CN219917113U - Splitting and film tearing workbench - Google Patents

Abstract

The utility model relates to the technical field of OLED screen processing, in particular to a splitting and film tearing workbench, which comprises a bottom plate, wherein a moving table is arranged on the bottom plate and comprises a first functional carrier for film tearing and a second functional carrier for splitting, the first functional carrier is connected with the rotating shaft through a connecting rod mechanism, the first functional carrier and the connecting rod mechanism are both arranged on a bracket, the bracket is connected with a moving mechanism, the moving mechanism lifts the first functional carrier higher than the second functional carrier, and a vacuum hole is formed in the first functional carrier; the second functional carrier is embedded with a plurality of suction nozzles, the suction nozzles are arranged on the jacking air cylinder, and the suction nozzles are jacked by the jacking air cylinder to be higher than the second functional carrier. The utility model can be compatible with full-flexible and semi-flexible OLED, can realize block splitting, dummy splitting and film tearing functions, and has convenient and efficient use and good practicability.

Description

Splitting and film tearing workbench

Technical Field

The utility model relates to the technical field of OLED screen processing, in particular to a splitting and film tearing workbench.

Background

In the prior art, due to the difference of the material characteristics of the fully flexible and semi-flexible OLED, after a large panel is cut into small cells by laser, the fully flexible and semi-flexible device is structurally and technically different from the following two points: 1. the semi-flexible OLED needs to be split, the full-flexible OLED does not need to be split, and the semi-flexible splitting process is divided into cell splitting and dummy splitting; 2. the full flexibility is easy to stab, so that the mechanisms contacting with materials are made of stab-resistant materials as much as possible, and only the terminal area is on the platform when the film is torn.

Thus, after dicing, the device structure designs for fully flexible and semi-flexible OLEDs are very different and often cannot be made compatible.

Disclosure of Invention

The utility model aims to solve the technical problem of providing a splitting and film tearing workbench.

The technical scheme for solving the technical problems is as follows: the utility model provides a lobe of a leaf dyestripping workstation, includes the bottom plate, be equipped with the motion platform on the bottom plate, the motion platform is including the first function carrier that is used for the dyestripping and the second function carrier that is used for the lobe of a leaf, first function carrier passes through link mechanism and is connected with the pivot, first function carrier and link mechanism all install on the support, the support is connected with motion mechanism, motion mechanism jack-up first function carrier is higher than the second function carrier, it has the vacuum hole to open on the first function carrier.

As a preferable technical scheme of the utility model, the second functional carrier is embedded with a plurality of suction nozzles, the suction nozzles are arranged on the jacking air cylinder, and the suction nozzles are jacked by the jacking air cylinder to be higher than the second functional carrier.

As a preferable technical scheme of the utility model, the device further comprises a frame, wherein the frame is movably provided with a film tearing and splitting component, the film tearing and splitting component comprises a film tearing component and a splitting component, and the film tearing component reciprocates on the frame through a driving device.

As a preferable technical scheme of the utility model, the dyestripping assembly comprises clamping jaws, and a puncture needle is arranged on one side of each clamping jaw.

As a preferable technical scheme of the utility model, one side of the dyestripping component is provided with a detection camera.

As a preferable technical scheme of the utility model, the second functional carrier is connected with an adjusting mechanism through a supporting frame, and the adjusting mechanism is arranged on a moving shaft to do reciprocating motion.

As a preferable technical scheme of the utility model, the lower side of the second functional carrier is provided with a waste box.

As a preferable technical scheme of the utility model, the split assembly comprises a split cylinder, and the bottom end of the split cylinder is fixedly connected with a split cutter.

As a preferable technical scheme of the utility model, through holes which are suitable for the suction nozzles are uniformly distributed on the second functional carrier.

As a preferable technical scheme of the utility model, the first functional carrier, the second functional carrier, the film tearing component and the splitting component are respectively and electrically connected with the controller.

