CN216712292U - Electroplating carrier - Google Patents

Abstract

The embodiment of the utility model provides an electroplating carrier. The electroplating carrier comprises: the solar cell clamp comprises a cartridge clip for clamping a solar cell and a driving structure for driving the cartridge clip to open and close, wherein the cartridge clip comprises a first clip elastic sheet and a second clip elastic sheet which are connected with each other; the first clip elastic sheet is provided with a first probe, and the second clip elastic sheet is provided with a second probe; the cartridge clip comprises a clamping state and an opening state; under the condition that the cartridge clip is in a clamping state, the first clip elastic sheet and the second clip elastic sheet are close to each other, and the first probe and the second probe clamp the solar cell; under the condition that the cartridge clip is in the unfolding state, the first clip elastic sheet and the second clip elastic sheet are away from each other, and the first probe and the second probe release the clamping of the solar cell. In the embodiment of the utility model, the structure of the electroplating carrier is simpler by arranging the first clip elastic sheet and the second clip elastic sheet, arranging the first probe on the first clip elastic sheet and arranging the second probe on the second clip elastic sheet.

Description

Electroplating carrier

Technical Field

The utility model relates to the technical field of solar cell electroplating, in particular to an electroplating carrier.

Background

Electroplating is generally required to be performed on the solar cell to form the electrode, so that the cost in the production process of the solar cell is reduced.

At present, when electroplating is performed on a solar cell, the solar cell is generally fixed on an electroplating carrier, and then the electroplating carrier for fixing the solar cell is placed in an electroplating solution to electroplate the solar cell. However, the existing electroplating carrier has a complicated structure, and therefore, an electroplating carrier with a simple structure is urgently needed.

SUMMERY OF THE UTILITY MODEL

The embodiment of the utility model provides an electroplating carrier, which can solve the problem that the structure of the electroplating carrier is complex in the related technology.

In order to solve the technical problem, the utility model is realized as follows:

an embodiment of the present invention provides an electroplating carrier, including: the device comprises a cartridge clip for clamping the solar cell and a driving structure for driving the cartridge clip to open and close;

the cartridge clip comprises a first clip elastic sheet and a second clip elastic sheet which are mutually connected, wherein a first probe is arranged on the first clip elastic sheet, and a second probe is arranged on the second clip elastic sheet;

the cartridge clip comprises a clamping state and a spreading state;

under the condition that the cartridge clip is in a clamping state, the first clip elastic sheet and the second clip elastic sheet are close to each other, and the first probe and the second probe clamp two surfaces of the solar cell;

under the condition that the elastic clip is in a spread state, the first clip elastic sheet and the second clip elastic sheet are away from each other, and the first probe and the second probe release the clamping of the solar cell.

Optionally, the first clip sheet comprises a first sub-sheet and a second sub-sheet, and the second clip sheet comprises a third sub-sheet and a fourth sub-sheet;

the first sub-piece is connected with the second sub-piece, and a first included angle is formed between the first sub-piece and the second sub-piece;

the third sub-piece is connected with the fourth sub-piece, and a second included angle is formed between the third sub-piece and the fourth sub-piece;

the first probes are arranged on the first sub-sheet, the second probes are arranged on the fourth sub-sheet, and the second sub-sheet is detachably connected with the third sub-sheet;

under the condition of a clamping state at the cartridge clip, the first sub-piece and the fourth sub-piece are close to each other; under the condition that the cartridge clip is in the expanded state, the first sub-piece and the fourth sub-piece are far away from each other.

Optionally, the driving structure is in contact with the first clip elastic piece and the second clip elastic piece respectively, and the driving structure is configured to drive the clip so as to switch the clip from the clamping state to the spreading state.

Optionally, the drive structure comprises a first drive plate, a second drive plate, and a link structure;

the first drive plate and the second drive plate are arranged oppositely, the first drive plate is in contact with the first clip elastic sheet, the second drive plate is in contact with the second clip elastic sheet, the first drive plate is connected with the second drive plate through the connecting rod structure, and the connecting rod structure is used for driving the first drive plate and the second drive plate to be away from each other, so that the first clip elastic sheet is away from the second clip elastic sheet.

Optionally, the link structure comprises a first link, a second link, a drive rod, and a drive boss;

the first end of the first connecting rod is hinged with the first driving plate, the first end of the second connecting rod is hinged with the second driving plate, two ends of the driving rod are respectively hinged with the second end of the first connecting rod and the second end of the second connecting rod, and the driving boss is arranged on the driving rod;

under the condition that the driving boss is stressed, the driving boss drives the driving rod to move, so that the driving rod drives the first connecting rod and the second connecting rod to move, and the first driving plate and the second driving plate are far away from each other.

