CN112850158A

CN112850158A - Glass substrate turns to device

Info

Publication number: CN112850158A
Application number: CN202110003007.9A
Authority: CN
Inventors: 李青; 李赫然; 刘世强; 朱继广
Original assignee: Wuhu Dongxu Optoelectronic Equipment Technology Co ltd; Dongxu Optoelectronic Technology Co Ltd; Tunghsu Technology Group Co Ltd
Current assignee: Wuhu Dongxu Optoelectronic Equipment Technology Co ltd; Dongxu Optoelectronic Technology Co Ltd; Tunghsu Technology Group Co Ltd
Priority date: 2021-01-04
Filing date: 2021-01-04
Publication date: 2021-05-28

Abstract

The invention relates to the field of glass manufacturing, and discloses a glass substrate steering device, wherein the glass substrate steering device comprises a lifting mechanism (10) and a rotating mechanism (20) arranged on the lifting mechanism, the rotating mechanism comprises a sucker assembly (21), a driving gear (22) and a driven gear (23) meshed with the driving gear, and the driven gear is arranged on the sucker assembly and is coaxial with the sucker assembly and the lifting mechanism. The driven gear can be conveniently driven to rotate through the driving gear, the sucker assembly adsorbing the glass substrate is driven to rotate coaxially, and therefore the glass substrate is accurately steered. And because the driving gear deviates from the axes of the sucker assembly and the lifting mechanism, the driving part for driving the driving gear is convenient to avoid the axes, and the sucker assembly can rotate around the axes, namely the glass substrate is rotated around the axes passing through the center of the glass substrate, so that the deviation after steering is avoided.

Description

Glass substrate turns to device

Technical Field

The invention relates to the field of glass manufacturing, in particular to a glass substrate steering device.

Background

In the production process of the glass substrate, many processes are required to turn the glass substrate. For example, when edging the side edges of a glass substrate, it is necessary to first process one pair of opposite edges of the glass substrate, then turn the glass substrate and then process the other pair of opposite edges. In the prior art, the glass substrate is usually steered manually, but the problems that the glass is possibly damaged and the steering is not accurate enough exist, and the central position of the glass is possibly deviated, so that the subsequent operation is not facilitated.

Disclosure of Invention

The invention aims to solve the problems that the glass substrate in the prior art is low in steering precision and has center deviation after steering, and provides a glass substrate steering device which is used for accurately steering the glass substrate.

In order to achieve the above object, an aspect of the present invention provides a glass substrate steering apparatus, wherein the glass substrate steering apparatus includes a lifting mechanism and a rotating mechanism mounted on the lifting mechanism, the rotating mechanism includes a suction cup assembly, a driving gear and a driven gear engaged with the driving gear, and the driven gear is mounted on the suction cup assembly and is coaxially disposed with the suction cup assembly and the lifting mechanism.

Optionally, the lifting mechanism comprises a telescopic oil cylinder and a driving block connected to the telescopic end of the telescopic oil cylinder, the rotating mechanism comprises a first driving unit for driving the driving gear, and the first driving unit and the sucker assembly are respectively installed on the driving block.

Optionally, the glass substrate steering device comprises a dust removal mechanism, and the dust removal mechanism is configured to remove dust from the edge of the glass substrate adsorbed by the suction cup assembly.

Optionally, the dust removing mechanism includes an airflow supply unit, an air nozzle, and an air pipe connecting the airflow supply unit and the air nozzle.

Optionally, the glass substrate steering device includes a support frame, the support frame includes a vertical support portion and a horizontal support portion connected to the vertical support portion, the lifting mechanism is supported by the horizontal support portion, and the dust removing mechanism is mounted on the vertical support portion.

Optionally, the lifting mechanism is configured to be horizontally slidable along the horizontal support portion.

Optionally, the horizontal support portion includes a frame body, a screw rod rotatably mounted on the frame body, and a second driving unit for driving the screw rod to rotate, and the lifting mechanism includes a moving block having a screw hole matched with the screw rod.

Optionally, the horizontal support portion includes a guide rod installed on the frame body, the guide rod is parallel to the lead screw, and the moving block is provided with a guide hole matched with the guide rod.

Optionally, the glass substrate turning device includes a table on which the support frame is supported.

Optionally, the glass substrate steering device comprises a dust collecting mechanism arranged below the workbench, and a through hole is formed in the table top of the workbench.

