CN217468461U - Paster workstation and paster production line of solar energy component - Google Patents

Abstract

A paster workbench of a solar component and a paster production line relate to the technical field of solar production lines. Solar energy component's paster workstation, including first support frame, the paster workstation still includes: the first mounting frame is arranged on the top of the first support frame; the first rolling slideway is arranged between a frame on the side wall of the top of the first support frame and the first mounting frame, and is a plurality of rotating rollers which are distributed in a straight line shape; and the first universal slide way is arranged on the first mounting rack and is a plurality of balls distributed in a matrix form. A first backflow slideway parallel to the first rolling slideway is arranged on one side, away from the first rolling slideway, of the first mounting frame on the top of the first support frame. By adopting the technical scheme, the sliding friction between the tray and the patch workbench and/or the welding workbench is changed into rolling friction, so that the tray can be conveniently pushed on the workbench by a user, and the bottom of the tray and/or the workbench can be prevented from being scratched.

Description

Paster workstation and paster production line of solar energy component

Technical Field

The utility model relates to a solar energy production line technical field, concretely relates to solar energy component's paster workstation and paster production line.

Background

The existing semi-flexible photovoltaic module is produced by adopting traditional manual work, an independent work station is arranged between every two work stations, the last work station is completed, a product which completes the last work station needs to be carried, then the next work station is completed, the existing battery piece pasting workbench is generally flat on a desktop, when a plurality of battery pieces are serially arranged and pasted, a user needs to continuously move to arrange the battery pieces or drag a tray which is used for containing the battery pieces on the work station, because the desktop of the workbench is flat, the tray and the desktop of the workbench are in sliding friction, the user is difficult to drag the tray or drag the tray in the process, and the bottom of the tray or the desktop are easily scratched.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to prior art's defect and not enough, provide a solar energy component's paster workstation, have and make sliding friction change rolling friction into between tray and paster workstation and/or the weldment work platform, the user of being convenient for promotes on the workstation, avoids tray bottom and/or workstation to be scraped colored advantage.

In order to achieve the above object, the utility model adopts the following technical scheme: the utility model provides a solar energy component's paster workstation, includes first support frame, the paster workstation still includes: the first mounting frame is arranged on the top of the first support frame; the first rolling slideway is arranged between a frame on the side wall of the top of the first support frame and the first mounting frame, and is a plurality of rotating rollers which are distributed in a straight line shape; and the first universal slide way is arranged on the first mounting rack and is a plurality of balls distributed in a matrix form.

And a first backflow slideway parallel to the first rolling slideway is arranged on one side, away from the first rolling slideway, of the first mounting frame on the top of the first support frame.

The first rolling slideway and the first universal slideway are respectively provided with two groups, and one side of the top of the first support frame is sequentially provided with the first rolling slideway, the first universal slideway, the first backflow slideway, the first universal slideway and the first rolling slideway from the other side to the top of the first support frame.

The rack is arranged on the frame at the top of the first support frame, and a placing space is arranged between the rack and the first support frame.

The first backflow slide way is a plurality of rotating rollers which are distributed in a straight line shape and are arranged between the two first mounting frames.

A patch production line comprises a patch workbench, at least one welding workbench, a detection workbench and a carrying device, wherein at least one patch workbench is arranged, and the patch workbench, the welding workbench and the detection workbench are sequentially spliced end to end; the carrying device is arranged above the welding workbench and the detection workbench and used for carrying the solar cell welded on the welding workbench to the detection workbench.

The welding work table includes: a second support frame; the second mounting frames are arranged on two sides of a frame at the top of the second support frame, and a mounting groove is formed between the frame of the second support frame and the second mounting groove; the second rolling slideway is arranged in the mounting groove in a straight shape and is a plurality of rotating rollers distributed in a straight shape; the second universal slide way is arranged on the second mounting rack and is a plurality of balls distributed in a matrix form; and the second backflow slide way is arranged between the two second mounting racks and is parallel to the second rolling slide way.

The carrying device includes: the fixing frame is sleeved outside the welding workbench and the detection workbench;

the three-axis linear module is arranged on the fixed frame and positioned above the welding workbench and the detection workbench; and the sponge sucker is arranged on the Z-axis linear module of the three-axis linear module.