Optionally, the link structure further comprises a third link and a fourth link;

the first end of the third connecting rod is arranged on the first driving plate, the first end of the fourth connecting rod is arranged on the second driving plate, and the second end of the third connecting rod is hinged with the second end of the fourth connecting rod.

Optionally, the electroplating carrier further comprises a carrier plate;

the first clip elastic sheet and the second clip elastic sheet are both connected with the support plate, and the support plate is used for fixing the first clip elastic sheet and the second clip elastic sheet.

Optionally, a first joint and a second joint are arranged on the carrier plate;

the first clip elastic sheet is connected with the first connector, the first connector is used for fixing the first clip elastic sheet, the first connector is used for transmitting a first power supply to the first clip elastic sheet, the second clip elastic sheet is connected with the second connector, the second connector is used for fixing the second clip elastic sheet, and the second connector is used for transmitting a second power supply to the second clip elastic sheet.

Optionally, the carrier plate has a hollow portion, the hollow portion includes a first side and a second side opposite to each other, the number of the first clip spring pieces is two, and the number of the second clip spring pieces is two;

the two first clip spring pieces are respectively positioned on the first side and the second side, and the two second clip spring pieces are respectively positioned on the first side and the second side.

Optionally, the first clip piece and the second clip piece are coated with insulating layers.

In the embodiment of the utility model, the first clip spring is provided with the first probe, the second clip spring is provided with the second probe, and the electroplating carrier comprises a clamping state and a spreading state, so that the first clip spring and the second clip spring are close to each other under the condition that the electroplating carrier is in the clamping state, the first probe and the second probe can clamp the solar cell, and then the solar cell can be electroplated. Under the condition that the electroplating carrier is in a spread state, the second clamping elastic sheet and the second clamping elastic sheet are away from each other, so that the first probe and the second probe release the clamping of the solar cell, and then the completely electroplated solar cell can be taken out of the electroplating carrier. That is, in the embodiment of the present invention, the first clip elastic sheet and the second clip elastic sheet are arranged, and the first clip elastic sheet is detachably connected to the second clip elastic sheet, the first probe is arranged on the first clip elastic sheet, and the second probe is arranged on the second clip elastic sheet, so that the first probe and the second probe can clamp the solar cell, and the structure of the electroplating carrier is relatively simple.

Drawings

FIG. 1 is a schematic diagram of an electroplating carrier in a clamping state according to an embodiment of the present invention;

fig. 2 is a schematic diagram of an electroplating carrier in an expanded state according to an embodiment of the present invention.

Reference numerals:

10: a first clip leaf; 20: a second clip spring; 30: a first probe; 40: a second probe; 50: a drive structure; 60: a carrier plate; 70: connecting the elastic sheets; 11: a first sub-sheet; 12: a second sub-sheet; 21: a third sub-sheet; 22: a fourth sub-sheet; 51: a first drive plate; 52: a second drive plate; 53: a connecting rod structure; 61: a first joint; 62: a second joint; 63: a hollow-out section; 511: a first driving section; 521: a second driving section; 531: a first link; 532: a second link; 533: a drive rod; 534: driving the boss; 535: a third link; 536: a fourth link; 100: provided is a solar cell.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, not all, embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be appreciated that reference throughout this specification to "one embodiment" or "an embodiment" means that a particular feature, structure or characteristic described in connection with the embodiment is included in at least one embodiment of the present invention. Thus, the appearances of the phrases "in one embodiment" or "in an embodiment" in various places throughout this specification are not necessarily all referring to the same embodiment. Furthermore, the particular features, structures, or characteristics may be combined in any suitable manner in one or more embodiments.

As shown in fig. 1 and 2, the plating carrier includes: a cartridge clip for clamping the solar cell 100 and a driving structure 50 for driving the cartridge clip to open and close.

The cartridge clip comprises a first clip elastic sheet 10 and a second clip elastic sheet 20 which are connected with each other, wherein a first probe 30 is arranged on the first clip elastic sheet 10, and a second probe 40 is arranged on the second clip elastic sheet 20. The cartridge clip comprises a clamping state and an opening state, under the condition that the cartridge clip is in the clamping state, the first clip elastic sheet 10 and the second clip elastic sheet 20 are close to each other, and the first probe 30 and the second probe 40 clamp two sides of the solar cell 100; when the clip is in the opened state, the first clip spring 10 and the second clip spring 20 are away from each other, and the first probe 30 and the second probe 40 release the clamping of the solar cell 100.

