CN215659792U - Positioning jig for positioning liquid crystal panel - Google Patents

Abstract

The positioning jig for positioning the liquid crystal panel comprises a supporting assembly, a first driving assembly, a second driving assembly, a first positioning assembly, a second positioning assembly and a third positioning assembly, wherein the supporting assembly is used for supporting the liquid crystal panel; the first positioning assembly and the second positioning assembly can move oppositely under the driving of the first driving assembly so as to abut against two opposite first side walls of the liquid crystal panel; the third positioning assembly can be driven by the second driving assembly to abut against a second side wall of the liquid crystal panel, which is adjacent to the first side wall, and push the liquid crystal panel to move for a certain distance; the first positioning component comprises a first positioning block with a first plane abutted with the first side wall; the second positioning assembly comprises a second positioning block with a second plane abutted against the other first side wall; the third positioning assembly comprises a third positioning block which is used for being abutted against the second side wall. The pressure between the liquid crystal panel and the first positioning block and between the liquid crystal panel and the second positioning block can be effectively reduced during positioning, and damage to the liquid crystal panel is avoided.

Description

Positioning jig for positioning liquid crystal panel

Technical Field

The utility model belongs to the technical field of liquid crystal panel processing equipment, and particularly relates to a positioning jig for positioning a liquid crystal panel.

Background

The existing liquid crystal panel needs to be cut with a short circuit ring, the short circuit ring is generally cut by panel short circuit ring cutting equipment, and the liquid crystal panel needs to be positioned before being processed. At present, two general ways for positioning products in the panel industry are available, one is to position the products through a CCD, and the other is to position the products through mechanical clamping. Because the cost of the CCD positioning scheme is higher, mechanical positioning is preferentially adopted under the conditions of low precision requirement and no special requirement.

Along with the continuous development of LCD panel trade, the liquid crystal display panel size does more and more big more, weight is also more and more heavy, and have the polaroid on the current LCD panel, the polaroid has the side that some can be outstanding liquid crystal display panel main part, because liquid crystal display panel size is great, and the polaroid has the side that some can be outstanding liquid crystal display panel main part, when adopting current positioning jig to fix a position liquid crystal display panel, in centre gripping positioning process, what positioning jig actually contacted is outstanding polaroid, because the polaroid is softer and receive the damage easily, when making to adopt current tool to fix a position liquid crystal display panel, can cause the damage to the polaroid, thereby cause customer's unnecessary loss.

SUMMERY OF THE UTILITY MODEL

The technical problem to be solved by the utility model is as follows: the positioning jig for positioning the liquid crystal panel is provided aiming at the problem that the existing positioning jig for positioning the liquid crystal panel can damage the liquid crystal panel during positioning.

In order to solve the above technical problem, an embodiment of the present invention provides a positioning fixture for positioning a liquid crystal panel, including a supporting component, a first driving component, a second driving component, a first positioning component, a second positioning component, and a third positioning component; the supporting component is used for supporting the liquid crystal panel;

the first positioning assembly and the second positioning assembly can move in opposite directions under the driving of the first driving assembly so as to abut against two opposite first side walls of the liquid crystal panel respectively; the third positioning assembly can abut against a second side wall of the liquid crystal panel, which is adjacent to the first side wall, under the driving of the second driving assembly and push the liquid crystal panel to move for a certain distance;

the first positioning component comprises a first positioning block, and the first positioning block is provided with a first plane abutted with the first side wall; the second positioning assembly comprises a second positioning block, and the second positioning block is provided with a second plane abutted against the other first side wall; the third positioning assembly comprises a third positioning block, and the third positioning block is used for being abutted to the second side wall.

Optionally, a first chamfer connected with the first plane is arranged on the first positioning block; and a second chamfer connected with the second plane is arranged on the second positioning block.

Optionally, the angle of the first chamfer and the angle of the second chamfer are theta, and the angle range of theta is 10 DEG-theta-30 deg.

Optionally, the first positioning assembly further includes a first supporting member, a first fixing block, and a buffering member, the first supporting member is disposed at an output end of the first driving assembly, the first positioning block is slidably disposed on the first supporting member, the first fixing block is fixedly disposed on the first supporting member and located on a side of the first positioning block away from the liquid crystal panel, and the buffering member is disposed between the first positioning block and the first fixing block.

