CN214518291U - Processing platform - Google Patents

Abstract

The application provides a processing platform, includes: a work table; the object carrying plate is movably arranged on the workbench and used for bearing the workpiece; the supporting block is arranged on the carrying plate and used for supporting the processing part of the workpiece; the pressing component is arranged on the carrying plate and used for positioning and pressing the workpiece; and the driving assembly is connected with the object carrying plate and drives the object carrying plate to move, and the processing platform can improve the processing speed and the processing precision, so that the production efficiency is improved.

Description

Processing platform

Technical Field

The application belongs to the technical field of solar cell processing, and particularly relates to a processing platform.

Background

During the manufacturing process of the crystalline silicon solar cell, silver paste and aluminum paste are deposited on the surface of the cell to form a circuit and an electrode by using a screen printing technology. The existing manufacturing process is to manufacture the solar screen by a film sheet and adhesive glue on a solar screen and using an exposure machine, and after the manufacturing is finished, the glue is removed by using a chemical cleaning method.

With the development of the technology, polyimide resin materials are gradually used to replace film materials, lasers are manufactured by replacing exposure machines, and openings are scribed on the polyimide resin films through the lasers to form electrode patterns. The solar panels need to be supported, positioned, clamped and moved during the laser cutting process.

Disclosure of Invention

The present application provides a processing platform to solve the above mentioned technical problems in the background art.

In order to achieve the purpose, the technical scheme adopted by the application is as follows: a processing platform, comprising:

a work table;

the object carrying plate is movably arranged on the workbench and used for bearing the workpiece;

the supporting block is arranged on the carrying plate and used for supporting the processing part of the workpiece;

the pressing component is arranged on the carrying plate and used for positioning and pressing the workpiece; and

and the driving assembly is connected with the object carrying plate and drives the object carrying plate to move.

Furthermore, the pressing and holding assembly comprises a positioning mechanism and a pressing mechanism which are oppositely arranged on the carrying plate, and the pressing mechanism is used for pressing the workpiece between the pressing mechanism and the positioning mechanism and enabling the workpiece to be tightly attached to the carrying plate.

Furthermore, the positioning mechanism comprises one or more groups of positioning pieces which are adjacently arranged, and the positioning pieces are arranged on the carrying plate and used for positioning the workpiece in the X-axis direction and the Y-axis direction.

Furthermore, the positioning piece is also provided with a first clamping part for clamping the workpiece in the vertical direction.

Furthermore, the pressing mechanism comprises a pressing block and a pressing device, the pressing block is connected with the driving end of the pressing device, and the pressing device is arranged on the carrying plate.

Furthermore, a second clamping part is arranged on the pressing block and used for pressing the workpiece in the horizontal direction and the vertical direction.

Further, hold-down mechanism still includes the mounting panel, closing device sets up on the mounting panel, still be equipped with the regulation structure on the mounting panel, the mounting panel sets up on carrying the thing board through adjusting the structure.

Further, the driving assembly comprises an X-axis driving mechanism and a Y-axis driving mechanism; the X-axis driving mechanism is arranged on the workbench and is in driving connection with the Y-axis driving mechanism to drive the Y-axis driving mechanism to move along the X-axis direction; and the Y-axis driving mechanism is in driving connection with the carrying plate and drives the carrying plate to move along the Y-axis direction.

Furthermore, a rotating mechanism or a connecting structure is arranged between the Y-axis driving mechanism and the carrying plate.

Furthermore, a sensor and a power meter are also arranged on the carrying plate.

The beneficial effect of this application lies in: compared with the prior art, the processing platform has the advantages that the supporting block is arranged on the carrying plate and used for supporting the processing part of the workpiece, so that the surface tension of the processing part is more uniform, the surface is smoother, and the processing precision of the processing part is improved; in addition, the processing platform is used for rapidly positioning the workpiece by arranging the pressing and holding assembly on the carrying plate and driving the workpiece to move by arranging the driving assembly, so that the processing speed and the processing precision can be improved by adopting the processing platform, and the production efficiency is improved.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the embodiments or the prior art descriptions will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without inventive exercise.

Fig. 1 is a schematic structural diagram of a processing platform according to an embodiment of the present disclosure;

fig. 2 is a schematic structural diagram of a carrier plate in a processing platform according to an embodiment of the present disclosure;

fig. 3 is a schematic structural diagram of a positioning mechanism in a processing platform according to an embodiment of the present disclosure;

fig. 4 is a schematic structural diagram of a pressing mechanism in a processing platform according to an embodiment of the present disclosure;

fig. 5 is a schematic structural diagram of a driving assembly in a processing platform according to an embodiment of the present disclosure.