In the embodiment of the present invention, since the first probe 30 is disposed on the first clip elastic sheet 10, the second probe 40 is disposed on the second clip elastic sheet 20, and the driving structure 50 can drive the clip, and the clip includes a clamping state and an expanding state, when the clip is in the clamping state, the first clip elastic sheet 10 and the second clip elastic sheet 20 are close to each other, so that the first probe 30 and the second probe 40 can clamp two sides of the solar cell 100, and then the solar cell 100 can be electroplated. Under the condition that the clip is in the expanded state, the second clip elastic sheet 20 and the second clip elastic sheet 20 are away from each other, so that the first probe 30 and the second probe 40 release the clamping of the solar cell piece 100, and then the solar cell piece 100 which is completely electroplated can be taken out of the clip. That is, in the embodiment of the present invention, the cartridge clip and the driving structure 50 for driving the cartridge clip to open and close are arranged, the first clip elastic piece 10 of the cartridge clip is detachably connected to the second clip elastic piece 20, the first probe 30 is arranged on the first clip elastic piece 10, and the second probe 40 is arranged on the second clip elastic piece 20, so that the first probe 30 and the second probe 40 can clamp the solar cell 100, and the structure of the electroplating carrier is simple.

It should be noted that, when the electroplating carrier is needed to electroplate the solar cell 100, the clip may be in the spreading state, the solar cell 100 is placed between the first clip elastic sheet 10 and the second clip elastic sheet 20, and then the clip is in the clamping state, so that the first probe 30 and the second probe 40 clamp the solar cell 100. After the electroplating is completed, the clip can be opened again, and the electroplated solar cell piece 100 can be taken out from the clip.

In the embodiment of the present invention, when the solar cell 100 is sandwiched between the first probe 30 and the second probe 40, the solar cell is sandwiched between the first probe 30 and the second probe 40 by a certain force applied to the solar cell 100. The magnitude of the force may be determined according to actual needs, and the embodiment of the present invention is not limited herein.

In addition, in the embodiment of the present invention, the connection manner of the first clip elastic piece 10 and the second clip elastic piece 20 may be: the first clip spring 10 is connected with the second clip spring 20 through a bolt, namely, a first through hole is formed in the first clip spring 10, a second through hole is formed in the second clip spring 20, and the bolt penetrates through the first through hole and the second through hole, so that the first clip spring 10 is connected with the second clip spring 20. Of course, the connection mode of the first clip spring plate 10 and the second clip spring plate 20 may be other modes, for example, the first clip spring plate 10 and the second clip spring plate 20 are connected by a buckle, that is, one end of the buckle is connected to the first clip spring plate 10, and the second end of the buckle is connected to the second clip spring plate 20. The embodiment of the present invention is not limited herein as to the connection manner between the first clip spring 10 and the second clip spring 20.

In addition, in the embodiment of the present invention, the first probe 30 is opposite to the second probe 40. When the first probe 30 is opposite to the second probe 40, when the solar cell 100 is clamped by the first probe 30 and the second probe 40, the second probe 40 is equivalent to supporting the first probe 30, so that the problem that the damage rate of the solar cell 100 is high due to dislocation of the first probe 30 and the second probe 40 is avoided.

In addition, in the embodiment of the present invention, the number of the first probes 30 may be set according to actual needs, the number of the first probes 30 corresponds to the number of the electrode contacts on the solar cell 100 to be plated, that is, the number of the first probes 30 is equal to the number of the electrode contacts on the solar cell 100 to be plated, and the number of the first probes 30 is not limited herein. In addition, the number of the second probes 40 may be equal to the number of the first probes 30. For example, the number of the first probes 30 is 9, and the number of the second probes 40 is 9.

In addition, in the embodiment of the present invention, the type of the second probe 40 may be the same as the type of the first probe 30, that is, when the first probe 30 is a probe having elasticity, the second probe 40 may also be a probe having elasticity. Of course, the type of the second probe 40 may be different from that of the first probe 30, that is, when the first probe 30 is a probe having elasticity, the second probe 40 may be a probe having no elasticity, and the embodiment of the present invention is not limited thereto.