After the technical scheme is adopted, the utility model discloses beneficial effect does: when the paster workbench is used, one part of the bottom of the tray is positioned on the first rolling slideway and the first universal slideway so that a user can arrange the battery pieces on the tray conveniently, and in the process of arranging the battery pieces, the user pushes the tray on the first rolling slideway and the first universal slideway and then continues arranging the battery pieces. The tray slides on first roll slide and first universal slide, realizes becoming the rolling friction with the slip friction of tray and paster workstation to be convenient for improve staff's on the station work efficiency.

When the solar module is used in a chip mounting production line, after a worker finishes chip arrangement on a tray of a chip mounting workbench, the tray can be pushed to a second rolling slide and a second universal slide on a welding workbench along a first rolling slide and a first universal slide, so that the worker on a station of the welding workbench can conveniently carry out chip mounting welding on the battery chips finished with the chip arrangement on the tray, after the chip mounting work is finished, the welding worker can push the tray to a second backflow slide along the second universal slide, a carrying device can carry the battery chips finished with the chip mounting welding on the tray on the second backflow slide to a detection workbench, the production efficiency of the solar module is improved, the subsequent detection personnel can conveniently carry out detection, and meanwhile, the worker can push the empty tray to the first backflow slide along the second backflow slide for the chip arrangement worker to use the chip arrangement.

Drawings

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

FIG. 1 is a schematic structural view of a patch workbench;

fig. 2 is a schematic structural view of a patch production line.

Description of reference numerals: 1. a patch worktable; 11. a first support frame; 12. a first mounting bracket; 13. a first rolling ramp; 131. a rotating roller; 14. a first universal slide; 141. a universal ball; 15. a rack; 16. a first return runner; 2. a tray; 3. a welding work table; 31. a second support frame; 32. a second mounting bracket; 33. a second rolling ramp; 34. a second universal slide way; 35. a second return chute; 4. a detection workbench; 5. a carrying device; 51. a fixed mount; 52. a three-axis linear module; 521. an X-axis linear module; 522. a Y-axis linear module; 523. a Z-axis linear module; 53. a sponge sucker; 54. a control box; 55. And a fixing member.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications to the present embodiment as required without making a contribution, but all the embodiments are protected by the patent law within the scope of the claims of the present invention.

The embodiment relates to a solar module's paster workstation 1, as shown in fig. 1, including first support frame 11, paster workstation 1 still includes: a first mounting frame 12, a first rolling slideway 13 and a first universal slideway 14.

The first mounting frame 12 is disposed on top of the first support frame 11. First mounting bracket 12 and first support frame 11 welded fastening, first mounting bracket 12 and first support frame 11 are made by metal or stereoplasm timber, and first roll slide 13 sets up between the frame of first support frame 11 top lateral wall and first mounting bracket 12, and first roll slide 13 is a plurality of live-rollers 131 that are word and distribute. The turning roller 131 is rotatably fitted between the first mounting frame 12 and the first support bezel. The first universal slide way 14 is disposed on the first mounting frame 12, and the first universal slide way 14 is a plurality of balls distributed in a matrix manner. In this embodiment, the ball is a universal ball 141 fixed to the first mounting frame 12. So that the tray 2 can be arranged on a universal slideway

It should be noted that, when the sheet sticking workbench 1 is used, a part of the bottom of the tray 2 is located on the first rolling slideway 13 and the first universal slideway 14 so as to facilitate the user to arrange the battery sheets on the tray 2, and in the process of arranging the battery sheets, the user pushes the tray 2 on the first rolling slideway 13 and the first universal slideway 14 and then continues to arrange the battery sheets. The tray 2 slides on the first rolling slideway 13 and the first universal slideway 14, so that the sliding friction between the tray 2 and the paster workbench 1 is changed into rolling friction, and the working efficiency of workers on stations is improved conveniently.

Preferably, a first return slideway 16 parallel to the first rolling slideway 13 is arranged on the top of the first support frame 11 and on one side of the first mounting frame 12 away from the first rolling slideway 13. In the present embodiment, the first backflow chute 16 is a plurality of rotating rollers 131 arranged in a straight line between the two first mounting frames 12. It should be noted that the standby tray 2 can move on the first return chute 16, the standby tray 2 can transition to the first rolling chute 13 through the first universal chute 14 to facilitate the arrangement of the sheets on the tray 2 by the user, and meanwhile, the user can push the tray 2 completed by the arrangement of the sheets to the manual welding workbench 3 along the first rolling chute 13 to facilitate the welding worker to weld the patch.

