CN211197504U - High accuracy conveyor is shaded - Google Patents

Abstract

The utility model discloses a high-precision backlight conveying device, which comprises a backlight conveying component and an adsorption transfer component, wherein the backlight conveying component is arranged on a machine platform, at least two clearance grooves are arranged on a conveying belt of the backlight conveying component, backlight to be assembled is placed on the conveying belt, and the conveying belt transmits forwards; the adsorption transfer assembly is arranged below the backlight conveying assembly and comprises at least two transfer strips, the transfer strips are correspondingly arranged in the clearance groove, and after the backlight moves to the transfer strips in a linear mode, the transfer strips move from the lower side and adsorb and fix the bottom of the backlight, the backlight is driven to move along the clearance groove in a linear mode, and the backlight is transferred forwards. The utility model discloses an automatic high accuracy is carried and the transfer is shaded, has promoted the transport precision that is shaded effectively, has improved the transfer linking degree.

Description

High accuracy conveyor is shaded

Technical Field

The utility model relates to an automated manufacturing field indicates a high accuracy conveyor is shaded very much.

Background

The flat panel display device is a man-machine interaction carrier for realizing character and image display, and mainly comprises a display module, a backlight module and a touch module, wherein the display module comprises a display panel, a polaroid, a driving chip IC, a circuit board PCB, an FPC and the like, the production of the flat panel display device comprises a front section array, a box forming process and a rear section module assembling process, the front section process is used for producing the display panel, the rear section process is used for assembling the display panel, the polaroid, the backlight module, the touch module and the like into the flat panel display device, the production equipment of the front section process is mainly provided by Japan, Korea and American enterprises at present and cannot be produced by oneself at home, in the production equipment of the rear section process, a small number of enterprises in China have realized breakthrough and are gradually realizing replacement of imported equipment at present, the display panel is a main component for realizing the display function, the polaroids need to be attached to L CD panels at two sides of the panel, one polaroid at each of the upper side and the lower side, and the O L.

The assembly process of the back section of the flat panel display comprises three parts which need to be jointed and assembled, namely a backlight-L CD-cover plate from bottom to top, wherein the assembly of the backlight and L CD is a key process of the assembly of the back section of the flat panel display, and a film body covered on the jointing surface of the backlight and the L CD needs to be torn off in the jointing and assembling process of the backlight and the L CD.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is not enough to above-mentioned prior art, provide one kind and realized that automatic high accuracy is carried and the transfer is shaded, promoted the transport precision in a poor light effectively, improved the high accuracy conveyor that is shaded of transfer linking degree.

The utility model adopts the following technical scheme: a backlight high-precision conveying device comprises a backlight conveying assembly and an adsorption transfer assembly, wherein the backlight conveying assembly is arranged on a machine table, at least two clearance grooves are formed in a conveying belt of the backlight conveying assembly, backlight to be assembled is placed on the conveying belt, and the conveying belt is conveyed forwards; the adsorption transfer assembly is arranged below the backlight conveying assembly and comprises at least two transfer strips, the transfer strips are correspondingly arranged in the clearance groove, and after the backlight moves to the transfer strips in a linear mode, the transfer strips move from the lower side and adsorb and fix the bottom of the backlight, the backlight is driven to move along the clearance groove in a linear mode, and the backlight is transferred forwards.

Preferably, the backlight conveying assembly comprises a conveying support, a conveying motor, a conveying roller, a conveying belt and a conveying strip, wherein the conveying support is arranged on the machine table; the conveying motor is arranged on one side of the conveying support.

Preferably, the conveying rollers comprise two conveying rollers, the two conveying rollers are arranged on the conveying support in parallel at intervals and are rotatably connected with the conveying support, one conveying roller is connected with the output end of the conveying motor, and the conveying motor drives the conveying rollers to rotate.

Preferably, the conveying belt is sleeved on the two conveying rollers, and the conveying rollers drive the conveying belt to move forwards when rotating; three clearance grooves are arranged on the conveying belt in parallel at intervals, and the clearance grooves penetrate through the conveying roller arranged on the rear side of the conveying belt in the moving direction.

Preferably, the conveying strips comprise two strips, and the two conveying strips are arranged between two adjacent clearance grooves at intervals in parallel.

Preferably, the adsorption transfer assembly comprises a transfer linear module, a transfer linear slide seat, a transfer lifting cylinder and a transfer strip, wherein the transfer linear module is arranged below the conveyor belt along the movement direction of the conveyor belt and extends to the outer side of the conveyor belt; the transfer linear sliding seat is connected to the output end of the transfer linear module and is driven by the transfer linear module to move linearly.