Optionally, be provided with excessive pressure detection device on the first support piece, excessive pressure detection device includes response piece and sensor, the sensor sets up one side that deviates from of first fixed block first locating block, the first end of response piece with first locating block is connected, when first locating block receives and surpasss predetermined power the second end of response piece can move to the response end of sensor.

Optionally, the second positioning assembly further includes a second supporting member, the second positioning block is fixedly disposed on the second supporting member, and the second supporting member is disposed at the output end of the first driving assembly.

Optionally, the first positioning component is provided with a plurality of positioning components; the second locating component is provided with a plurality of locating components.

Optionally, the first drive assembly comprises a first drive member, a first transmission assembly and a second transmission assembly; the first transmission assembly comprises a first lead screw seat, a first lead screw nut and a first lead screw, the first lead screw is rotatably connected to the first lead screw seat, the first lead screw nut is in threaded connection with the first lead screw, and the first positioning assembly is arranged on the first lead screw nut;

the second transmission assembly comprises a second lead screw seat, a second lead screw nut and a second lead screw, the second lead screw is rotatably connected to the second lead screw seat, the second lead screw nut is in threaded connection with the second lead screw, and the second positioning assembly is arranged on the second lead screw nut;

the first lead screw and the second lead screw are connected through a coupler, and the first driving piece is used for driving the first lead screw and the second lead screw to rotate so that the first lead screw nut and the second lead screw nut can be close to each other or be far away from each other.

Optionally, the second driving assembly includes a second driving member and a mounting table, the third positioning block is disposed on the mounting table, and the mounting table is disposed at an output end of the second driving member.

Optionally, the supporting assembly includes a mounting frame, a conveying shaft rotatably mounted on the mounting frame, and a third driving member for driving the conveying shaft to rotate to convey the liquid crystal panel when the first positioning assembly and the second positioning assembly release the liquid crystal panel.

Compared with the prior art, the positioning jig provided by the embodiment of the utility model has the advantages that the first positioning block with the first plane, the second positioning block with the second plane and the third positioning block are adopted to position the liquid crystal panel, the contact areas between the first positioning block and the liquid crystal panel and between the second positioning block and the liquid crystal panel can be increased due to the surface contact between the first positioning block and the liquid crystal panel, so that the pressure between the liquid crystal panel and the first positioning block and the pressure between the second positioning block can be effectively reduced during positioning, the damage of the first positioning assembly, the second positioning assembly and the third positioning assembly to the liquid crystal panel can be effectively avoided, the positioning jig is suitable for positioning of the existing liquid crystal panel and is more suitable for the liquid crystal panel with the polarizer, part of the polarizer protrudes out of the side wall of the liquid crystal panel main body, and the first driving assembly can drive the first positioning assembly and the second positioning assembly to move oppositely to clamp the liquid crystal panel And the three sides of the liquid crystal panel are positioned by matching with the third positioning component.

Drawings

Fig. 1 is a schematic structural diagram of a positioning fixture according to an embodiment of the present invention;

fig. 2 is a schematic partial structural view of a positioning fixture according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a first positioning assembly, a second positioning assembly and a third positioning assembly according to an embodiment of the present invention;

FIG. 4 is a schematic view of the structure of FIG. 3 from another perspective;

FIG. 5 is a schematic structural view of a first positioning block and a second positioning block;

FIG. 6 is a schematic structural view of another view of the first positioning block and the second positioning block;

FIG. 7 is a reference view showing a state where the first positioning member abuts against the liquid crystal panel;

FIG. 8 is a schematic structural view of a first positioning assembly;

fig. 9 is a partial structural schematic view of the first positioning assembly.

