CN219979526U - Graphite boat piece stuck point jacking assembly - Google Patents

Abstract

The utility model discloses a graphite boat sheet clamping point jacking assembly which comprises a rotary jacking piece, a cross beam and a longitudinal beam, wherein the longitudinal beam is connected to the cross beam in a sliding mode and moves back and forth on the cross beam, the rotary jacking piece is arranged on the longitudinal beam in a sliding mode, and the rotary jacking piece moves back and forth on the longitudinal beam. The utility model provides a graphite boat sheet clamping point jacking component which can realize the secondary utilization of clamping points and has a simple structure and easy manufacture.

Description

Graphite boat piece stuck point jacking assembly

Technical Field

The utility model belongs to the technical field of photovoltaic equipment, and particularly relates to a graphite boat sheet clamping point jacking assembly.

Background

The silicon wafer is the main material of the photovoltaic cell, when the silicon wafer is coated, the uncoated silicon wafer is required to be inserted into a carrier, and at present, the carrier generally adopts a graphite boat. When the silicon chip is fixed on the graphite boat, the clamping point is punched on the graphite boat sheet, and the silicon chip is fixed on the graphite boat sheet by utilizing the clamping point on the graphite boat sheet. However, the clip point on the market is not reused at present, the clip point is arranged on the graphite boat sheet, the silicon wafer is fixed on the graphite boat sheet by the clip point, and under the condition of long-term use, the overlapping part of the clip point and the silicon wafer is easy to wear, so that the photoelectric conversion efficiency of the silicon wafer is possibly influenced, but the old clip point is completely abandoned, and the waste is really caused, so that the cost is increased.

Disclosure of Invention

In order to solve the problems, the utility model provides a graphite boat sheet stuck point jacking assembly, which comprises a rotary jacking piece, a cross beam and a longitudinal beam, wherein the longitudinal beam is connected to the cross beam in a sliding mode and moves back and forth on the cross beam, the rotary jacking piece is arranged on the longitudinal beam in a sliding mode, and the rotary jacking piece moves back and forth on the longitudinal beam.

According to the graphite boat sheet stuck point jacking assembly provided by the utility model, further, the cross beams comprise a first cross beam and a second cross beam, two ends of the longitudinal beam are respectively erected on the first cross beam and the second cross beam, and two ends of the longitudinal beam synchronously slide on the first cross beam and the second cross beam.

According to the graphite boat sheet clamping point jacking assembly provided by the utility model, further, when the longitudinal beam moves on the cross beam, the longitudinal beam and the movement of the rotary jacking piece on the longitudinal beam are not mutually interfered.

According to the graphite boat sheet stuck point jacking assembly provided by the utility model, the graphite boat sheet stuck point jacking assembly further comprises a sliding connecting piece, wherein the rotary jacking piece is fixedly arranged on the sliding connecting piece, and the sliding connecting piece is connected to the longitudinal beam in a sliding manner, so that the sliding connecting piece slides back and forth on the longitudinal beam, and the rotary jacking piece is driven to move back and forth along the extending direction of the longitudinal beam.

According to the graphite boat sheet stuck point jacking assembly provided by the utility model, the graphite boat sheet stuck point jacking assembly further comprises a driving cylinder, wherein the driving cylinder is connected with the rotary jacking piece, and the driving cylinder is used for providing power for the rotary jacking piece so that the rotary jacking piece rotates.

According to the graphite boat sheet clamping point jacking assembly provided by the utility model, further, the rotary jacking piece rotates under the action of the driving cylinder, the rotary jacking piece jacks up the old clamping point firstly, then the old clamping point rotates 180 degrees, the rotary jacking piece is pulled out from the old clamping point, and finally the old clamping point is driven into the graphite boat sheet clamping point mounting hole by the clamping point punching assembly, so that the secondary utilization of the old clamping point is realized.

According to the graphite boat sheet clamping point jacking assembly provided by the utility model, further, the rotary jacking piece comprises a rotary jacking piece main body, and the rotary jacking piece main body is fixedly connected with the sliding connecting piece.

According to the graphite boat sheet stuck point jacking assembly provided by the utility model, further, the rotary jacking piece further comprises a rotary shaft, the rotary shaft is rotatably inserted into the rotary jacking piece main body, and the rotary shaft can rotate.

According to the graphite boat piece stuck point jacking assembly provided by the utility model, further, the rotary jacking piece further comprises the ejector rod, the ejector rod is telescopically and fixedly connected to the rotary shaft, the ejector rod can rotate under the drive of the rotary shaft, and the ejector rod can stretch back and forth along the axis direction of the rotary shaft.