In addition, in the embodiment of the present invention, the first clip sheet 10 may include a first sub-sheet 11 and a second sub-sheet 12, and the second clip sheet 20 includes a third sub-sheet 21 and a fourth sub-sheet 22. The first sub-piece 11 is connected with the second sub-piece 12, and a first included angle is formed between the first sub-piece 11 and the second sub-piece 12. The third sub-piece 21 is connected with the fourth sub-piece 22, and a second included angle is formed between the third sub-piece 21 and the fourth sub-piece 22. The first probe 30 is disposed on the first sub-sheet 11, the second probe 40 is disposed on the fourth sub-sheet 22, and the second sub-sheet 12 is detachably connected to the third sub-sheet 21. In the case of a clamped state at the cartridge holder, the first sub-piece 11 and the fourth sub-piece 22 approach each other; when the clip is in the expanded state, the first sub-piece 11 and the fourth sub-piece 22 are away from each other.

When the first clip sheet 10 includes a first sub-sheet 11 and a second sub-sheet 12, the second clip sheet 20 includes a third sub-sheet 21 and a fourth sub-sheet 22, the first sub-sheet 11 is connected to the second sub-sheet 12, the third sub-sheet 21 is connected to the fourth sub-sheet 22, the first probe 30 is disposed on the first sub-sheet 11, and the second probe 40 is disposed on the fourth sub-sheet 22, at this time, when the clip is in the clamping state, the first sub-sheet 11 and the fourth sub-sheet 22 are close to each other, so that the first probe 30 and the second probe 40 can clamp the solar cell sheet 100. When the clip is in the expanded state, the first sub-piece 11 and the fourth sub-piece 22 are separated from each other, so that the first probe 30 and the second probe 40 release the clamping of the solar cell piece 100. Further, in the process of the first sub-piece 11 and the fourth sub-piece 22 approaching each other or separating from each other, both the first sub-piece 11 and the second sub-piece 12 are deformed to a certain extent, and the third sub-piece 21 and the fourth sub-piece 22 are also deformed to a certain extent, so that the first sub-piece 11 and the fourth sub-piece 22 are separated from each other, and when the first sub-piece 11 and the fourth sub-piece 22 approach each other, the first sub-piece 11 and the second sub-piece 12 return to the initial state, and the third sub-piece 21 and the fourth sub-piece 22 return to the initial state.

It should be noted that the first included angle may be 90 degrees, and in this case, the first sub-sheet 11 is perpendicular to the second sub-sheet 12. The second included angle may also be 90 degrees, and in this case, the third sub-piece 21 is perpendicular to the fourth sub-piece 22. Of course, the first included angle may also have other values, such as a value close to 90 degrees, 88 degrees, and the like, and the embodiments of the present invention are not limited thereto. In addition, the value of the second included angle may be equal to the value of the first included angle, and certainly, may also be unequal, and the embodiment of the present invention is not limited herein.

In addition, in the embodiment of the present invention, the first sub-piece 11 and the second sub-piece 12 may be an integrated structure, and at this time, the first clip sheet 10 is an integrated whole, and after the first probe 30 is disposed on the first sub-piece 11, when the first clip sheet 10 drives the first probe 11 to move, the first probe 11 has a better clamping force. Similarly, the third sub-piece 21 and the fourth sub-piece 22 can also be of an integrated structure, at this time, the second clip spring 20 is a complete whole, and after the second probe 40 is arranged on the fourth sub-piece 22, the second probe 40 also has better clamping force when the fourth clip spring 22 drives the second probe 40 to move. Of course, the first sub-sheet 11 and the second sub-sheet 12 may also be connected by welding or other connection methods, and the third sub-sheet 21 and the fourth sub-sheet 22 may also be connected by welding or other connection methods, which is not limited herein in the embodiment of the present invention.

In addition, in the embodiment of the present invention, the first probe 30 may be disposed on the first sub-piece 11 by welding, and the second probe 40 may also be disposed on the fourth sub-piece 22 by welding, so that the first probe 30 is firmly connected to the first sub-piece 11, the second probe 40 is firmly connected to the fourth sub-piece 22, and thus when the first probe 30 and the second probe 40 transmit current, the current can be better transmitted. Of course, the first probe 30 may also be disposed on the first sub-sheet 11 by other means, such as riveting, screwing, etc., and the embodiment of the present invention is not limited thereto. In addition, the second probe 40 may also be disposed on the fourth sub-sheet 22 by other means, such as riveting, screwing, etc., and the embodiment of the present invention is not limited herein.