Due to the adoption of the structure, the utility model has the following beneficial effects:

1. the full-flexible OLED material is absorbed by vacuum holes on the suction nozzle and the first functional carrier, and is torn by a combination mode of a puncture needle and a clamping jaw;

2. driving a splitting cutter to descend through a splitting cylinder to knock the dummy of the semi-flexible OLED off along a cutting path, and tearing a film from the semi-flexible OLED material in a mode of combining a pricker and a clamping jaw;

3. the first functional carrier is driven to move around the rotating shaft through the connecting rod mechanism to split the sheet along the cutting channel, the cells are taken away by the mechanical arm and then discharged in sequence, and the dummy splitting and film tearing procedures of the semi-flexible OLED are carried out;

4. the utility model can be compatible with full-flexible and semi-flexible OLED, can realize block splitting, dummy splitting and film tearing functions, and has convenient and efficient use and good practicability.

Drawings

Fig. 1 is a front view of a split dyestripping station of the utility model.

Fig. 2 is a schematic structural view of the exercise station.

Fig. 3 is a front view of the exercise station.

Fig. 4 is a schematic structural view of the tear film assembly.

In the figure: 100 is a motion platform, 111 is a first functional carrier, 112 is a link mechanism, 113 is a motion mechanism, and 115 is a bracket;

121 is a second functional carrier, 122 is a motion axis, 123 is a jacking cylinder, and 124 is a suction nozzle;

140 is a waste bin;

201 is a frame, 210 is a lobe component, 211 is a lobe cylinder, 212 is a lobe knife, 220 is a tear film component, 221 is a puncture needle, 222 is a clamping jaw, and 223 is a detection camera.

Detailed Description

The utility model will now be described in further detail with reference to the drawings and to specific examples.

As shown in fig. 1-4, the splitting and film tearing workbench comprises a bottom plate 101, wherein a motion platform 100 is arranged on the bottom plate 101, the motion platform 100 comprises a first functional carrier 111 and a second functional carrier 121, the first functional carrier 111 is connected with a rotating shaft through a connecting rod mechanism 112, the first functional carrier 111 and the connecting rod mechanism 112 are both arranged on a support 115, the support 115 is connected with a motion mechanism 113, the motion mechanism 113 lifts the first functional carrier 111 higher than the second functional carrier 121, and a vacuum hole is formed in the first functional carrier 111.

In the present utility model, a plurality of suction nozzles 124 are embedded in the second functional carrier 121, the suction nozzles 124 are disposed on the lifting cylinder 123, and the lifting cylinder 123 lifts the suction nozzles 124 higher than the second functional carrier 121. The first functional carrier 111 is lifted to be higher than the second functional carrier 121 by the moving mechanism 113 for 2mm, the suction nozzle 124 is lifted to be higher than the second functional carrier 121 for 2mm by the lifting cylinder 123, so that the first functional carrier 111 and the suction nozzle 124 are positioned on the same plane, the fully flexible OLED is placed on a table surface by a manipulator or a picker mechanism, the fully flexible OLED is adsorbed by the vacuum hole and the suction nozzle 124, and then a film tearing process is performed.

The utility model further comprises a frame 201, wherein a film tearing and splitting assembly is movably installed on the frame 201, the film tearing and splitting assembly comprises a film tearing assembly 220 and a splitting assembly 210, and the film tearing assembly 220 reciprocates on the frame 201 through a driving device. After the feeding of the moving table 100 is completed, the moving table moves to the position below the film tearing and splitting assembly to respectively complete the film tearing and splitting procedures.

In a further aspect of the present utility model, the dyestripping assembly 220 includes a clamping jaw 222, and a lancet 221 is disposed on one side of the clamping jaw 222. The combined operation mode of the puncture needle 221 and the clamping jaw 222 can well perform the film tearing process; other means for performing the film tearing process, such as tape bonding, may also be used.

In a further aspect of the present utility model, a detection camera 223 is disposed on one side of the film tearing assembly 220. The detection camera 223 can be used for detecting the cutting quality and the film tearing effect on line, so that the qualification rate of products is improved.