Through the technical scheme, the driven gear can be conveniently driven to rotate through the driving gear, the sucker assembly adsorbing the glass substrate is driven to rotate coaxially, and therefore the glass substrate is accurately steered. And because the driving gear deviates from the axes of the sucker assembly and the lifting mechanism, the driving part for driving the driving gear is convenient to avoid the axes, and the sucker assembly can rotate around the axes, namely the glass substrate is rotated around the axes passing through the center of the glass substrate, so that the deviation after steering is avoided.

Drawings

FIG. 1 is a schematic structural view of one embodiment of a glass substrate turning device of the present application;

FIG. 2 is a schematic view of the horizontal support of FIG. 1;

fig. 3 is a schematic view of the table of fig. 1.

Description of the reference numerals

10-a lifting mechanism, 11-a telescopic oil cylinder, 12-a driving block, 13-a moving block, 20-a rotating structure, 21-a sucker component, 211-a sucker, 212-a rotating shaft, 22-a driving gear, 23-a driven gear, 24-a first driving unit, 30-a supporting frame, 31-a frame body, 32-a screw rod, 33-a second driving unit, 34-a guide rod, 35-a supporting column, 36-a mounting frame, 40-a dust removing mechanism, 41-an air flow supplying unit, 42-an air nozzle, 43-an air pipe, 50-a dust collecting mechanism, 51-a dust collecting hopper, 52-a discharge pipe, 60-a workbench, 61-a through hole, 62-supporting legs and 63-a table board.

Detailed Description

The following detailed description of embodiments of the invention refers to the accompanying drawings. It should be understood that the detailed description and specific examples, while indicating the present invention, are given by way of illustration and explanation only, not limitation.

In the present invention, the use of directional terms such as "upper, lower, left, right" generally means upper, lower, left, right as viewed with reference to the accompanying drawings, unless otherwise specified; "inner and outer" refer to the inner and outer relative to the profile of the components themselves. The present application will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.

The application provides a glass substrate turns to device, wherein, glass substrate turns to device include elevating system 10 and install in elevating system 10's rotary mechanism 20, rotary mechanism 20 include sucking disc subassembly 21, driving gear 22 and with driving gear 22 meshed driven gear 23, driven gear 23 install in sucking disc subassembly 21 and with sucking disc subassembly 21 the coaxial setting of elevating system 10.

The glass substrate turns to device of this application can conveniently drive driven gear 23 through driving gear 22 and rotate, drives the sucking disc subassembly 21 that adsorbs the glass substrate and rotates coaxially to accurately make the glass substrate turn to. Moreover, the driving gear 22 deviates from the axes of the sucker assembly 21 and the lifting mechanism 10, so that a driving part for driving the driving gear 22 is arranged to avoid the axes, and the sucker assembly 21 can rotate around the axes, namely the glass substrate is rotated around the axes passing through the center of the glass substrate, so that the deviation after the rotation is avoided.

The axis of the chuck assembly 21 should be disposed to pass through the center of the glass substrate. For example, the chuck assembly 21 includes a group of chucks 211 arranged in a regular pattern or array having a center, and when a glass substrate is sucked, the center can be aligned with the center of the glass substrate and a line connecting the two centers can be used as an axis of the chuck assembly 21.

The elevating mechanism 10 may be any suitable mechanism as long as the rotating mechanism 20 can be elevated. In the illustrated embodiment, the lifting mechanism 10 may include a telescopic cylinder 11 and a driving block 12 connected to a telescopic end of the telescopic cylinder 11, the rotating mechanism 20 includes a first driving unit 24 for driving the driving gear 22, and the first driving unit 24 and the suction cup assembly 21 are respectively mounted to the driving block 12. Specifically, the driving block 12 and the telescopic cylinder 11, the sucker assembly 21 and the driven gear 23 are coaxially arranged, the sucker assembly 21 and the driven gear 23 are coaxially fixed, the sucker assembly 21 comprises a rotating shaft 212 rotatably connected with the driving block 12, the driven gear 23 is mounted on the rotating shaft 212, and the driving gear 22 can be rotatably mounted on the driving block 12, and the rotating axis of the driving gear deviates from the axis of the driving block 12. The first driving unit 24 may be in various suitable forms, and may be a motor, for example, and an output shaft of the motor is coaxially disposed with the driving gear 22.