The working principle of the utility model is as follows: the utility model provides a graphite boat sheet clamping point jacking assembly which comprises a rotary jacking piece, a cross beam, a longitudinal beam and a driving air cylinder, wherein the rotary jacking piece moves back and forth on the cross beam and the longitudinal beam, so that the rotary jacking piece moves in the transverse direction and the longitudinal direction, the driving air cylinder drives the rotary jacking piece to rotate, the rotary jacking piece comprises a push rod and a rotating shaft, the push rod is inserted into the rotating shaft and rotates simultaneously with the rotating shaft, the push rod can also stretch up and down along the axis direction of the rotating shaft, when the push rod stretches out, the push rod is inserted into a clamping point of a graphite boat sheet, the clamping point is ejected from the graphite boat sheet, then the rotating shaft starts to rotate 180 degrees, meanwhile, the push rod rotates an old clamping point by 180 degrees, and the clamping point at the position of which the rotation is 180 degrees is pressed into a clamping point mounting hole of the graphite boat sheet again under the pressure of the clamping point punching assembly, so that the secondary utilization of the clamping point is realized.

The beneficial effects of the utility model are as follows: the utility model provides a graphite boat sheet clamping point jacking component which can realize the secondary utilization of clamping points and has a simple structure and easy manufacture.

Drawings

Fig. 1 is a schematic structural diagram of an automatic assembling apparatus for a clamping point of a graphite boat sheet according to an embodiment of the present utility model.

Fig. 2 is a schematic structural diagram of a graphite boat sheet stuck point lifting assembly according to an embodiment of the present utility model.

Fig. 3 is a schematic diagram of another structure of a graphite boat sheet stuck point lifting assembly according to an embodiment of the present utility model.

Detailed Description

The utility model will be described in further detail below with reference to the drawings by means of specific embodiments. Wherein like elements in different embodiments are numbered alike in association. In the following embodiments, numerous specific details are set forth in order to provide a better understanding of the present utility model. However, one skilled in the art will readily recognize that some of the features may be omitted, or replaced by other elements, materials, or methods in different situations. In some instances, related operations of the present utility model have not been shown or described in the specification in order to avoid obscuring the core portions of the present utility model, and may be unnecessary to persons skilled in the art from a detailed description of the related operations, which may be presented in the description and general knowledge of one skilled in the art.

Furthermore, the features, operations, or characteristics described in the specification may be combined in any suitable manner to form various embodiments, and the operational steps involved in the embodiments may be sequentially exchanged or adjusted in a manner apparent to those skilled in the art. Accordingly, the description and drawings are merely for clarity of describing certain embodiments and are not necessarily intended to imply a required composition and/or order.

The numbering of the components itself, e.g. "first", "second", etc., is used herein merely to distinguish between the described objects and does not have any sequential or technical meaning. The terms "connected," "coupled," and "connected," as used herein, unless otherwise indicated, are intended to encompass both direct and indirect connections (couplings).

As shown in FIG. 1, the utility model relates to an automatic assembling device for a clamping point of a graphite boat sheet, which adopts an automatic assembling mode to assemble the clamping point on the graphite boat sheet, thereby ensuring the yield of the clamping point assembling and improving the production speed. The graphite boat stuck point automatic assembly equipment is provided with an automatic control system, and at least the running speed, the applicable graphite boat size and the like can be adjusted through the control system.

The automatic graphite boat sheet clamping point assembling device comprises a cover body 1, wherein the cover body 1 is provided with an inner cavity, and universal wheels 12 are arranged at the bottom of the cover body 1 and used for rapidly moving the automatic graphite boat sheet clamping point assembling device. The outer wall of the cover body 1 is also provided with a control system 11, the control system 11 is electrically connected with the graphite boat sheet clamping point automatic assembly equipment, and the purpose is to control the automatic operation action and state of the graphite boat sheet clamping point automatic assembly equipment. The outer wall of the cover body 1 is also provided with a transparent window body 13, and the running state of the graphite boat sheet clamping point automatic assembly equipment can be observed through the transparent window body 13.

The top wall of the cover body 1 is also provided with a signal lamp 14, the signal lamp 14 is electrically connected with the control system 11, and the signal lamp 14 can send out an alarm signal when the graphite boat sheet clamping point automatic assembly equipment fails.

As shown in fig. 2 and 3, the present utility model provides a graphite boat sheet stuck point lifting assembly, which is disposed in an inner cavity of a cover body 1 of the graphite boat sheet stuck point automatic assembly device, and is used for reutilization of stuck points.

The graphite boat sheet stuck point jacking assembly comprises a rotary jacking piece 121, a cross beam and a longitudinal beam 124, wherein the longitudinal beam 124 is connected to the cross beam in a sliding mode and moves back and forth on the cross beam, the rotary jacking piece 121 is arranged on the longitudinal beam 124 in a sliding mode, and the rotary jacking piece 121 moves back and forth on the longitudinal beam 124.

Further, the cross members include a first cross member 122 and a second cross member 123, two ends of the longitudinal member 124 are respectively disposed on the first cross member 122 and the second cross member 123, and two ends of the longitudinal member 124 are synchronously slid on the first cross member 122 and the second cross member 123.

More specifically, the longitudinal beam 124 does not interfere with the movement of the rotary lifting member 121 over the longitudinal beam 124 as it moves over the cross beam.

The graphite boat sheet clamping point jacking assembly further comprises a sliding connecting piece 125, the rotary jacking piece 121 is fixedly installed on the sliding connecting piece 125, and the sliding connecting piece 125 is connected to the longitudinal beam 124 in a sliding mode, so that the sliding connecting piece 125 slides back and forth on the longitudinal beam 124, and the rotary jacking piece 121 is driven to move back and forth along the extending direction of the longitudinal beam 124.