In a further aspect of the present utility model, the second functional carrier 121 is connected to an adjusting mechanism through a supporting frame, and the adjusting mechanism is disposed on the moving shaft 122 for performing a reciprocating motion. The moving shaft 122 may drive the adjusting mechanism and the second functional carrier 121 to approach or separate from the first functional carrier 111.

Further, the lower side of the second functional carrier 121 is provided with a waste box 140. The waste bin 140 is used to collect waste PET film and Dummy to avoid waste from contaminating the production facility.

In further aspect of the present utility model, the lobe assembly 210 includes a lobe cylinder 211, and a lobe blade 212 is fixedly connected to the bottom end of the lobe cylinder 211. When the Dummy splits are carried out, the moving table 100 moves to the Dummy split position, the split air cylinder 211 drives the split knife 212 to descend, the Dummy of the material is knocked off along the cutting path, and the Dummy falls into the waste box 140 below along the trend.

Further, the through holes corresponding to the suction nozzles 124 are uniformly distributed on the second functional carrier 121. The suction nozzle 124 penetrates through the through hole, and the lifting or descending of the cylinder 123 through the top suction nozzle 124 can adsorb or break the adsorption on the fully flexible OLED, so that the fully flexible OLED can be adsorbed more stably by even distribution.

Further, the vacuum holes are uniformly distributed on the first functional carrier 111. The uniformly distributed vacuum holes can enable the fully flexible OLED to be adsorbed more stably, so that the efficiency of film tearing is higher.

In the present utility model, the first functional carrier 111, the second functional carrier 121, the film tearing assembly 220 and the splitting assembly 210 are respectively electrically connected to the controller. The control of the controller is used for respectively processing the tearing film of the full-flexible OLED, the splitting and tearing film of the semi-flexible OLED and the splitting and tearing film of the Block.

The principle of film tearing of fully flexible OLEDs is as follows: when the moving table 110 is fed, the first functional carrier 111 rotates around the rotating shaft under the drive of the link mechanism 112 to move to a horizontal position, and the bracket 115 moves to a position where the table top of the first functional carrier 111 is 2mm higher than the table top of the second functional carrier 121 under the drive of the vertical moving mechanism 113; at this time, the suction nozzle 124 is lifted up by the lifting cylinder 123, protrudes 2mm from the table top of the second functional carrier 121, and is flush with the table top of the first functional carrier 111; the fully flexible OLED material is placed on the table top through a pickler mechanism or a manipulator, and is absorbed by vacuum holes on the suction nozzle 124 and the first functional carrier 111; the moving table 100 moves to the film tearing position during film tearing, and the film tearing mechanism adopts a mode of a needle 221 and a clamping jaw 222 on the first functional carrier 111, and can also adopt other modes for film tearing; after the film tearing is finished, the film tearing assembly is lifted, so that the PET film is separated from the material, the first functional carrier 111 is broken in vacuum, the material is separated from the table top by a certain distance under the driving of the vertical movement mechanism 113, then the second functional carrier 121 is separated from the first functional carrier 111 by a certain distance under the action of the second functional carrier 121, the waste box 140 is exposed, the clamping jaw 222 is loosened, and the waste PET film is thrown into the waste box.

The principle of splitting and film tearing of the semi-flexible OLED is as follows:

the materials are received only through the second functional carrier 121, the jacking cylinder 123 is not needed to jack up the suction nozzle 124, the dummy area is suspended outside the second functional carrier 121, and the cutting channel is basically flush with the edge of the second functional carrier 121; when the dummy splits are carried out, the moving table 100 moves to the position of the dummy splits, the split air cylinder 211 drives the split knife 212 to descend, and the dummy of the material is knocked off along the cutting path; dummy drops down to the lower waste bin 140; the tearing is similar to the fully flexible tearing except that the semi-flexible OLED material tearing is performed on the mesa of the second functional platform 121.