The reference numerals in the specification are as follows:

1. a support assembly; 11. a mounting frame; 12. a delivery shaft; 13. a drive shaft;

2. a first drive assembly; 21. a first driving member;

22. a first transmission assembly; 221. a first screw base; 222. a first lead screw nut; 223. a first lead screw; 224. a first slide rail assembly; 225. a first carriage;

23. a second transmission assembly; 231. a second screw base; 232. a second feed screw nut; 233. a second lead screw; 234. a second slide rail assembly; 235. a second carriage;

24. a coupling; 25. mounting a plate;

3. a second drive assembly; 31. a second driving member; 32. an installation table;

4. a first positioning assembly; 41. a first positioning block; 411. a first plane; 412. a first chamfer; 42. a first support member; 43. a first fixed block; 44. a buffer member; 45. an overvoltage detection device; 451. a sensing member; 452. a sensor; 46. a guide bar;

5. a second positioning assembly; 51. a second positioning block; 511. a second plane; 512. a second chamfer; 52. a second support member;

6. a third positioning assembly; 61. a third positioning block;

7. a liquid crystal panel.

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects solved by the present invention more clearly apparent, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the utility model and are not intended to limit the utility model.

As shown in fig. 1 to 5, a positioning fixture for positioning a liquid crystal panel according to an embodiment of the present invention includes a supporting assembly 1, a first driving assembly 2, a second driving assembly 3, a first positioning assembly 4, a second positioning assembly 5, and a third positioning assembly 6; the support member 1 is for supporting a liquid crystal panel 7;

the first positioning component 4 and the second positioning component 5 can move in opposite directions under the driving of the first driving component 2 so as to respectively abut against two opposite first side walls of the liquid crystal panel 7; the third positioning assembly 6 can abut against a second side wall of the liquid crystal panel 7 adjacent to the first side wall under the driving of the second driving assembly 3 and push the liquid crystal panel 7 to move for a certain distance;

the first positioning component 4 comprises a first positioning block 41, wherein the first positioning block 41 is provided with a first plane 411 abutted with a first side wall; the second positioning assembly 5 includes a second positioning block 51, the second positioning block 51 has a second plane 511 abutting against the other first sidewall; the third positioning assembly 6 includes a third positioning block 61, and the third positioning block 61 is used for abutting against the second sidewall.

Preferably, the third positioning block 61 has a third plane abutting against the second sidewall to increase the contact area between the third positioning block 61 and the liquid crystal panel 7.

It should be understood that when the positioning jig of the present invention is used for positioning a liquid crystal panel having a polarizer and a part of the polarizer protrudes out of the sidewall of the panel body, the first positioning assembly, the second positioning assembly and the third positioning assembly are abutted against the sidewall of the polarizer; when the positioning jig of the utility model is used for positioning the liquid crystal panel without the polaroid or the liquid crystal panel with the polaroid but without the polaroid protruding out of the side wall of the panel main body, the first positioning assembly, the second positioning assembly and the third positioning assembly are abutted against the side wall of the panel main body of the liquid crystal panel.

Compared with the prior art, the positioning jig for positioning the liquid crystal panel provided by the embodiment of the utility model positions the liquid crystal panel 7 by adopting the first positioning block 41 with the first plane 411, the second positioning block 51 with the second plane 511 and the third positioning block 61, and can increase the contact area between the first positioning block 41 and the liquid crystal panel 7 and between the second positioning block 51 and the liquid crystal panel 7 due to the surface contact between the first positioning block 41 and the second positioning block 51 and the liquid crystal panel 7, thereby effectively reducing the pressure between the liquid crystal panel 7 and the first positioning block 41 and the second positioning block 51 during positioning, effectively avoiding the damage of the first positioning element 4, the second positioning element 5 and the third positioning element 6 to the liquid crystal panel 7, not only being suitable for the positioning of the prior liquid crystal panel 7, but also being suitable for the liquid crystal panel 7 with a polarizer and a part of which protrudes out of the side wall of the main body of the liquid crystal panel 7, the first driving assembly 2 is arranged to drive the first positioning assembly 4 and the second positioning assembly 5 to move towards each other so as to clamp the liquid crystal panel 7 and cooperate with the third positioning assembly 6 to realize three-side positioning of the liquid crystal panel 7.

