CN221089196U

CN221089196U - Double-sided cutting device with one-time tool setting

Info

Publication number: CN221089196U
Application number: CN202322678661.7U
Authority: CN
Inventors: 曾林生; 郭俊; 方阔; 郭远石; 陈金鑫; 曾家旺
Original assignee: Ganzhou Dijing Photoelectric Technology Co ltd
Current assignee: Ganzhou Dijing Photoelectric Technology Co ltd
Priority date: 2023-10-08
Filing date: 2023-10-08
Publication date: 2024-06-07
Anticipated expiration: 2033-10-08

Abstract

The utility model relates to the technical field of cutting devices, in particular to a one-time tool setting double-sided cutting device. Technical problems: in the use process of the cutting device, the cutting device can adopt two times of counterpoint cutting, and the accuracy consistency of the two times of cutting is difficult to control, so that the cutting product is extremely easy to produce bad problems such as edge dislocation, edge breakage and the like. The technical scheme is as follows: the one-time tool setting double-sided cutting device comprises a cutting mounting plate, a Y-direction grating ruler control device, an X-direction control transmission component, a synchronous motion component, a Z-direction adjusting cutting component and a CCD positioning device. According to the utility model, the Y-direction grating ruler control device is arranged to automatically arrange the cutters and accurately move according to signals fed back by the grating ruler, so that accurate positioning movement of the cutter in the Y direction is ensured, the X-direction control transmission assembly can drive the synchronous motion assembly to synchronously move the two groups of Z-direction adjustment cutting assemblies, the interpolation cutting of glass is realized, the effect of one-time cutter setting cutting is achieved, and the CF surface and the TFT surface can be cut simultaneously.

Description

Double-sided cutting device with one-time tool setting

Technical Field

The utility model relates to the technical field of cutting devices, in particular to a one-time tool setting double-sided cutting device.

Background

With the development of new technologies such as 5G, the vehicle-mounted display has wide market prospect, the scene air strength of the TFT-LCD industry is continuously improved, and the shipment area is frequently created and increased. At present, most TFT-LCD products have larger size or the TFT-LCD products are damaged and cut for thinning in the thinning process, and in the manufacturing process of TFT-LCD panel glass, cutting and splitting are very important, so that the production yield is directly determined. The traditional cutting process for TFT-LCD panel glass is to cut one side by a cutter, turn over the other side by a turnover machine, cut again, split by a splitting machine, and has the defects of complex process, more production line equipment and difficult control of the accuracy consistency of the two cuts. Aiming at the problems, the utility model provides a cutter setting cutting process of TFT-LCD glass, fragments are reduced, the yield is improved, the shipment requirement is met, the existing cutting tool is urgently needed to be upgraded and modified, the cutting process of TFT-LCD panel glass by a company at present is to cut one surface by a cutting machine, then turn over to the other surface by a turnover machine, cut again, then split by a splitting machine, the process is complex, production line equipment is more, two times of para-cutting are adopted, the precision consistency of the two times of cutting is difficult to control, the cut products are extremely easy to produce defects such as edge dislocation, edge breakage and the like, so that a cutting device capable of achieving one-side para-position double-side cutting is urgently needed, CF surfaces and TFT surfaces can be cut simultaneously, equipment is effectively simplified, and the efficiency is improved.

Disclosure of utility model

In order to overcome the defects that in the using process of the cutting device, two times of alignment cutting are adopted, and the accuracy consistency of the two times of cutting is difficult to control, so that the cut product is extremely easy to produce wrong edges, broken edges and the like.

The technical scheme of the utility model is as follows: the one-time tool setting double-sided cutting device comprises a cutting mounting plate, a Y-direction grating ruler control device, an X-direction control transmission component, a synchronous motion component, a Z-direction adjustment cutting component and a CCD positioning device; the Y-direction grating ruler control device capable of automatically arranging cutters and accurately moving according to signals fed back by the grating ruler is arranged on the outer side of the cutting mounting plate; an X-direction control transmission assembly for driving and controlling the trend is arranged on the outer side of the cutting mounting plate; the outside of the X-direction control transmission component is provided with a synchronous motion component; the outer side of the synchronous motion assembly is provided with a Z-direction adjusting and cutting assembly which is used for carrying out interpolation cutting on glass in cooperation with the X-direction control transmission assembly and the synchronous motion assembly; and a CCD positioning device is arranged on the outer side of the cutting mounting plate.

