid basement membrane, the dyestripping dynamics is balanced, at the not fragile polaroid of dyestripping in-process.

The polaroid dyestripping device of glass chip mounter, still including being used for sucking the polaroid cooperation dyestripping get piece paster mechanism 7, get piece paster mechanism 7 and set up in dyestripping mechanism 5's one side, when the polaroid removed to dyestripping mechanism 5 on, get piece paster mechanism 7 and push down and hold it and make the polaroid unmovable, cooperation dyestripping mechanism 5 makes the non-setting adhesive roll up 6's recovery along with the non-setting adhesive when buckling the turn downwards to tear the protection film of polaroid bottom, still accomplish the absorption action of polaroid here simultaneously, make the polaroid that breaks away from the non-setting adhesive can not drop. And this mode can be better tear the basement membrane of polaroid off, and the dyestripping dynamics is more balanced, further ensures not fragile polaroid.

Referring to fig. 3, the unwinding mechanism 3 includes an unwinding roller 31 for unwinding the adhesive sticker roll 6, a drawing roller 32, a guide roller 33, a translation roller 34, and an adjustable damper 35, where the adjustable damper 35 is connected to the unwinding roller 31, the drawing roller 32 is disposed on the unwinding side of the unwinding roller 31, the guide roller 33 is located below the drawing roller 32, and the translation roller 34 is located obliquely below the guide roller 33 and is adapted to the position of the film tearing mechanism 5. Specifically, when 6 covers are located on unreeling roller 31 to the non-setting adhesive book, make have sticky face outwards (towards polaroid loading one side promptly), draw the position of roller 32 and polaroid feed mechanism 2's position adaptation, guide roll 33 is in same vertical line with drawing roller 32 to in glue the polaroid, make the polaroid move along with the output section that the non-setting adhesive book 6, after guide roll 33 rolls the extrusion, make the non-setting adhesive more inseparable with the polaroid pasting, lead the polaroid to on dyestripping mechanism 5 through translation roller 34 again.

Further, the below of drawing roller 32 is provided with prevents that 6 collision's anticollision institution 8 are rolled up with the non-setting adhesive to polaroid feed mechanism 2, anticollision institution 8 includes inductor 81 and response piece 82, inductor 81 sets up in the below of drawing roller 32, response piece 82 sets up in the front end of polaroid feed mechanism 2, prevents that unwinding mechanism 4 from rotating to unreel when colliding with polaroid feed mechanism 2.

Referring to fig. 1 to 4, the winding mechanism 4 includes a winding roller 41, a drawing roller 42, a first drawing roller 43, a second drawing roller 44 and a motor 45, the motor 45 is coaxially coupled with the winding roller 41 to control winding of the winding roller 41, the drawing roller 42 is disposed below the winding roller 41, the first drawing roller 43 is disposed between the winding roller 41 and the drawing roller 42, the second drawing roller 44 is disposed below the translation roller 34 and is located lower than the film tearing mechanism 5, so that the output section of the non-drying adhesive roll 6 bypasses the film tearing mechanism 5. When the winding roller 41 is used for winding, the guiding effect is achieved through the introducing roller 42, and the first traction roller 43 is combined to enhance the pulling force for recycling the adhesive sticker roll 6, so that the winding roller 31 can be driven to synchronously rotate, and the unwinding action of the adhesive sticker roll 6 is realized. The second traction roller 44 and the first traction roller 43 are arranged in a high-low mode, and the tension of the adhesive sticker roll 6 can be further increased. Furthermore, the second traction roller 44 and the output end of the film tearing platform 51 are arranged at a certain angle (for example, an included angle of 10-60 degrees), so that when the polarizer is output by the film tearing mechanism 5, the adhesive sticker can better tear off the bottom film.

Dyestripping mechanism 5 is including dyestripping platform 51 and spiller 52, spiller 52 is fixed in the output of dyestripping platform 51, translation roller 34 is located same water flat line with dyestripping platform 51. Through translation roller 34 makes the output section of non-setting adhesive book 6 can translate to on dyestripping platform 51, when polaroid A0 moved to on spiller 52, polaroid A0 was located the top surface of the output section of non-setting adhesive book 6 this moment, get piece paster mechanism 7 and push down and hold the top surface of polaroid, then follow the non-setting adhesive synchronous motion, because the polaroid can produce a power of peeling off the polaroid when crossing the anterior turn of spiller 52, make the polaroid break away from the protection film of non-setting adhesive and its bottom, can accomplish the dyestripping action this moment.