In addition, in order to facilitate the processing of the glass substrate in a special process, the glass substrate turning device of the present application may be further provided with a functional mechanism cooperating with the rotating mechanism 20 to perform a corresponding processing in the process of turning the glass substrate. For example, the glass substrate turning device comprises a dust removing mechanism 40, and the dust removing mechanism 40 is configured to remove dust from the edge of the glass substrate adsorbed by the suction cup assembly 21. Specifically, when the glass substrate is sucked by the suction cup assembly 21 to be capable of turning with the rotation of the suction cup assembly 21, the corresponding edge of the glass substrate may be rotated to the dust removing mechanism 40 to perform the dust removing process by the dust removing mechanism 40. It will be appreciated that the dust removing mechanism 40 may be provided in a corresponding number as required, for example, only one dust removing mechanism 40 may be provided to perform the dust removing process separately by intermittently rotating the chuck assembly 21 so that the respective sides of the glass substrate correspond to the dust removing mechanism 40 separately. Of course, a separate dust removing mechanism 40 may be provided for each side of the glass substrate. For compromise cost and efficiency, can utilize the glass substrate of this application to turn to the function of turning to of device, as shown in fig. 1, can set up two relative dust removal mechanism 40 to two relative limits to the glass substrate simultaneously carry out dust removal processing, can rotate the glass substrate after the dust removal processing, make two other limits correspond dust removal mechanism 40 respectively and carry out dust removal processing.

Dust removal mechanism 40 may take a variety of suitable forms, among others. For example, the dust removing mechanism 40 may include an air flow supply unit 41, a tuyere 42, and an air duct 43 connecting the air flow supply unit 41 and the tuyere 42. Among them, the air flow supply unit 41 may be provided to be able to provide a blowing air flow or a suction air flow through the air nozzle 42 so as to blow off or suck the foreign substances off the glass substrate.

In this application, rotary mechanism 20 is attached to the setting of elevating system 10, and elevating system 10 and dust removal mechanism 40 can set up on corresponding installation basis to make dust removal mechanism 40 can correspond the edge setting of glass substrate. Specifically, the glass substrate turning device may include a support frame 30, the support frame 30 includes a vertical support portion and a horizontal support portion connected to the vertical support portion, the lifting mechanism 10 is supported by the horizontal support portion, and the dust removing mechanism 40 is installed at the vertical support portion. Wherein the vertical support part may include a support column 35, the dust removing mechanism 40 may be mounted on the support column 35, for example, a mounting bracket 36 may be provided on the support column 35, and the air flow supply unit 41, the air nozzle 42 and the air duct 43 may be provided on the mounting bracket 36. In the embodiment shown in fig. 1, the support columns 35 may be provided in two sets disposed opposite to each other, and the horizontal support portions may be provided across the two sets of support columns 35.

To facilitate steering different sizes of glass substrates and aligning the center of the chuck assembly 21 with the center of the glass substrate, the horizontal position of the chuck assembly 21 may be adjusted. For this, the elevating mechanism 10 may be provided to be horizontally slidable along the horizontal support. Wherein the horizontal sliding of the lifting mechanism 10 can be achieved in various suitable ways, e.g. the lifting mechanism 10 can be pulled manually. Preferably, as shown in fig. 2, the horizontal support portion may include a frame body 31, a lead screw 32 rotatably mounted on the frame body 31, and a second driving unit 33 for driving the lead screw 32 to rotate, and the lifting mechanism 10 includes a moving block 13, and the moving block 13 has a screw hole matched with the lead screw 32. Thereby, the lead screw 32 and the moving block 13 may form a lead screw nut mechanism, and the second driving unit 33 drives the lead screw 32 to rotate, which will cause the moving block 13 to move linearly along the lead screw 32. The direction of movement of the moving block 13 can be switched by the direction of rotation of the lead screw 32, for which purpose the second drive unit 33 is provided in a form capable of bidirectional rotation, for example a bidirectional motor.

Further, in order to ensure the linear movement of the moving block 13, the horizontal support portion includes a guide bar 34 mounted to the frame body 31, the guide bar 34 is disposed in parallel with the lead screw 32, and the moving block 13 is provided with a guide hole engaged with the guide bar 34. Specifically, guide bars 34 may be respectively provided at both sides of the lead screw 32 at equal intervals to smooth the movement of the moving block 13.