Preferably, when the TFT-LCD panel glass is required to be cut, the Y-direction grating ruler control device can be used for automatically arranging cutters and accurately moving according to signals fed back by the grating ruler, so that accurate positioning and moving of the Y-direction grating ruler can be ensured, the X-direction control transmission assembly can drive the synchronous motion assembly to synchronously move the two groups of Z-direction adjustment cutting assemblies, the interpolation cutting of the glass is realized, the effect of one-time cutter setting cutting is achieved, the CF face and the TFT face can be cut simultaneously, equipment is effectively simplified, and the efficiency is improved.

Preferably, the X-direction control transmission assembly comprises a motor mounting frame plate, an X-direction motor, a motor rotating rod, a driving belt pulley, a transmission belt, a driven belt pulley and a rotating connecting rod; a motor mounting frame plate is arranged on the outer side of the cutting mounting plate; an X-direction motor is arranged on the outer side of the motor mounting frame plate; the output end of the X-direction motor is provided with a motor rotating rod, and the X-direction motor is started to drive the motor rotating rod to rotate.

Preferably, a driving belt pulley is arranged on the outer side of the motor rotating rod; the outer side of the driving belt pulley is in transmission connection with a transmission belt; the outer side of the driving belt is provided with a driven belt pulley with the same specification as the driving belt pulley; the driven pulley outside is provided with the rotation yoke lever, and the driving pulley can drive the driving belt and move to make driven pulley can drive the rotation yoke lever and rotate.

Preferably, the synchronous motion assembly comprises an adjusting screw rod, a screw rod movable block, a limit baffle, a guide chute and a guide sliding block; an adjusting screw rod is arranged on the outer side of the rotating connecting rod; the outside transmission of adjusting screw is connected with the lead screw movable block, and under adjusting screw's rotation, the lead screw movable block can follow X direction and adjust the removal.

Preferably, the outer side of the cutting mounting plate is fixedly connected with a limit baffle; the inner side of the limit baffle is provided with a guide chute; the guide sliding blocks sliding in the guide sliding grooves are arranged on two sides of the screw rod movable block, and synchronously slide in the guide sliding grooves, so that the moving stability can be ensured.

Preferably, the Z-direction adjusting and cutting assembly comprises a linkage mounting frame plate, a Z-direction motor, a rotary vertical sleeve rod, a cam, an adjusting chute, an adjusting slide rod, a supporting connecting rod, a fixed sleeve, a lifting frame plate, a cutting motor, a driving rod and a cutting knife wheel; the outer side of the screw rod movable block is fixedly connected with a linkage mounting frame plate; a Z-direction motor is arranged on the outer side of the linkage mounting frame plate; the output end of the Z-direction motor is provided with a rotary vertical sleeve rod; the outer side of the rotating vertical sleeve rod is provided with a cam, and the Z-direction motor can drive the rotating vertical sleeve rod to rotate, so that the cam can synchronously rotate.

Preferably, an adjusting chute is formed in the cam; an adjusting slide bar is connected in the adjusting slide groove in a sliding way; the side end of the adjusting slide bar is fixedly connected with a supporting connecting rod; the outer side of the cutting mounting plate is provided with a fixing sleeve for enabling the support connecting rod to move linearly; the side end of the supporting connecting rod is fixedly connected with a lifting frame plate; a cutting motor is arranged on the outer side of the lifting frame plate; the output end of the cutting motor is provided with a driving rod; the outside of the driving rod is provided with a cutting knife wheel, and the adjusting slide rod can move in the adjusting slide groove, so that the supporting connecting rod can move along the Z direction in a linear manner under the limit condition of the fixed sleeve, the driving rod can drive the cutting knife wheel to rotate, and simultaneously, the CF surface and the TFT surface of the glass are cut.

The utility model has the beneficial effects that:

1. The Y-direction grating ruler control device can automatically arrange cutters and accurately move according to signals fed back by the grating ruler, accurate positioning movement in the Y direction is ensured, the X-direction control transmission assembly can drive the synchronous motion assembly to synchronously move the two groups of Z-direction adjusting cutting assemblies, so that the interpolation cutting of glass is realized, the effect of one-time cutter setting cutting is achieved, the CF surface and the TFT surface can be simultaneously cut, compared with the traditional cutting process of TFT-LCD panel glass, one surface is firstly cut by a cutting machine, then the surface is turned to the other surface by a turning machine, cutting is carried out again, then the glass is split by a splitting machine, the process is complex, the production line equipment is more, the two times of alignment cutting are adopted, the accuracy consistency of the two times of cutting is difficult to control, the defects such as edge misplacement, edge breakage and the like are very easy to occur in the cutting product, and the device can perfectly stop the problems and can improve the cutting speed when the accurate cutting is carried out;