Taking a regular rectangular liquid crystal panel with a positioning polaroid protruding out of a panel main body as an example, the working process of the utility model when positioning the liquid crystal panel is as follows: the liquid crystal panel is placed on the supporting component 1, the first driving component 2 drives the first positioning component 4 and the second positioning component 5 to move oppositely so that the first positioning component 4 and the second positioning component 5 abut against the side walls of the two long edges of the polarizer of the liquid crystal panel 7 respectively, the second driving component 3 drives the third positioning component 6 to abut against the side walls of the short edges of the polarizer of the liquid crystal panel 7 and push the liquid crystal panel 7 to move for a certain distance (it should be understood that although the first positioning component 4 and the second positioning component 5 abut against the side walls of the two long edges of the polarizer of the liquid crystal panel 7, the first positioning component 4 and the second positioning component 5 only play a limiting role, and are not clamped completely so that the liquid crystal panel 7 cannot be pushed by the third positioning component 6), and finally three-edge positioning of the liquid crystal panel is realized.

Preferably, the first positioning block 41, the second positioning block 51 and the third positioning block 61 are made of an antistatic material, such as PEEK (polyetheretherketone).

Preferably, as shown in fig. 3, the first positioning member 4 is provided in plurality; the second positioning member 5 is provided in plurality. The liquid crystal panel 7 can be positioned more stably and the positioning effect is better by arranging the first positioning assemblies 4 and the second positioning assemblies 5.

In one embodiment, as shown in fig. 5, the first positioning block 41 is provided with a first chamfer 412 connected with the first plane 411; the second positioning block 51 is provided with a second chamfer 512 connected to the second plane 511. Through setting up the chamfer, can play the effect of guide liquid crystal display panel for when third locating component 6 promoted liquid crystal display panel 7 and removed a distance, the corner of liquid crystal display panel 7 can not be with the following first locating piece 41 and the second locating piece 51 that will touch with liquid crystal display panel 7 each other and push up and lead to the problem of liquid crystal display panel collapse angle.

Preferably, as shown in FIGS. 5 and 6, the angle of the first chamfer 412 and the angle of the second chamfer 512 are θ, with θ being in the range of 10 ° ≦ θ ≦ 30 °. Among them, the guiding effect is the best when θ is 20 °.

In an embodiment, as shown in fig. 7 to 9, the first positioning assembly 4 further includes a first supporting member 42, a first fixing block 43 and a buffering member 44, the first supporting member 42 is disposed at the output end of the first driving assembly 2, the first positioning block 41 is slidably disposed on the first supporting member 42, the first fixing block 43 is fixedly disposed on the first supporting member 42 and located at a side of the first positioning block 41 facing away from the liquid crystal panel 7, and the buffering member 44 is disposed between the first positioning block 41 and the first fixing block 43. The buffering function can be achieved by arranging the buffering member 44, and the liquid crystal panel or the pressure ring polarizer can be effectively prevented from being crushed by the first positioning assembly 4.

In an embodiment, as shown in fig. 9, the first positioning assembly 4 further includes a guide rod 46, the guide rod 46 is slidably disposed on the first fixing block 43, the first fixing block 41 is disposed at one end of the guide rod 46, the buffer 44 is a cylindrical compression spring, and the cylindrical compression spring is sleeved on the guide rod 46.

In an embodiment, as shown in fig. 8 and 9, the first supporting member 42 is provided with an overvoltage detection device 45, the overvoltage detection device 45 includes a sensing element 451 and a sensor 452, the sensor 452 is disposed on a side of the first fixing block 43 away from the first positioning block 41, a first end of the sensing element 451 is connected to the first positioning block 41, and a second end of the sensing element 451 can move to the sensing end of the sensor 452 when the first positioning block 41 is subjected to a force exceeding a predetermined force. The overvoltage detection device 45 is arranged to prevent the first positioning component 4 and the second positioning component 5 from exerting excessive clamping force on the liquid crystal panel to damage the liquid crystal panel, when the first positioning block 41 is subjected to force exceeding a preset value, the second end of the sensing component 451 moves to the sensing end of the sensor 452, the sensing end of the sensor 452 senses the sensing component 451 and feeds a signal back to the control device, and the control device controls the first driving component 2 to stop driving the first positioning component 4 and the second positioning component 5 to move towards each other.

In an embodiment, as shown in fig. 3, the second positioning assembly 5 further includes a second supporting element 52, the second positioning block 51 is fixedly disposed on the second supporting element 52, and the second supporting element 52 is disposed at the output end of the first driving assembly 2. The first driving assembly 2 drives the second supporting element 52 to move, so as to drive the second positioning block 51 to move.