Preferably, the transfer lifting cylinder is arranged on the transfer linear sliding seat, and the output end of the transfer lifting cylinder is arranged upwards; the three transfer strips are arranged on the output end of the transfer lifting cylinder at intervals in parallel, and the transfer strips and the clearance grooves are correspondingly arranged in the vertical direction.

Preferably, the top of the transfer bar is provided with at least two vacuum suction holes, the transfer bar passes through the clearance groove from the lower part and is close to the bottom surface of the backlight, and the backlight is adsorbed and fixed through the vacuum suction holes.

The beneficial effects of the utility model reside in that:

the utility model discloses defect and not enough independent research and development to prior art existence have designed one kind and have realized being shaded automatic high accuracy and carry and the transfer, have promoted the transport precision in a poor light effectively, have improved the high accuracy conveyor in a poor light of transfer linking degree.

The utility model comprises a backlight conveying component and an adsorption transfer component, wherein the backlight conveying component takes a belt-shaped conveying belt as a conveying carrier, and the backlight conveying component is arranged on the conveying belt and is conveyed forwards through the conveying belt; the difference from the traditional conveying belt is that the conveying belt of the utility model is provided with three parallel spaced-apart empty-avoiding grooves which vertically penetrate through the conveying belt, and a conveying strip with smaller width is formed between the adjacent empty-avoiding grooves; one end of the clearance groove is tensioned by the whole conveying roller, the conveying roller is connected with the output end of the conveying motor, and when the conveying roller rotates, the conveying belt and the conveying strip are driven to move linearly, so that the backlight is conveyed forwards; the other end of the empty-avoiding groove is of an open structure, the conveying roller at the end is divided into four sections by the empty-avoiding groove, and the sectional structural design of the seed groove can ensure normal linear transportation of backlight. Compared with the ground, the utility model discloses an adsorb transfer subassembly sets up in the below of conveying subassembly in a poor light, adsorb transfer subassembly regard as power drive part with transfer straight line module, through connecting transfer straight line slide on transferring straight line module output as the carrier, transfer the lift cylinder that the output set up upwards on transferring straight line slide, transfer and be connected with on the output of transferring the lift cylinder and transfer the strip, transfer the strip and include three, three transfer the strip and parallel interval and connect in an organic whole, three transfer the strip and respectively correspond and set up in the groove below avoiding empty, transfer straight line module and transfer lift cylinder drive three and transfer the whole straight line of strip or elevating movement; a plurality of vacuum suction holes are formed in the horizontal plane at the top of the transfer bar, the transfer bar rises from the lower part of the clearance groove, penetrates through the clearance groove and is close to the bottom surface of the backlight, and the backlight is adsorbed and fixed by the vacuum suction holes; when the conveying belt and the conveying strip drive the backlight to move linearly, the transfer strip adsorbs and fixes the backlight from the lower part and drives the backlight to move linearly synchronously, so that adsorption fixing force in the backlight conveying process is provided, the conditions of position offset, dislocation and the like in the backlight conveying process can be effectively ensured, and the backlight conveying precision is effectively improved; in addition, the backlight can be continuously and forwards conveyed to the backlight aligning and film tearing mechanism from the conveying belt through the supporting, adsorbing and transferring of the transferring strip and the conveying roller segmented at the other end of the conveying belt, so that the backlight aligning and film tearing mechanism can align the backlight and tear the backlight away from the surface film body, the effect of continuous conveying is achieved after the backlight is separated from the conveying belt, the seamless connection of backlight transmission is completed, and the backlight transferring efficiency is improved.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a second schematic perspective view of the present invention.

Fig. 3 is a third schematic view of a three-dimensional structure of the present invention.

Detailed Description

The invention will be further described with reference to the accompanying drawings:

as shown in fig. 1 to 3, the technical solution adopted by the present invention is as follows: a high-precision conveying appliance in a poor light, including conveying assembly 8 and absorbing and transferring the assembly 9 in a poor light, wherein, the above-mentioned conveying assembly 8 in a poor light is set up on the board 1, there are at least two empty grooves 86 to keep away on the conveyer belt 84 of the conveying assembly 8 in a poor light, the poor light to be assembled is put on conveyer belt 84, and the conveyer belt 84 transmits forward; the adsorption transfer assembly 9 is disposed below the backlight conveying assembly 8, the adsorption transfer assembly 9 includes at least two transfer bars 94, the transfer bars are correspondingly disposed in the clearance groove 86, and after the backlight moves linearly to the transfer bars 94, the transfer bars 94 move from below and adsorb and fix the bottom of the backlight, and drive the backlight to move linearly along the clearance groove 86, so as to transfer the backlight forward.