2. The X-direction motor can drive the motor rotating rod to rotate, so that the driving belt pulley can drive the transmission belt to move, the driven belt pulley can drive the rotating connecting rod to rotate, the outer side of the adjusting screw is further in transmission connection with a screw rod movable block, and the screw rod movable block can be adjusted and moved along the X direction under the rotation of the adjusting screw rod;

3. The Z-direction motor can drive the rotation vertical sleeve rod to rotate, the cam can synchronously rotate, the adjusting slide rod can move in the adjusting slide groove, the supporting connecting rod can move along the Z-direction straight line under the limit condition of the fixed sleeve, the cutting motor installed on the lifting frame plate is started, the driving rod can drive the cutting knife wheel to rotate, and meanwhile the CF surface and the TFT surface of the glass are cut.

Drawings

FIG. 1 shows a schematic perspective view of a cutting device according to the present utility model;

FIG. 2 shows a schematic perspective view of an X-direction control transmission assembly of the cutting device of the present utility model;

FIG. 3 shows a schematic perspective view of a synchronous motion assembly of the cutting device of the present utility model;

Fig. 4 shows a schematic perspective view of a Z-direction adjusting cutting assembly of the cutting device of the present utility model.

Reference numerals illustrate: 1. cutting the mounting plate; 2. y-direction grating ruler control device; 3. an X-direction control transmission assembly; 4. a synchronous motion assembly; 5. a Z-direction adjusting and cutting assembly; 6. a CCD positioning device; 301. a motor mounting frame plate; 302. an X-direction motor; 303. a motor rotating rod; 304. a driving pulley; 305. a drive belt; 306. a driven pulley; 307. rotating the coupling rod; 401. adjusting a screw rod; 402. a screw rod movable block; 403. a limit baffle; 404. a guide chute; 405. a guide slide block; 501. a linkage mounting frame plate; 502. a Z-direction motor; 503. rotating the vertical sleeve rod; 504. a cam; 505. adjusting the chute; 506. adjusting the slide bar; 507. a support link; 508. a fixed sleeve; 509. lifting the frame plate; 510. a cutting motor; 511. a driving rod; 512. cutting knife wheel.

Detailed Description

The utility model is further described below with reference to the drawings and examples.

Referring to fig. 1-2, the present utility model provides an embodiment: the one-time tool setting double-sided cutting device comprises a cutting mounting plate 1, a Y-direction grating ruler control device 2, an X-direction control transmission component 3, a synchronous motion component 4, a Z-direction adjusting cutting component 5 and a CCD positioning device 6; the Y-direction grating ruler control device 2 capable of automatically arranging cutters and accurately moving according to signals fed back by the grating ruler is arranged on the outer side of the cutting mounting plate 1; an X-direction control transmission assembly 3 for driving and controlling the trend is arranged on the outer side of the cutting mounting plate 1; the outside of the X-direction control transmission component 3 is provided with a synchronous motion component 4; the outer side of the synchronous motion assembly 4 is provided with a Z-direction adjusting and cutting assembly 5 which is used for carrying out interpolation cutting on glass in cooperation with the X-direction control transmission assembly 3 and the synchronous motion assembly 4; the CCD positioning device 6 is arranged on the outer side of the cutting mounting plate 1, when the TFT-LCD panel glass is required to be cut, the Y-direction grating ruler control device 2 can be used for automatically arranging cutters and accurately moving according to signals fed back by the grating ruler, accurate positioning movement in the Y direction is ensured, the X-direction control transmission assembly 3 can drive the synchronous motion assembly 4 to synchronously move the two groups of Z-direction adjusting cutting assemblies 5, the interpolation cutting of the glass is realized, the effect of one-time cutter setting cutting is achieved, the CF surface and the TFT surface can be cut at the same time, equipment is effectively simplified, the efficiency is improved, and the X-direction control transmission assembly 3 comprises a motor mounting plate 301, an X-direction motor 302, a motor rotating rod 303, a driving pulley 304, a driving belt 305, a driven pulley 306 and a rotating connecting rod 307; a motor mounting plate 301 is arranged on the outer side of the cutting mounting plate 1; an X-direction motor 302 is mounted on the outer side of the motor mounting frame plate 301; the output end of the X-direction motor 302 is provided with a motor rotating rod 303, the X-direction motor 302 is started to drive the motor rotating rod 303 to rotate, and the outer side of the motor rotating rod 303 is provided with a driving belt pulley 304; the outside of the driving pulley 304 is in transmission connection with a transmission belt 305; a driven pulley 306 with the same specification as the driving pulley 304 is arranged outside the driving belt 305; the driven pulley 306 is provided with a rotation coupling rod 307 on the outside, and the driving pulley 304 can drive the driving belt 305 to move, so that the driven pulley 306 can drive the rotation coupling rod 307 to rotate.