Specifically, the front end of the film tearing platform 51 is provided with a leading-in guide angle 511, the bottom surface of the output end of the film tearing platform 51 is provided with a film tearing guide angle (not shown in the figure), and both the leading-in guide angle 511 and the film tearing guide angle are acute angles. Through leading in contained angle 511, make the non-setting adhesive that is stained with the polaroid can remove smoothly to on dyestripping platform 51, the rethread dyestripping contained angle makes when uneven gluey turns to the removal, produces the power of tearing off the basement membrane.

Further, one side of the output end of the film tearing platform 51 is provided with a sensing mechanism 53 for sensing whether the polarizer exists, the sensing mechanism 53 is arranged at the position of the scraper knife 52, when the polarizer moves to the position of the scraper knife 52, the film taking and mounting mechanism 7 can move according to a signal sent by the sensing mechanism 53 and descend to suck the polarizer, and the action of the film taking and mounting mechanism 7 is controlled by a PLC system of the glass chip mounter.

The output of dyestripping platform 51 still is provided with the blowing mechanism 54 that prevents the polaroid landing, blow the below that material mechanism 54 is located dyestripping platform 51, be the setting of predetermineeing the interval with dyestripping platform 51. When the bottom film of the polarizer is torn off, the blowing mechanism 54 blows air upwards, so that the polarizer can be prevented from falling off from the sheet taking and adhering mechanism 7 in the film tearing process.

As shown in fig. 2 and 4, the polarizer feeding mechanism 2 includes a material frame 21, a first cylinder (not shown), a second cylinder (not shown), a push rod 22, a slider 23, and a slide rail 24, where a moving end of the first cylinder is connected to the material frame 21, the slide rail 24 is disposed on the material frame 21, the slider 23 is disposed on the slide rail 24, one end of the push rod 22 is connected to a moving end of the second cylinder, and the other end of the push rod 22 is connected to the slider 23. A plurality of polaroids are placed in the material frame 21 in a stacked mode, the material frame 21 is controlled to move to one side of the unwinding mechanism 4 through the first air cylinder, meanwhile, the pushing rod 22 is controlled through the second air cylinder, the polaroids in the material frame 21 are clamped through the matching of the sliding block 23 and the sliding rail 24, and the polaroids are pushed to one side of the unwinding mechanism 4, so that the polaroids can be smoothly adhered to the output section of the adhesive tape roll 6 when the material frame 21 moves.

With reference to fig. 1, fig. 2 and fig. 3, a material collecting box 9 is further disposed below the polarizer feeding mechanism 2, the material collecting box 9 has an introducing portion 91, and the introducing portion 91 extends to a position below the sensor 81, so as to prevent the polarizer from falling off when the polarizer and the adhesive sticker are not firmly adhered or are not adhered to the adhesive sticker, so that fragments are scattered in the device and are not easy to clean.

Based on foretell polaroid dyestripping device, the utility model discloses still correspondingly provide a glass chip mounter, please refer to fig. 5, the glass chip mounter includes glass conveying mechanism 200, is used for the clear scraper mechanism 300 of glass and polaroid dyestripping device 100, scraper mechanism 300 sets up in glass conveying mechanism 200's one end, dyestripping device 100 sets up in glass conveying mechanism 200's homonymy. Further, the glass conveying mechanism 200, the scraper mechanism 300 and the polaroid film tearing device 100 are two and symmetrically arranged, so that double stations are not operated in the same way, and the production efficiency is greatly improved. Since the polarizer film tearing apparatus 100 has been described in detail above, it is not described in detail here.

To sum up, the utility model provides a glass chip mounter and polaroid dyestripping device thereof, polaroid dyestripping device includes the mounting bracket, be provided with polaroid feeding mechanism, the unwinding mechanism of non-setting adhesive book, the winding mechanism and the dyestripping mechanism of non-setting adhesive book on the mounting bracket, polaroid feeding mechanism sets up in one side of unwinding mechanism, dyestripping mechanism sets up between unwinding mechanism and winding mechanism; unwinding mechanism unreels the non-setting adhesive book, polaroid feed mechanism delivers to the output section that the non-setting adhesive was rolled up with the polaroid and makes it paste on the non-setting adhesive, and the output section warp of non-setting adhesive book the dyestripping mechanism makes polaroid and the protection film separation of its one side, will paste the output section rolling of the non-setting adhesive book that has the protection film by winding mechanism. Specifically, the winding mechanism is arranged below the unwinding mechanism, so that the occupied space is saved. In actual operation, the face of pasting of non-setting adhesive book is outwards, and rotation through winding mechanism drives unwinding mechanism and rotates in step, combines polaroid feed mechanism's lapse makes the polaroid paste on the non-setting adhesive to accomplish the material loading action of polaroid, combine dyestripping mechanism to make winding mechanism when the rolling, can tear the basement membrane of polaroid and the rolling again, in order to accomplish the dyestripping action.