Reference numerals:

10. a work table;

20. a loading plate;

30. a support block;

40. a pressing component; 41. a positioning mechanism; 42. a hold-down mechanism; 43. a first retaining part; 411. a first positioning member; 412. a second positioning member; 421. a pressing device; 422. a compression block; 423. a second chucking part; 424. mounting a plate; 425. an adjustment structure;

50. a drive assembly; 51. an X-axis drive mechanism; 52. a Y-axis drive mechanism; 53. a connecting structure; 511. an X-axis base plate; 512. an X-axis slide rail; 513. an X-axis slider; 521. a Y-axis base plate; 522. a Y-axis slide rail; 523. A Y-axis slider;

60. a workpiece 61, a machining section;

70. a sensor;

80. and a power meter.

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects to be solved by the present application clearer, the present application 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 present application and are not intended to limit the present application.

It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or be indirectly on the other element. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or be indirectly connected to the other element.

It will be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like, refer to an orientation or positional relationship illustrated in the drawings for convenience in describing the present application and to simplify description, and do not indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the present application.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present application, "a plurality" means two or more unless specifically limited otherwise.

The application provides a processing platform, and this processing platform can be used to support, clamping and drive the work piece and remove, realizes the processing to the work piece with the processing equipment cooperation. Specifically, the workpiece can be a solar screen printing plate, the processing equipment can be laser cutting equipment, and the processing platform is matched with the laser cutting equipment to process the solar screen printing plate film.

Referring to fig. 1 and 2, the processing platform includes a table 10, a carrier plate 20, a support block 30, a pressing member 40, and a driving member 50. The working table 10, the working table 10 is used as a load-bearing element of the processing platform for bearing the carrier plate 20, the supporting block 30, the pressing component 40, the driving component 50 and other related parts. Specifically, marble may be used for the table 10 to improve the stability of the table 10 and thus the machining accuracy of the workpiece 60.

The object plate 20 is movably disposed on the worktable 10 and is used for carrying the workpiece 60 and driving the workpiece 60 to move.

The supporting block 30 is disposed on the carrier plate 20 for supporting the processing portion 61 on the workpiece 60 to improve the processing accuracy of the processing portion 61. Specifically, when the workpiece 60 to be processed is a solar screen, the specific processing portion 61 of the solar screen is a film (polyimide resin film) on the solar screen, so that the film can be supported by the supporting block 30 during the processing, so that the surface tension of the processing portion 61 is more uniform and the surface is more flat, the processing portion 61 can be conveniently processed, the processing precision is improved, and in addition, the structure can be used for other workpieces 60 which need to make the surface tension of the processing portion 61 more uniform and the surface is more flat.

The pressing and holding assembly 40 is disposed on the object plate 20 and is used for positioning the workpiece 60 placed on the object plate 20 to determine an initial position of the workpiece 60 on the object plate 20 and pressing and holding the workpiece 60, so as to prevent the workpiece 60 from being displaced during the movement of the workpiece 60 driven by the object plate 20.

The driving assembly 50 is disposed on the worktable 10 and is in driving connection with the object plate 20 to drive the object plate 20 to move, and further drive the workpiece 60 to move on the worktable 10.

Referring to fig. 2, the pressing assembly 40 further includes a positioning mechanism 41 and a pressing mechanism 42 oppositely disposed on the carrier plate 20. The pressing mechanism 42 is used for pressing the workpiece 60 between the pressing mechanism 42 and the positioning mechanism 41 and making the workpiece 60 tightly attached to the loading plate 20.

Specifically, the positioning mechanism 41 and the pressing mechanism 42 form a receiving area on the object carrying plate 20, the workpiece 60 is located in the receiving area, and the positioning mechanism 41 is used for limiting the position of the workpiece 60 on the object carrying plate 20, so as to position the workpiece 60, and the workpiece 60 is located in the receiving area; the pressing mechanism 42 is located opposite to the positioning mechanism 41, and is used for pressing the workpiece 60 toward the positioning mechanism 41 to fix the workpiece 60 on the loading plate 20, and when the supporting block 30 is used for supporting the processing portion 61 of the workpiece 60, in order to ensure the effective supporting, the processing portion 61 is often lifted up by a certain distance, so that the workpiece 60 may be separated from the loading plate 20 by a certain distance, at this time, the pressing mechanism 42 is also required to press the workpiece 60 toward the loading plate 20 to enable the workpiece 60 to be attached to the loading plate 20.