The backlight conveying assembly 8 comprises a conveying support 81, a conveying motor 82, a conveying roller 83, a conveying belt 84 and a conveying strip 85, wherein the conveying support 81 is arranged on the machine table 1; the conveying motor 82 is provided on one side of the conveying bracket 81.

The conveying rollers 83 comprise two conveying rollers 83, the two conveying rollers 83 are arranged on the conveying bracket 81 in parallel at intervals and are rotatably connected with the conveying bracket 81, one conveying roller 83 is connected with the output end of the conveying motor 82, and the conveying motor 82 drives the conveying rollers 83 to rotate.

The conveying belt 84 is sleeved on the two conveying rollers 83, and when the conveying rollers 83 rotate, the conveying belt 84 is driven to move forwards; three clearance grooves 86 are formed in the conveyor belt 84 at intervals in parallel, and the clearance grooves 86 penetrate the conveyor roller 83 provided on the rear side in the moving direction of the conveyor belt 84.

The conveying strips 85 include two strips, and the two conveying strips 85 are arranged between two adjacent clearance grooves 86 in parallel and at intervals.

The adsorption and transfer assembly 9 comprises a transfer linear module 91, a transfer linear slide carriage 92, a transfer lifting cylinder 93 and a transfer bar 94, wherein the transfer linear module 91 is arranged below the conveyor belt 84 along the movement direction of the conveyor belt 84 and extends to the outer side of the conveyor belt 84; the transfer linear slider 92 is connected to an output end of the transfer linear module 91, and is driven by the transfer linear module 91 to move linearly.

The transfer lifting cylinder 93 is arranged on the transfer linear sliding seat 92, and the output end of the transfer lifting cylinder is arranged upwards; the transfer bars 94 include three transfer bars 94, the three transfer bars 94 are disposed at the output end of the transfer lifting cylinder 93 in parallel at intervals, and the transfer bars 94 and the clearance grooves 86 are disposed in the vertical direction.

The top of the transfer bar 94 is provided with at least two vacuum suction holes 95, and the transfer bar 94 passes through the clearance groove 86 from the lower part and is close to the bottom surface of the backlight, and the backlight is sucked and fixed through the vacuum suction holes 95.

Further, the utility model designs a realize that automatic high accuracy is carried and the transfer is shaded, promoted the transport precision that is shaded effectively, improved the high accuracy conveyor that is shaded of transfer linking degree. The utility model comprises a backlight conveying component and an adsorption transfer component, wherein the backlight conveying component takes a belt-shaped conveying belt as a conveying carrier, and the backlight conveying component is arranged on the conveying belt and is conveyed forwards through the conveying belt; the difference from the traditional conveying belt is that the conveying belt of the utility model is provided with three parallel spaced-apart empty-avoiding grooves which vertically penetrate through the conveying belt, and a conveying strip with smaller width is formed between the adjacent empty-avoiding grooves; one end of the clearance groove is tensioned by the whole conveying roller, the conveying roller is connected with the output end of the conveying motor, and when the conveying roller rotates, the conveying belt and the conveying strip are driven to move linearly, so that the backlight is conveyed forwards; the other end of the empty-avoiding groove is of an open structure, the conveying roller at the end is divided into four sections by the empty-avoiding groove, and the sectional structural design of the seed groove can ensure normal linear transportation of backlight. Compared with the ground, the utility model discloses an adsorb transfer subassembly sets up in the below of conveying subassembly in a poor light, adsorb transfer subassembly regard as power drive part with transfer straight line module, through connecting transfer straight line slide on transferring straight line module output as the carrier, transfer the lift cylinder that the output set up upwards on transferring straight line slide, transfer and be connected with on the output of transferring the lift cylinder and transfer the strip, transfer the strip and include three, three transfer the strip and parallel interval and connect in an organic whole, three transfer the strip and respectively correspond and set up in the groove below avoiding empty, transfer straight line module and transfer lift cylinder drive three and transfer the whole straight line of strip or elevating movement; a plurality of vacuum suction holes are formed in the horizontal plane at the top of the transfer bar, the transfer bar rises from the lower part of the clearance groove, penetrates through the clearance groove and is close to the bottom surface of the backlight, and the backlight is adsorbed and fixed by the vacuum suction holes; when the conveying belt and the conveying strip drive the backlight to move linearly, the transfer strip adsorbs and fixes the backlight from the lower part and drives the backlight to move linearly synchronously, so that adsorption fixing force in the backlight conveying process is provided, the conditions of position offset, dislocation and the like in the backlight conveying process can be effectively ensured, and the backlight conveying precision is effectively improved; in addition, the backlight can be continuously and forwards conveyed to the backlight aligning and film tearing mechanism from the conveying belt through the supporting, adsorbing and transferring of the transferring strip and the conveying roller segmented at the other end of the conveying belt, so that the backlight aligning and film tearing mechanism can align the backlight and tear the backlight away from the surface film body, the effect of continuous conveying is achieved after the backlight is separated from the conveying belt, the seamless connection of backlight transmission is completed, and the backlight transferring efficiency is improved.