In an embodiment, as shown in fig. 4, the first driving assembly 2 comprises a first driving member 21, a first transmission assembly 22 and a second transmission assembly 23; the first transmission assembly 22 comprises a first lead screw seat 221, a first lead screw nut 222 and a first lead screw 223, the first lead screw 223 is arranged on the mounting plate 25, the first lead screw 221 is rotatably connected to the first lead screw seat 223, the first lead screw nut 222 is in threaded connection with the first lead screw 223, and the first positioning assembly 4 is arranged on the first lead screw nut 222.

The second transmission assembly 23 comprises a second lead screw seat 231, a second lead screw nut 232 and a second lead screw 233 which are arranged on the mounting plate 25, the second lead screw 233 is rotatably connected to the second lead screw seat 231, the second lead screw nut 232 is in threaded connection with the second lead screw 233, and the second positioning assembly 5 is arranged on the second lead screw nut 232;

the first lead screw 223 and the second lead screw 233 are connected through the coupling 24, and the first driving member 21 is used for driving the first lead screw 223 and the second lead screw 233 to rotate so as to enable the first lead screw nut 222 and the second lead screw nut 232 to approach or separate from each other. Wherein, the first driving member 21 can adopt a motor, the motor drives the second lead screw 233 to rotate through a belt transmission mechanism, and because the first lead screw 223 and the second lead screw 233 are connected through the coupling 24, the first lead screw 223 also rotates, thereby enabling the first lead screw nut 222 and the second lead screw nut 232 to be close to each other or be far away from each other.

Preferably, as shown in fig. 3, a first slide rail assembly 224 and a second slide rail assembly 234 are disposed on the mounting plate 25, the first sliding frame 225 is slidably disposed on the mounting plate 25 through the first slide rail assembly 224, the first sliding frame 225 is connected to the first lead screw nut 222, and the first positioning assembly 4 is disposed on the first sliding frame 225; the second sliding frame 235 is slidably disposed on the mounting plate 25 through a second sliding rail assembly 234, the second sliding frame 235 is connected to the second lead screw nut 232, and the second positioning assembly 5 is disposed on the second sliding frame 235. The installation of a plurality of first positioning assemblies 4 and a plurality of second positioning assemblies 5 can be facilitated by providing the first and second carriages 225 and 235, and the first and second positioning assemblies 4 and 5 can be made more stable during movement by providing the first and second slide rail assemblies 224 and 234.

In an embodiment, as shown in fig. 3, the second driving assembly 3 includes a second driving member 31 and a mounting table 32, the third positioning block 61 is disposed on the mounting table 32, and the mounting table 32 is disposed at an output end of the second driving member 31. Wherein, the second driving member 31 can adopt a linear module.

In one embodiment, as shown in fig. 1 and 2, the supporting assembly 1 includes a mounting frame 11, a conveying shaft 12, and a third driving member (not shown in the drawings), the conveying shaft 12 is rotatably mounted on the mounting frame 11, the conveying shaft 12 supports the liquid crystal panel 7, and the third driving member is used for driving the conveying shaft 12 to rotate to convey the liquid crystal panel 7 out when the first positioning assembly 4 and the second positioning assembly 5 release the liquid crystal panel 7. Wherein, can adopt the driven mode of magnetic force wheel to drive and carry axle 12 to rotate, it sets up transmission shaft 13 to rotate on mounting bracket 11, set up first magnetic force wheel on transmission shaft 13, serve at the transport axle 12 and set up the second magnetic force wheel, first magnetic force wheel and second magnetic force wheel correspond the setting, the third driving piece passes through drive mechanism and drives transmission shaft 13 and rotate, thereby drive through the magnetic force effect of first magnetic force wheel and second magnetic force wheel and carry axle 12 to rotate, through adopting the driven mode of magnetic force wheel, power transmission capacity is high, noiselessness and easily installation. The magnetic wheel may be a conventional magnetic wheel, and therefore the operation principle thereof is not described herein. The third driving member may adopt a motor, and the motor shaft may be directly and fixedly connected to the transmission shaft 13, or the transmission shaft 13 may be driven to rotate by a conventional transmission manner such as gear transmission or belt transmission.