Referring to fig. 3, in the present embodiment, the synchronous motion assembly 4 includes an adjusting screw 401, a screw movable block 402, a limit baffle 403, a guide chute 404 and a guide slider 405; an adjusting screw 401 is arranged outside the rotating coupling rod 307; the outer side of the adjusting screw rod 401 is in transmission connection with a screw rod movable block 402, the screw rod movable block 402 can be adjusted and moved along the X direction under the rotation of the adjusting screw rod 401, and the outer side of the cutting mounting plate 1 is fixedly connected with a limit baffle 403; a guide chute 404 is arranged on the inner side of the limit baffle 403; both sides of the screw rod movable block 402 are provided with guide sliding blocks 405 sliding in the guide sliding grooves 404, and the guide sliding blocks 405 synchronously slide in the guide sliding grooves 404, so that the moving stability can be ensured.

Referring to fig. 4, in the present embodiment, the Z-direction adjusting and cutting assembly 5 includes a linkage mounting frame plate 501, a Z-direction motor 502, a rotating vertical sleeve rod 503, a cam 504, an adjusting chute 505, an adjusting slide rod 506, a supporting link 507, a fixing sleeve 508, a lifting frame plate 509, a cutting motor 510, a driving rod 511 and a cutting blade wheel 512; the outer side of the screw rod movable block 402 is fixedly connected with a linkage mounting frame plate 501; a Z-direction motor 502 is arranged on the outer side of the linkage mounting plate 501; the output end of the Z-direction motor 502 is provided with a rotary vertical sleeve rod 503; the outer side of the rotating vertical sleeve rod 503 is provided with a cam 504, the Z-direction motor 502 can drive the rotating vertical sleeve rod 503 to rotate, so that the cam 504 can synchronously rotate, and an adjusting chute 505 is formed in the cam 504; an adjusting slide bar 506 is connected inside the adjusting slide groove 505 in a sliding way; the side end of the adjusting slide bar 506 is connected with a supporting connecting rod 507; a fixed sleeve 508 for enabling the support connecting rod 507 to move linearly is arranged on the outer side of the cutting mounting plate 1; the side end of the supporting connecting rod 507 is fixedly connected with a lifting frame plate 509; a cutting motor 510 is arranged outside the lifting frame plate 509; the output end of the cutting motor 510 is provided with a driving lever 511; the outside of the driving rod 511 is provided with a cutting knife wheel 512, and the adjusting slide rod 506 can move in the adjusting slide groove 505, so that the supporting connecting rod 507 can move along the Z direction in a linear manner under the limit condition of the fixed sleeve 508, the cutting motor 510 arranged on the lifting frame plate 509 is started, and the driving rod 511 can drive the cutting knife wheel 512 to rotate, and simultaneously the CF surface and the TFT surface of the glass are cut.

When the device works, the device can be integrally installed on a cutting table top, a cutting groove is reserved on the cutting table top, and when the TFT-LCD panel glass needs to be cut, the Y-direction grating ruler control device 2 can be used for automatically arranging cutters and accurately moving according to signals fed back by a grating ruler, so that the device can be ensured to be accurately positioned and moved in the Y direction;

Then, the X-direction motor 302 is started to drive the motor rotating rod 303 to rotate, so that the driving belt pulley 304 can drive the transmission belt 305 to move, the driven belt pulley 306 can drive the rotating connecting rod 307 to rotate, the adjusting screw rod 401 is further driven to move, the screw rod movable block 402 can adjust and move along the X direction, and meanwhile, the guide sliding block 405 synchronously slides in the guide sliding groove 404, so that the moving stability can be ensured;

After the adjustment of the X direction is completed, the Z-direction motor 502 can drive the rotating vertical sleeve rod 503 to rotate, so that the cam 504 can rotate synchronously, and the adjusting slide rod 506 can move in the adjusting slide groove 505, so that the supporting link 507 can move linearly along the Z direction under the limit condition of the fixed sleeve 508, the cutting motor 510 installed on the lifting frame plate 509 is started, and the driving rod 511 can drive the cutting knife wheel 512 to rotate, and simultaneously cut the CF surface and TFT of the glass.

Through the steps, the Y-direction grating ruler control device 2 can automatically arrange cutters and accurately move according to signals fed back by the grating ruler, accurate positioning movement of the Y-direction grating ruler control device is guaranteed, the X-direction control transmission assembly 3 can drive the synchronous motion assembly 4 to synchronously move the two groups of Z-direction adjustment cutting assemblies 5, interpolation cutting of glass is achieved, the effect of one-time cutter setting cutting is achieved, the CF surface and the TFT surface can be cut simultaneously, the problem that in the using process of the cutting device, accuracy consistency of two times of cutting is difficult to control because of adopting two times of counterpoint cutting, and defects such as edge misplacement and edge breakage are extremely easy to occur in cutting production is caused.