Furthermore, the film tearing mechanism is assisted by the film taking and pasting mechanism to complete the film tearing action, and meanwhile, the polaroid separated from the adhesive sticker cannot fall off. Still through set up in the below of dyestripping platform, be the blowing material mechanism that predetermines the interval setting with the dyestripping platform. When the basement membrane of polaroid was torn except that, blow material mechanism and upwards blow, can prevent that the polaroid from getting piece paster mechanism and droing at the dyestripping process.

Furthermore, the utility model discloses can realize automatic feeding, dyestripping action, work efficiency is high, and the dyestripping dynamics is balanced moreover, not fragile polaroid, and full automatic operation has reduced the human cost moreover, is fit for extensively promoting.

It should be understood that equivalent alterations and modifications can be made by those skilled in the art according to the technical solution of the present invention and the inventive concept thereof, and all such alterations and modifications should fall within the scope of the appended claims.

Claims (10)

1. A polaroid dyestripping device of a glass chip mounter is characterized by comprising a mounting rack, wherein a polaroid feeding mechanism, an unwinding mechanism of a non-setting adhesive roll, a winding mechanism of the non-setting adhesive roll and a dyestripping mechanism are arranged on the mounting rack; unwinding mechanism unreels the non-setting adhesive book, polaroid feed mechanism delivers to the output section that the non-setting adhesive was rolled up with the polaroid and makes it paste on the non-setting adhesive, and the output section warp of non-setting adhesive book the dyestripping mechanism makes polaroid and the protection film separation of its one side, will paste the output section rolling of the non-setting adhesive book that has the protection film by winding mechanism.

2. A polarizer film stripping device for a glass mounter according to claim 1, further comprising a film picking and mounting mechanism for sucking the polarizer in cooperation with the film stripping, wherein the film picking and mounting mechanism is disposed on one side of the film stripping mechanism.

3. The polarizer film tearing device of the glass placement machine according to claim 1, wherein the unwinding mechanism comprises an unwinding roller, a drawing roller, a guide roller, a translation roller and an adjustable damper, the unwinding roller is used for unwinding the adhesive sticker roll, the adjustable damper is connected with the unwinding roller, the drawing roller is arranged on the unwinding side of the unwinding roller, the guide roller is located below the drawing roller, and the translation roller is located obliquely below the guide roller and is adapted to the position of the film tearing mechanism.

4. A polarizer film tearing device for a glass sheet mounter according to claim 3, wherein the winding mechanism comprises a winding roller, a first traction roller, a second traction roller and a motor, the motor is coaxially coupled to the winding roller to control winding of the winding roller, the winding roller is disposed below the winding roller, the first traction roller is disposed between the winding roller and the winding roller, the second traction roller is disposed below the translation roller and is located lower than the film tearing mechanism, so that the output section of the non-drying adhesive roll bypasses the film tearing mechanism.

5. A polarizer film tearing device of a glass sheet mounter according to claim 4, wherein the film tearing mechanism comprises a film tearing platform and a scraper fixed at an output end of the film tearing platform, and the translation roller and the film tearing platform are located on the same horizontal line.

6. The polarizer film tearing device of the glass sheet mounter according to claim 1, wherein the polarizer feeding mechanism comprises a material frame, a first cylinder, a second cylinder, a push rod, a sliding block and a sliding rail, a moving end of the first cylinder is connected with the material frame, the sliding rail is arranged on the material frame, the sliding block is arranged on the sliding rail, one end of the push rod is connected with a moving end of the second cylinder, and the other end of the push rod is connected with the sliding block.

7. The polarizer film tearing device of the glass sheet mounter according to claim 6, wherein a material collection box is further disposed below the polarizer feeding mechanism, the material collection box has an introduction portion, and the introduction portion extends to below the sensor.

8. A polarizer film tearing device of a glass sheet mounter according to claim 5, wherein the front end of the film tearing platform has a leading-in guide angle, and the bottom surface of the output end of the film tearing platform has a film tearing guide angle.

9. The polarizer film tearing device of the glass mounter according to claim 8, wherein one side of the output end of the film tearing platform is provided with an induction mechanism for sensing whether the polarizer exists, the output end of the film tearing platform is further provided with a material blowing mechanism for preventing the polarizer from slipping off, and the material blowing mechanism is located below the film tearing platform and is arranged at a preset distance from the film tearing platform.

10. A glass chip mounter, which comprises a conveying mechanism for conveying a polaroid to one side of glass, and is characterized by comprising a glass conveying mechanism, a scraper mechanism for cleaning the glass and a polaroid film tearing device according to any one of claims 1 to 9, wherein the scraper mechanism is arranged at one end of the glass conveying mechanism, and the film tearing device is arranged at the same side of the glass conveying mechanism.

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