Further, the positioning mechanism 41 further includes one or more sets of positioning members disposed adjacently. The positioning members are provided on the object plate 20 for positioning the workpiece 60 in the X-axis direction and the Y-axis direction. When the positioning members are provided with a plurality of groups, each group of positioning members can be arranged according to a certain distance, so that each group of positioning members can respectively position the workpieces 60 with corresponding sizes, and the compatibility of the processing platform is improved. In other modes, the positioning block is also movably arranged on the carrying plate 20, so that the positioning block can be matched with workpieces 60 with different sizes by adjusting the position of the positioning block on the carrying plate 20, and the compatibility of the processing platform is improved.

As shown in fig. 3, the positioning member may further include a first holding portion 43 for holding the workpiece 60 in a vertical direction, so that the workpiece 60 can be closely attached to the carrier plate 20.

Specifically, the positioning element may further include a first positioning element 411 and a second positioning element 412 which are adjacently disposed, the first positioning element 411 and the second positioning element 412 respectively abut against two adjacent sides of the workpiece 60, the first positioning element 411 is used for positioning the workpiece 60 in the X-axis direction, the second positioning element 412 is used for positioning the workpiece 60 in the Y-axis direction, and the first positioning element 411 and the second positioning element 412 are provided with a first clamping portion 43 for clamping the workpiece 60 in the vertical direction, so that the workpiece 60 can abut against the loading plate 20, and the workpiece 60 is prevented from being separated from the loading plate 20 when the supporting block 30 supports the processing portion 61.

Referring to fig. 4, the pressing mechanism 42 includes a pressing block 422 and a pressing device 421. The pressing block 422 is connected with the driving end of the pressing device 421, the pressing device 421 is arranged on the carrying plate 20, and the pressing device 421 is used for driving the pressing block 422 to move and matching with the positioning piece to press and hold the workpiece 60. Specifically, two pressing mechanisms 42 may be provided, and cooperate with the first positioning element 411 and the second positioning element 412 to press and hold the workpiece 60 in the X-axis direction and the Y-axis direction, respectively, wherein the pressing device 421 may adopt an air cylinder, a motor, and the like. In other modes, the workpiece 60 can be pressed by means of fastening, bolt fixing and the like.

Further, the pressing block 422 may further include a second clamping portion 423, and the pressing block 422 may press the workpiece 60 in the horizontal direction and the vertical direction through the second clamping portion 423, so that the workpiece 60 is attached to the loading plate 20, and the workpiece 60 is prevented from being separated from the loading plate 20 and affecting the processing precision when the supporting block 30 supports the processing portion 61 of the workpiece 60, wherein the second clamping portion 423 may be an inclined portion disposed on the pressing block 422. In other modes, a pressing device 421 may be further provided, and the workpiece 60 is pressed in the vertical direction by the pressing device 421 so that the workpiece 60 is attached to the loading plate 20.

Further, the pressing mechanism 42 further comprises a mounting plate 424, the pressing device 421 is disposed on the mounting plate 424, and is disposed on the object carrying plate 20 by the mounting plate 424, and an adjusting structure 425 is further disposed on the mounting plate 424, and the mounting plate 424 can be disposed on the object carrying plate 20 by the adjusting structure 425, so as to adjust the position of the pressing mechanism 42 on the object carrying plate 20, so that the pressing mechanism can be compatible with workpieces 60 with different sizes, and the compatibility of the processing platform is improved. Specifically, the adjustment structure 425 includes an adjustment slot and an adjustment screw, the adjustment slot is disposed on the mounting plate 424 and is fixed to the carrier plate 20 by the adjustment screw.

Referring to fig. 5, the driving assembly 50 includes an X-axis driving mechanism 51 and a Y-axis driving mechanism 52, the X-axis driving mechanism 51 is disposed on the worktable 10, the object carrying plate 20 is connected to a driving end of the Y-axis driving mechanism 52, the Y-axis driving mechanism 52 drives the object carrying plate 20 to move along the Y-axis direction, the Y-axis driving mechanism 52 is disposed on the driving end of the X-axis driving mechanism 51, and the X-axis driving mechanism 51 drives the Y-axis driving mechanism 52 to move along the X-axis direction, so as to drive the object carrying plate 20 to move along the X-axis direction, thereby realizing movement of the workpiece 60 along the X-axis direction and the Y-axis direction.

Further, a rotation mechanism or a connection structure 53 may be further provided between the Y-axis driving mechanism 52 and the carrier plate 20, and the shape and size of the connection structure 53 may be identical to those of the rotation mechanism, so that it is convenient to replace the connection structure 53 with the rotation mechanism or replace the rotation mechanism with the connection structure 53. For example, when the workpiece 60 to be processed does not require a rotating structure, the Y-axis driving mechanism 52 and the loading plate 20 may be connected by the connecting structure 53; when the workpiece 60 to be machined requires a rotating structure, the connecting structure 53 can be replaced by a rotating structure, so that the machining platform is compatible with various machining processes and the position of the object plate 20 on the workbench 10 is not changed.