In the present application, the glass substrate in continuous conveyance may be diverted by the glass substrate diverting device, and in this case, the lifting mechanism 10 may be disposed above the conveying path of the conveying device (e.g., belt conveyor). Alternatively, the glass substrate turning device of the present application may make a turn to a separate processing process, for example, a turn to be exclusively used for dust removal processing. To this end, the glass substrate turning device includes a table 60, and the support frame 30 is supported on the table 60. When the glass substrate cleaning device is used, the glass substrate can be placed on the workbench 60 through a picking and placing device or manually, and then dust removal and steering are carried out. Wherein the table 60 may have legs 62 and a table 63 supported on the legs 62, and the support frame 30 is supported on the table 63.

As described above, the dust removing mechanism 40 can use the air flow to drive the impurities to leave the glass substrate, in order to prevent the impurities from falling on the worktable 60 and then polluting the glass substrate, the glass substrate turning device includes the dust collecting mechanism 50 disposed below the worktable 60, and the table 63 of the worktable 60 is provided with the through hole 61. Thus, even if the foreign matter falls on the table 60, the foreign matter continues to fall down into the dust collection mechanism 50 from the through-hole 61 by the airflow and does not remain on the table 60. Wherein, the dust collecting mechanism 50 may include a dust hopper 51 to collect foreign substances falling from the through hole 61. In addition, the bottom of the dust hopper 51 may be provided with a discharge pipe 52 operable to periodically open the discharge pipe 52 to discharge the collected foreign substances.

The preferred embodiments of the present invention have been described in detail above with reference to the accompanying drawings, but the present invention is not limited thereto. Within the scope of the technical idea of the invention, many simple modifications can be made to the technical solution of the invention. The present application includes the combination of individual features in any suitable manner. The invention is not described in detail in order to avoid unnecessary repetition. Such simple modifications and combinations should be considered within the scope of the present disclosure as well.

Claims

1. The utility model provides a glass substrate turns to device, its characterized in that, glass substrate turns to device include elevating system (10) and install in rotary mechanism (20) of elevating system (10), rotary mechanism (20) include sucking disc subassembly (21), driving gear (22) and with driven gear (23) of driving gear (22) meshing, driven gear (23) install in sucking disc subassembly (21) and with sucking disc subassembly (21), elevating system (10) coaxial setting.

2. The glass substrate steering apparatus according to claim 1, wherein the lifting mechanism (10) includes a telescopic cylinder (11) and a driving block (12) connected to a telescopic end of the telescopic cylinder (11), the rotating mechanism (20) includes a first driving unit (24) for driving the driving gear (22), and the first driving unit (24) and the suction cup assembly (21) are respectively mounted to the driving block (12).

3. The glass substrate turning device according to claim 1, wherein the glass substrate turning device comprises a dust removing mechanism (40), and the dust removing mechanism (40) is configured to remove dust from the edge of the glass substrate sucked by the suction cup assembly (21).

4. The glass substrate turning device according to claim 3, wherein the dust removing mechanism (40) comprises an air flow supply unit (41), an air nozzle (42), and an air duct (43) connecting the air flow supply unit (41) and the air nozzle (42).

5. The glass substrate turning device according to claim 3 or 4, wherein the glass substrate turning device comprises a support frame (30), the support frame (30) comprises a vertical support and a horizontal support connected to the vertical support, the lifting mechanism (10) is supported on the horizontal support, and the dust removing mechanism (40) is mounted on the vertical support.

6. The glass substrate steering device according to claim 5, wherein the lifting mechanism (10) is provided to be horizontally slidable along the horizontal support.

7. The glass substrate steering device according to claim 6, wherein the horizontal support portion includes a frame body (31), a lead screw (32) rotatably mounted to the frame body (31), and a second driving unit (33) for driving the lead screw (32) to rotate, and the lift mechanism (10) includes a moving block (13), and the moving block (13) has a threaded hole that engages with the lead screw (32).

8. The glass substrate steering device according to claim 7, wherein the horizontal support portion includes a guide rod (34) mounted to the frame body (31), the guide rod (34) being disposed in parallel with the lead screw (32), and the moving block (13) being provided with a guide hole that engages with the guide rod (34).

9. The glass substrate turning device according to claim 5, comprising a table (60), wherein the support frame (30) is supported on the table (60).

10. The glass substrate turning device according to claim 9, comprising a dust collecting mechanism (50) disposed below the table (60), wherein a through hole (61) is provided on a table top (63) of the table (60).