Preferably, two sets of the first rolling slideway 13 and the first universal slideway 14 are arranged, and the first rolling slideway 13, the first universal slideway 14, the first backflow slideway 16, the first universal slideway 14 and the first rolling slideway 13 are arranged from one side of the top of the first support frame 11 to the other side of the top of the first support frame in sequence. So that two sides of each paster workbench 1 are respectively provided with a worker, and the space of the paster workbench 1 is reasonably utilized.

Preferably, a rack 15 is arranged on the frame at the top of the first support frame 11, and a placement space is arranged between the rack 15 and the first support frame 11. The rack 15 is convenient for users to place the battery pieces to be arranged, so that the users can arrange the battery pieces conveniently.

The utility model provides a paster production line, as shown in fig. 2, includes at least one paster workstation 1, at least one weldment work platform 3 and the detection achievement platform 4 that splices in proper order end to make this paster production line be a style of calligraphy setting, the user can arrange the production line according to the product flow direction, can increase or reduce paster workstation 1 and/or weldment work platform 3 according to the demand simultaneously. The conveying device 5 is arranged above the welding workbench 3 and the detection workbench 4 and is used for conveying the solar cell welded on the welding workbench 3 to the detection workbench 4. In this embodiment, a plurality of rows of slideways composed of a plurality of rotating rollers 131 are arranged in parallel on the top of the detection workbench 4. So that the detection personnel can detect the battery piece assembly finished by welding and pasting on the detection workbench 4.

Preferably, the welding bench 3 comprises: the second support frame 31, the second mounting frame 32, the second rolling slideway 33, the second universal slideway 34 and the second return slideway 35.

The second mounting bracket 32 is disposed near both sides of the top frame of the second support frame 31, and mounting grooves are disposed between the frame of the second support frame 31 and the second mounting grooves. The second rolling slideway 33 is arranged in the mounting groove in a straight line shape, and the second rolling slideway 33 is a plurality of rotating rollers 131 distributed in a straight line shape. The second universal slide 34 is disposed on the second mounting bracket 32, and the second universal slide 34 is a plurality of balls distributed in a matrix form. A second return ramp 35 is disposed between the two second mounts 32 and is parallel to the second roller ramp 33. It should be noted that the heights of the first support frame 11 and the second support frame 31 are equal, when the patch workbench 1 is spliced with the welding workbench 3, the first rolling slideway 13 is connected with the second rolling slideway 33, the first universal slideway 14 is connected with the second universal slideway 34, the first mounting frame 12 is connected with the second mounting frame 32, and the first loop slideway is connected with the second loop slideway.

After the worker finishes arranging the sheets on the tray 2 of the sheet sticking workbench 1, the worker can push the tray 2 finished with the sheet arrangement to the second rolling slideway 33 and the second universal slideway 34 on the welding workbench 3 along the first rolling slideway 13 and the first universal slideway 14, so that workers on the station of the welding workbench 3 can conveniently carry out surface mounting welding on the battery pieces which are arranged on the tray 2 and finished with surface mounting welding, a welder can push the tray 2 to the second reflow slideway 35 along the second universal slideway 34, the carrying device 5 can carry the battery piece welded with the patch on the tray 2 on the second reflow slideway 35 to the detection workbench 4, thereby promote the efficiency of solar energy component production to subsequent measurement personnel detect, the workman can promote empty tray 2 along second backward flow slide 35 to first backward flow slide 16 on with arranging the piece workman and using row piece simultaneously.

Preferably, the handling device 5 comprises: a fixed frame 51, a three-axis linear module 52 and a sponge suction cup 53.