Further, a grating scale assembly (not shown) may be further disposed on the X-axis driving mechanism 51 and the Y-axis driving mechanism 52 to improve the operation accuracy of the X-axis driving mechanism 51 and the Y-axis driving mechanism 52.

Specifically, the X-axis driving mechanism 51 includes an X-axis base plate 511, the X-axis base plate 511 is disposed on the worktable 10, one or more X-axis slide rails 512 are disposed on the X-axis base plate 511, an X-axis slide block 513 engaged with the X-axis slide rails 512 is disposed on the X-axis slide rails 512, and a grating ruler assembly is disposed on one side of the X-axis slide rails 512, the X-axis slide block 513 moves along the X-axis guide rails, and when a plurality of X-axis slide rails 512 are disposed, the operation stability of the X-axis driving mechanism 51 can be improved.

The Y-axis driving mechanism 52 comprises a Y-axis bottom plate 521, the Y-axis bottom plate 521 is arranged on an X-axis sliding block 513, the Y-axis bottom plate 521 is driven to move along an X-axis guide rail through X-axis sliding, one or more Y-axis sliding rails 522 are arranged on the Y-axis bottom plate 521, a Y-axis sliding block 523 matched with the Y-axis sliding rails 522 is arranged on the Y-axis sliding rails 522, a grating ruler component is arranged on one side of the Y-axis sliding rails 522, the Y-axis sliding block 523 is connected with the object carrying plate 20 and drives the object carrying plate 20 to move along the Y-axis direction, and when a plurality of Y-axis sliding rails 522 are arranged, the running stability of the Y-axis driving mechanism 52 can be improved.

Referring to fig. 2, a sensor 70 and a power meter 80 are further provided on the carrier plate 20, the sensor 70 is used for detecting whether the workpiece 60 is carried on the carrier plate 20, and the power meter 80 is used for acquiring power data of the processing equipment.

The present invention is not intended to be limited to the particular embodiments shown and described, but is to be accorded the widest scope consistent with the principles and novel features herein disclosed.

Claims (10)

1. A tooling platform, comprising:

a work table;

the object carrying plate is movably arranged on the workbench and used for bearing the workpiece;

the supporting block is arranged on the carrying plate and used for supporting the processing part of the workpiece;

the pressing component is arranged on the carrying plate and used for positioning and pressing the workpiece; and

and the driving assembly is connected with the object carrying plate and drives the object carrying plate to move.

2. The processing platform of claim 1, wherein the pressing assembly comprises a positioning mechanism and a pressing mechanism oppositely arranged on the carrier plate, and the pressing mechanism is used for pressing the workpiece between the pressing mechanism and the positioning mechanism and enabling the workpiece to be tightly attached to the carrier plate.

3. The processing platform of claim 2, wherein the positioning mechanism comprises one or more sets of adjacently disposed positioning members disposed on the object plate for positioning the workpiece in the X-axis direction and the Y-axis direction.

4. The processing platform of claim 3, wherein the positioning member further comprises a first holding portion for holding the workpiece in a vertical direction.

5. The processing platform of claim 2, wherein the hold-down mechanism comprises a hold-down block and a hold-down device, the hold-down block is connected to a drive end of the hold-down device, and the hold-down device is disposed on the carrier plate.

6. The processing platform of claim 5, wherein the pressing block is provided with a second chucking section for pressing the workpiece in a horizontal direction and a vertical direction.

7. The processing platform of claim 5, wherein the hold-down mechanism further comprises a mounting plate, the hold-down device is disposed on the mounting plate, the mounting plate is further provided with an adjustment structure, and the mounting plate is disposed on the carrier plate via the adjustment structure.

8. The processing platform of any one of claims 1 to 7, wherein the drive assembly comprises an X-axis drive mechanism and a Y-axis drive mechanism; the X-axis driving mechanism is arranged on the workbench and is in driving connection with the Y-axis driving mechanism to drive the Y-axis driving mechanism to move along the X-axis direction; and the Y-axis driving mechanism is in driving connection with the carrying plate and drives the carrying plate to move along the Y-axis direction.

9. The processing platform of claim 8, wherein a connection structure or a rotation mechanism is further provided between the Y-axis driving mechanism and the carrier plate.

10. The processing platform of claim 1, wherein the carrier plate further comprises a sensor and a power meter.

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