The embodiments of the present utility model have been described in detail with reference to the drawings, but the present utility model is not limited to the above embodiments, and various changes can be made within the knowledge of those skilled in the art without departing from the spirit of the present utility model.

Claims

1. The one-time tool setting double-sided cutting device comprises a cutting mounting plate (1); the method is characterized in that: the device also comprises a Y-direction grating ruler control device (2), an X-direction control transmission component (3), a synchronous motion component (4), a Z-direction adjustment cutting component (5) and a CCD positioning device (6); a Y-direction grating ruler control device (2) capable of automatically arranging cutters and accurately moving according to signals fed back by the grating ruler is arranged on the outer side of the cutting mounting plate (1); an X-direction control transmission assembly (3) for driving and controlling the trend is arranged on the outer side of the cutting mounting plate (1); the outside of the X-direction control transmission component (3) is provided with a synchronous motion component (4); the outer side of the synchronous motion assembly (4) is provided with a Z-direction adjusting and cutting assembly (5) which is used for carrying out interpolation cutting on glass in cooperation with the X-direction control transmission assembly (3) and the synchronous motion assembly (4); a CCD positioning device (6) is arranged at the outer side of the cutting mounting plate (1);

The X-direction control transmission assembly (3) comprises a motor mounting frame plate (301), an X-direction motor (302), a motor rotating rod (303), a driving belt pulley (304), a transmission belt (305), a driven belt pulley (306) and a rotating connecting rod (307); a motor mounting plate (301) is arranged on the outer side of the cutting mounting plate (1); an X-direction motor (302) is arranged outside the motor mounting frame plate (301); the output end of the X-direction motor (302) is provided with a motor rotating rod (303);

A driving belt pulley (304) is arranged on the outer side of the motor rotating rod (303); the outside of the driving belt pulley (304) is in transmission connection with a transmission belt (305); a driven pulley (306) with the same specification as the driving pulley (304) is arranged on the outer side of the driving belt (305); a rotary coupling lever (307) is provided outside the driven pulley (306).

2. The single-tool double-sided cutting device according to claim 1, wherein: the synchronous motion assembly (4) comprises an adjusting screw rod (401), a screw rod movable block (402), a limit baffle (403), a guide chute (404) and a guide sliding block (405); an adjusting screw rod (401) is arranged outside the rotating connecting rod (307); the outside of the adjusting screw rod (401) is in transmission connection with a screw rod movable block (402).

3. The single-tool double-sided cutting device according to claim 2, wherein; a limit baffle (403) is fixedly connected to the outer side of the cutting mounting plate (1); a guide chute (404) is arranged on the inner side of the limit baffle (403); guide sliding blocks (405) sliding in the guide sliding grooves (404) are arranged on two sides of the screw rod movable block (402).

4. The single-tool double-sided cutting device according to claim 2, wherein: the Z-direction adjusting and cutting assembly (5) comprises a linkage mounting frame plate (501), a Z-direction motor (502), a rotary vertical sleeve rod (503), a cam (504), an adjusting chute (505), an adjusting slide rod (506), a supporting connecting rod (507), a fixed sleeve (508), a lifting frame plate (509), a cutting motor (510), a driving rod (511) and a cutting knife wheel (512); the outer side of the screw rod movable block (402) is fixedly connected with a linkage mounting frame plate (501); a Z-direction motor (502) is arranged on the outer side of the linkage mounting frame plate (501); the output end of the Z-direction motor (502) is provided with a rotary vertical sleeve rod (503); a cam (504) is arranged on the outer side of the rotary vertical sleeve rod (503).

5. The single-tool double-sided cutting device according to claim 4, wherein: an adjusting chute (505) is arranged in the cam (504); an adjusting slide bar (506) is connected inside the adjusting slide groove (505) in a sliding way; the side end of the adjusting slide bar (506) is connected with a supporting connecting rod (507); a fixed sleeve (508) for enabling the support connecting rod (507) to move linearly is arranged on the outer side of the cutting mounting plate (1); the side end of the supporting connecting rod (507) is fixedly connected with a lifting frame plate (509); a cutting motor (510) is arranged outside the lifting frame plate (509); the output end of the cutting motor (510) is provided with a driving rod (511); a cutter wheel (512) is arranged outside the driving rod (511).