The fixed mount 51 is sleeved outside the welding workbench 3 and the detection workbench 4. The three-axis linear module 52 is disposed on the fixing frame 51 and located above the welding worktable 3 and the detection worktable 4. In the present embodiment, the three-axis linear modules 52 are an X-axis linear module 521, a Y-axis linear module 522, and a Z-axis linear module 523, respectively. The sponge sucker 53 is disposed on the Z-axis linear module 523 of the three-axis linear module 52. The sponge sucker 53 is fixed on the slider of the Z-axis linear module 523 by a fixing member 55. The sponge suckers 53 are provided with a plurality of sponge suckers and are uniformly fixed at the bottom of the fixing part 55, and the fixing frame 51 and the sponge suckers 53 pass through screws. The carrying device 5 further comprises a control box 54 fixed on the fixing member 55 and connected with the three-axis linear module 52 and the sponge suction cup 53 for controlling the operation of the three-axis linear module 52 and the sponge suction cup 53. The sponge suction cup 53 is a vacuum sponge suction cup 53 of the prior art.

Above, the technical solutions of the present invention are only used for illustration and not for limitation, and other modifications or equivalent replacements made by the technical solutions of the present invention by those of ordinary skill in the art should be covered in the scope of the claims of the present invention as long as they do not depart from the spirit and scope of the technical solutions of the present invention.

Claims (8)

1. A solar module's paster workstation (1), includes first support frame (11), its characterized in that, paster workstation (1) still includes: a first mounting bracket (12) arranged on top of the first support bracket (11);

the first rolling slideway (13) is arranged between the frame of the side wall of the top of the first support frame (11) and the first mounting frame (12), and the first rolling slideway (13) is a plurality of rotating rollers (131) distributed in a straight line shape; and the first universal slide way (14) is arranged on the first mounting frame (12), and the first universal slide way (14) is provided with a plurality of balls distributed in a matrix form.

2. Patch workstation (1) for solar modules according to claim 1, characterized in that a first return runner (16) parallel to the first roller runner (13) is arranged on top of the first support frame (11) on the side of the first mounting frame (12) remote from the first roller runner (13).

3. The patch workbench (1) for the solar module according to claim 2, wherein the first rolling slideway (13) and the first universal slideway (14) are provided in two groups, and the first rolling slideway (13), the first universal slideway (14), the first backflow slideway (16), the first universal slideway (14) and the first rolling slideway (13) are sequentially arranged from one side to the other side of the top of the first support frame (11).

4. A solar module patch workbench (1) according to claim 3, characterized in that a rack (15) is arranged on the frame on the top of the first support frame (11), and a placement space is arranged between the rack (15) and the first support frame (11).

5. The solar module patch workstation (1) according to claim 4, wherein the first return runner (16) is a plurality of rotating rollers (131) arranged in a line between the two first mounting frames (12).

6. A paster production line is characterized by comprising the paster workbench (1) as claimed in claim 5, at least one welding workbench (3), at least one detection workbench (4) and a carrying device (5), wherein at least one paster workbench (1) is arranged, and the paster workbench (1), the welding workbench (3) and the detection workbench (4) are sequentially spliced end to end; the carrying device (5) is arranged above the welding workbench (3) and the detection workbench (4) and used for carrying the solar cell welded on the welding workbench (3) to the detection workbench (4).

7. Patch production line according to claim 6, characterized in that the welding station (3) comprises: a second support frame (31);

the second mounting frames (32) are arranged on two sides of a frame at the top of the second support frame (31), and mounting grooves are formed between the frame of the second support frame (31) and the second mounting frames (32);

the second rolling slideway (33) is arranged in the mounting groove in a straight shape, and the second rolling slideway (33) is provided with a plurality of rotating rollers (131) which are distributed in a straight shape;

a second universal slide way (34) arranged on the second mounting rack (32), wherein the second universal slide way (34) is provided with a plurality of balls distributed in a matrix form; and a process for the preparation of a coating,

and the second backflow slide way (35) is arranged between the two second mounting frames (32) and is parallel to the second rolling slide way (33).

8. Patch production line according to claim 6, characterized in that the handling device (5) comprises:

the fixing frame (51) is sleeved outside the welding workbench (3) and the detection workbench (4);

the three-axis linear module (52) is arranged on the fixed frame (51) and is positioned above the welding workbench (3) and the detection workbench (4); and a process for the preparation of a coating,

and the sponge sucker (53) is arranged on the Z-axis linear module (523) of the three-axis linear module (52).

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