The embodiments of the present invention are only for describing the specific implementation thereof, and are not limited to the scope of protection thereof. The present invention is not limited to the above embodiments, but can be modified in various ways without departing from the scope of the present invention.

Claims (8)

1. The utility model provides a high accuracy conveyor is shaded which characterized in that: the device comprises a backlight conveying assembly (8) and an adsorption transfer assembly (9), wherein the backlight conveying assembly (8) is arranged on a machine table (1), at least two clearance grooves (86) are formed in a conveying belt (84) of the backlight conveying assembly (8), backlight to be assembled is placed on the conveying belt (84), and the conveying belt (84) is conveyed forwards; the adsorption and transfer assembly (9) is arranged below the backlight conveying assembly (8), the adsorption and transfer assembly (9) comprises at least two transfer strips (94), the transfer strips are correspondingly arranged in the clearance groove (86), after the backlight moves to the transfer strips (94) in a straight line, the transfer strips (94) move from the lower part and adsorb and fix the bottom of the backlight, and then the backlight is driven to move along the clearance groove (86) in a straight line, so that the backlight is transferred forwards.

2. The backlight high-precision conveying device according to claim 1, characterized in that: the backlight conveying assembly (8) comprises a conveying support (81), a conveying motor (82), a conveying roller (83), a conveying belt (84) and a conveying strip (85), wherein the conveying support (81) is arranged on the machine table (1); the conveying motor (82) is arranged on one side of the conveying bracket (81).

3. The backlight high-precision conveying device according to claim 2, characterized in that: the conveying rollers (83) comprise two conveying rollers, the two conveying rollers (83) are parallelly arranged on the conveying support (81) at intervals and rotatably connected with the conveying support (81), one conveying roller (83) is connected with the output end of the conveying motor (82), and the conveying motor (82) drives the conveying rollers (83) to rotate.

4. A backlight high-precision conveying device according to claim 3, characterized in that: the conveying belt (84) is sleeved on the two conveying rollers (83), and the conveying rollers (83) drive the conveying belt (84) to move forwards when rotating; three clearance grooves (86) are formed in the conveying belt (84) at intervals in parallel, and the clearance grooves (86) penetrate through conveying rollers (83) arranged on the rear side of the conveying belt (84) in the moving direction.

5. The backlight high-precision conveying device according to claim 4, characterized in that: the conveying strips (85) comprise two strips, and the two conveying strips (85) are arranged between two adjacent clearance grooves (86) at intervals in parallel.

6. The backlight high-precision conveying device according to claim 5, wherein: the adsorption and transfer assembly (9) comprises a transfer linear module (91), a transfer linear sliding seat (92), a transfer lifting cylinder (93) and a transfer strip (94), wherein the transfer linear module (91) is arranged below the conveying belt (84) along the movement direction of the conveying belt (84) and extends to the outer side of the conveying belt (84); the transfer linear slide (92) is connected to the output end of the transfer linear module (91) and is driven by the transfer linear module (91) to move linearly.

7. The backlight high-precision conveying device according to claim 6, wherein: the transfer lifting cylinder (93) is arranged on the transfer linear sliding seat (92), and the output end of the transfer lifting cylinder is arranged upwards; the transfer strips (94) comprise three strips, the three transfer strips (94) are arranged on the output end of the transfer lifting cylinder (93) in parallel at intervals, and the transfer strips (94) and the clearance grooves (86) are correspondingly arranged along the vertical direction.

8. The backlight high-precision conveying device according to claim 7, characterized in that: the top of the transfer bar (94) is provided with at least two vacuum suction holes (95), the transfer bar (94) passes through the clearance groove (86) from the lower part to be close to the bottom surface of the backlight, and the backlight is adsorbed and fixed through the vacuum suction holes (95).

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