The Block splitting, splitting and dyestripping principle is as follows:

the support 115 is driven by the vertical movement mechanism 113 to move to enable the table top of the first functional carrier 111 to be flush with the table top of the second functional carrier 121, at the moment, the suction nozzle 124 is lowered under the action of the jacking air cylinder 123, the suction nozzle 124 is lower than the table top of the second functional carrier 121, two cells of a block are respectively positioned on the first functional carrier 111 and the second functional carrier 121 during feeding, after the feeding is completed, the first functional carrier 111 is driven to move around the rotating shaft by the link mechanism 112 through vacuum adsorption of materials, and the two cells are split along a cutting path in the middle; there will be two cells on the mesa after the Block split. If cells after the block splitting still need to carry out dummy splitting or film tearing, a manipulator or a picker needs to be taken away first and then is placed at a position again, and the manipulator or the picker needs to have a buffer function, namely after two cells are taken away simultaneously, the manipulator or the picker sequentially discharges materials to carry out the operation of dummy splitting and film tearing of the semi-flexible OLED.

The description and applications of the present utility model herein are illustrative and are not intended to limit the scope of the utility model to the embodiments described above. Variations and modifications of the embodiments disclosed herein are possible, and actual alternatives to and equivalents of the various components of the embodiments are known to those of ordinary skill in the art. It will be clear to those skilled in the art that the present utility model may be embodied in other forms, structures, arrangements, proportions, and with other elements, materials, and components, without departing from the spirit or essential characteristics thereof. Other variations and modifications of the embodiments disclosed herein may be made without departing from the spirit or essential characteristics of the utility model.

Claims (10)

1. A splitting dyestripping workstation, characterized by: including bottom plate (101), be equipped with motion platform (100) on bottom plate (101), motion platform (100) are including first function carrier (111) and second function carrier (121) that are used for the dyestripping, first function carrier (111) are connected with the pivot through link mechanism (112), first function carrier (111) all install on support (115) with link mechanism (112), support (115) are connected with motion mechanism (113), motion mechanism (113) jack-up first function carrier (111) are higher than second function carrier (121), open on first function carrier (111) has the vacuum hole.

2. The split dyestripping workstation of claim 1, wherein: the second functional carrier (121) is embedded with a plurality of suction nozzles (124), the suction nozzles (124) are arranged on the jacking air cylinder (123), and the suction nozzles (124) are jacked by the jacking air cylinder (123) to be higher than the second functional carrier (121).

3. The split dyestripping workstation of claim 1, wherein: the novel film tearing and splitting machine further comprises a machine frame (201), wherein a film tearing and splitting component is movably installed on the machine frame (201) and comprises a film tearing component (220) and a splitting component (210), and the film tearing component (220) reciprocates on the machine frame (201) through a driving device.

4. A split dyestripping workstation according to claim 3, characterized in that: the dyestripping subassembly (220) includes clamping jaw (222), one side of clamping jaw (222) is equipped with felting needle (221).

5. The split dyestripping workstation of claim 4, wherein: one side of the film tearing assembly (220) is provided with a detection camera (223).

6. The split dyestripping workstation of claim 1, wherein: the second functional carrier (121) is connected with an adjusting mechanism through a supporting frame, and the adjusting mechanism is arranged on a moving shaft (122) to do reciprocating motion.

7. The split dyestripping workstation of claim 6, wherein: the lower side of the second functional carrier (121) is provided with a waste box (140).

8. A split dyestripping workstation according to claim 3, characterized in that: the cracking assembly (210) comprises a cracking cylinder (211), and a cracking knife (212) is fixedly connected to the bottom end of the cracking cylinder (211).

9. A split dyestripping bench according to claim 2, the method is characterized in that: through holes corresponding to the suction nozzles (124) are uniformly distributed on the second functional carrier (121).

10. The split dyestripping workstation of claim 1, wherein: the first functional carrier (111), the second functional carrier (121), the film tearing component (220) and the splitting component (210) are respectively and electrically connected with the controller.