The present invention is not limited to the above preferred embodiments, and any modifications, equivalent substitutions and improvements made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A positioning jig for positioning a liquid crystal panel is characterized by comprising a supporting assembly, a first driving assembly, a second driving assembly, a first positioning assembly, a second positioning assembly and a third positioning assembly; the supporting component is used for supporting the liquid crystal panel;

the first positioning assembly and the second positioning assembly can move in opposite directions under the driving of the first driving assembly so as to abut against two opposite first side walls of the liquid crystal panel respectively; the third positioning assembly can abut against a second side wall of the liquid crystal panel, which is adjacent to the first side wall, under the driving of the second driving assembly and push the liquid crystal panel to move for a certain distance;

the first positioning component comprises a first positioning block, and the first positioning block is provided with a first plane abutted with the first side wall; the second positioning assembly comprises a second positioning block, and the second positioning block is provided with a second plane abutted against the other first side wall; the third positioning assembly comprises a third positioning block, and the third positioning block is used for being abutted to the second side wall.

2. The positioning fixture for positioning a liquid crystal panel according to claim 1, wherein a first chamfer connected to the first plane is provided on the first positioning block; and a second chamfer connected with the second plane is arranged on the second positioning block.

3. The positioning jig for positioning a liquid crystal panel according to claim 2, wherein the angle of the first chamfer and the angle of the second chamfer are θ, and the angle range of θ is 10 ° ≦ θ ≦ 30 °.

4. The positioning fixture for positioning a liquid crystal panel according to claim 1, wherein the first positioning assembly further comprises a first supporting member, a first fixing block and a buffer member, the first supporting member is disposed at an output end of the first driving assembly, the first positioning block is slidably disposed on the first supporting member, the first fixing block is fixedly disposed on the first supporting member and located on a side of the first positioning block facing away from the liquid crystal panel, and the buffer member is disposed between the first positioning block and the first fixing block.

5. The positioning fixture for positioning the liquid crystal panel according to claim 4, wherein the first supporting member is provided with an over-voltage detection device, the over-voltage detection device comprises an induction member and a sensor, the sensor is disposed on a side of the first fixing block away from the first fixing block, a first end of the induction member is connected with the first fixing block, and a second end of the induction member can move to an induction end of the sensor when the first fixing block is subjected to a force exceeding a predetermined force.

6. The positioning fixture for positioning a liquid crystal panel according to claim 1, wherein the second positioning assembly further comprises a second supporting member, the second positioning block is fixedly disposed on the second supporting member, and the second supporting member is disposed at an output end of the first driving assembly.

7. The positioning jig for positioning a liquid crystal panel according to claim 1, wherein a plurality of the first positioning members are provided; the second locating component is provided with a plurality of locating components.

8. The positioning fixture for positioning a liquid crystal panel according to claim 1, wherein the first driving assembly comprises a first driving member, a first transmission assembly and a second transmission assembly; the first transmission assembly comprises a first lead screw seat, a first lead screw nut and a first lead screw, the first lead screw is rotatably connected to the first lead screw seat, the first lead screw nut is in threaded connection with the first lead screw, and the first positioning assembly is arranged on the first lead screw nut;

the second transmission assembly comprises a second lead screw seat, a second lead screw nut and a second lead screw, the second lead screw is rotatably connected to the second lead screw seat, the second lead screw nut is in threaded connection with the second lead screw, and the second positioning assembly is arranged on the second lead screw nut;

the first lead screw and the second lead screw are connected through a coupler, and the first driving piece is used for driving the first lead screw and the second lead screw to rotate so that the first lead screw nut and the second lead screw nut can be close to each other or be far away from each other.

9. The positioning fixture for positioning a liquid crystal panel according to claim 1, wherein the second driving assembly comprises a second driving member and a mounting table, the third positioning block is disposed on the mounting table, and the mounting table is disposed at an output end of the second driving member.

10. The positioning apparatus for positioning liquid crystal panels as claimed in claim 1, wherein the supporting assembly includes a mounting frame, a conveying shaft rotatably mounted on the mounting frame, the conveying shaft supporting the liquid crystal panel, and a third driving member for driving the conveying shaft to rotate to convey the liquid crystal panel when the first positioning assembly and the second positioning assembly release the liquid crystal panel.

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