The graphite boat sheet stuck point jacking assembly further comprises a driving cylinder 126, the driving cylinder 126 is connected with the rotary jacking member 121, and the driving cylinder 126 is used for providing power for the rotary jacking member 121 so that the rotary jacking member 121 rotates.

The rotary jacking piece 121 rotates under the action of the driving cylinder 126, the rotary jacking piece 121 jacks up the old clamping point, then the old clamping point rotates 180 degrees, the rotary jacking piece 121 is pulled out from the old clamping point, and finally the old clamping point is driven into the graphite boat clamping point mounting hole by the clamping point punching assembly, so that the secondary utilization of the old clamping point is realized.

The rotary jack 121 includes a rotary jack body 1213, the rotary jack body 1213 and the slide coupling 125 being fixedly connected.

The rotary lifter 121 further includes a rotation shaft 1211, the rotation shaft 1211 is rotatably inserted into the rotary lifter body 1213, and the rotation shaft 1211 is rotatable.

The rotary jack 121 further includes a jack 1212, the jack 1212 is telescopically and fixedly connected to the rotary shaft 1211, the jack 1212 can rotate under the drive of the rotary shaft 1211, and the jack 1212 can be telescopic back and forth along the axial direction of the rotary shaft 1211.

The working principle of the technical scheme is as follows: the utility model provides a graphite boat sheet clamping point jacking assembly which comprises a rotary jacking piece, a cross beam, a longitudinal beam and a driving air cylinder, wherein the rotary jacking piece moves back and forth on the cross beam and the longitudinal beam, so that the rotary jacking piece moves in the transverse direction and the longitudinal direction, the driving air cylinder drives the rotary jacking piece to rotate, the rotary jacking piece comprises a push rod and a rotating shaft, the push rod is inserted into the rotating shaft and rotates simultaneously with the rotating shaft, the push rod can also stretch up and down along the axis direction of the rotating shaft, when the push rod stretches out, the push rod is inserted into a clamping point of a graphite boat sheet, the clamping point is ejected from the graphite boat sheet, then the rotating shaft starts to rotate 180 degrees, meanwhile, the push rod rotates an old clamping point by 180 degrees, and the clamping point at the position of which the rotation is 180 degrees is pressed into a clamping point mounting hole of the graphite boat sheet again under the pressure of the clamping point punching assembly, so that the secondary utilization of the clamping point is realized.

The beneficial effects of the utility model are as follows: the utility model provides a graphite boat sheet clamping point jacking component which can realize the secondary utilization of clamping points and has a simple structure and easy manufacture.

The foregoing description of the utility model has been presented for purposes of illustration and description, and is not intended to be limiting. Several simple deductions, modifications or substitutions may also be made by a person skilled in the art to which the utility model pertains, based on the idea of the utility model.

Claims (9)

1. The utility model provides a graphite boat piece stuck point jacking subassembly, its characterized in that, includes rotatory jacking piece, crossbeam and longeron, the longeron slidingtype is connected on the crossbeam, and round trip movement on the crossbeam, rotatory jacking piece slidingtype sets up on the longeron, and rotatory jacking piece round trip movement on the longeron.

2. The graphite boat sheet stuck point jacking assembly of claim 1 wherein the cross beams comprise a first cross beam and a second cross beam, two ends of the longitudinal beams are respectively erected on the first cross beam and the second cross beam, and two ends of the longitudinal beams synchronously slide on the first cross beam and the second cross beam.

3. The graphite boat sheet stuck point lifting assembly of claim 2 wherein said stringers move on said cross beam without interfering with movement of said rotary lifting member on said stringers.

4. The graphite boat sheet stuck point jacking assembly of claim 3 further comprising a sliding coupling, wherein the rotary jacking member is fixedly mounted on the sliding coupling, and wherein the sliding coupling is slidably connected to the longitudinal beam, such that the sliding coupling slides back and forth on the longitudinal beam, thereby driving the rotary jacking member to move back and forth along the direction in which the longitudinal beam extends.

5. The graphite boat sheet stuck point jacking assembly of claim 4 further comprising a drive cylinder coupled to the rotary jacking member, the drive cylinder to power the rotary jacking member such that the rotary jacking member rotates.

6. The graphite boat sheet stuck point lifting assembly of claim 5 wherein said rotary lifting member rotates under the influence of said drive cylinder.

7. The graphite boat sheet stuck point jacking assembly of claim 6 wherein the rotary jacking member comprises a rotary jacking member body, the rotary jacking member body and the sliding coupling being fixedly connected.

8. The graphite boat sheet stuck point lifting assembly of claim 7 wherein the rotary lifting member further comprises a rotating shaft rotatably inserted into the rotary lifting member body and rotatable.

9. The graphite boat sheet stuck point jacking assembly according to claim 8, wherein the rotary jacking piece further comprises a jacking rod, the jacking rod is telescopically and fixedly connected to the rotary shaft, the jacking rod can rotate under the drive of the rotary shaft, and the jacking rod can stretch back and forth along the axial direction of the rotary shaft.