In addition, in some embodiments, the driving structure 50 is respectively in contact with the first clip elastic sheet 10 and the second clip elastic sheet 20, and the driving structure 50 is configured to drive the clip so as to switch the clip from the clamping state to the spreading state.

When the driving structure 50 is respectively in contact with the first clip spring 10 and the second clip spring 20, at this time, the cartridge clip can be driven by the driving structure 50, so that the state of the cartridge clip changes, and the clamping state is switched to the spreading state, so that the electroplated solar cell 100 can be taken out of the cartridge clip. That is, by providing the driving structure 50, the state change of the cartridge clip can be facilitated, thereby facilitating the use of the electroplating carrier.

In addition, in the embodiment of the present invention, the driving structure 50 may include a first driving plate 51, a second driving plate 52, and a link structure 53. The first driving plate 51 is opposite to the second driving plate 52, the first driving plate 51 is in contact with the first clip sheet 10, the second driving plate 52 is in contact with the second clip sheet 20, the first driving plate 51 is connected with the second driving plate 52 through the connecting rod structure 53, and the connecting rod structure 53 is used for driving the first driving plate 51 and the second driving plate 52 to be away from each other, so that the first clip sheet 10 is away from the second clip sheet 20.

Because the first driving plate 51 and the second driving plate 52 are arranged oppositely, the first driving plate 51 is in contact with the first clip sheet 10, the second driving plate 52 is in contact with the second clip sheet 20, and the first driving plate 51 and the second driving plate 52 are connected through the connecting rod structure 53, after the connecting rod structure 53 is stressed, the connecting rod structure 53 can drive the first driving plate 51 and the second driving plate 52 to move, so that the first driving plate 51 and the second driving plate 52 are far away from each other. When the first driving plate 51 and the second driving plate 52 are away from each other, the first driving plate 51 drives the first clip elastic sheet 10 to move, and the second driving plate 52 drives the second clip elastic sheet 20 to move, so that the first clip elastic sheet 10 and the second clip elastic sheet 20 are away from each other.

When the first clip piece 10 includes the first sub piece 11 and the second sub piece 12, the first sub piece 11 contacts the first driving plate 51. When the second clip sheet 20 includes the third sub-sheet 21 and the fourth sub-sheet 22, the third sub-sheet 21 contacts the second driving plate 52.

In addition, in the embodiment of the present invention, the first driving plate 51 may have a plurality of first driving portions 511, each of the first driving portions 511 is a bent structure, and the bent structure is in contact with the first clip sheet 10, so that when the first driving plate 51 receives a force of the link structure 53, the first driving portion 511 of the bent structure of the first driving plate 51 may apply a force to the first sub-sheet 11, so that the first sub-sheet 11 moves. When the number of the first probe pins 30 is plural, the plural first probe pins 30 are arranged on the first sub-sheet 11 at intervals, when the first driving board 51 is in contact with the first sub-sheet 11, the plural first driving parts 511 are in contact with the first sub-sheet 11 at intervals, and one first probe pin 30 is located between two adjacent first driving parts 511. Of course, the first driving board 51 may further have one first driving portion 511, in this case, the one first driving portion 511 may also achieve the function of driving the first sub-sheet 11, and the number of the first driving portions 511 on the first driving board 51 is not limited herein in the embodiment of the present invention. In addition, the structure of the second driving plate 52 may refer to the structure of the first driving plate 51, that is, the second driving plate 52 may have a plurality of second driving portions 521, which is not described herein again.

In addition, in the embodiment of the present invention, the link structure 53 may include a first link 531, a second link 532, a driving rod 533, and a driving boss 534. A first end of the first link 531 is hinged to the first driving plate 51, a first end of the second link 532 is hinged to the second driving plate 52, two ends of the driving rod 533 are hinged to a second end of the first link 531 and a second end of the second link 532, respectively, and the driving boss 534 is disposed on the driving rod 533. Under the condition that the driving boss 534 is stressed, the driving boss 534 drives the driving rod 533 to move, so that the driving rod 533 drives the first link 531 and the second link 532 to move, and the first driving plate 51 and the second driving plate 52 are away from each other.

When the first end of the first link 531 is hinged to the first driving plate 51 and the first end of the second link 532 is hinged to the second driving plate 52, the first link 531 may shift relative to the first driving plate 51, and when the first link 531 shifts, the first link 531 may drive the first driving plate 51 to move, the second link 532 may shift relative to the second driving plate 52, and when the second link 532 shifts, the second link 532 may drive the second driving plate 52 to move. Because the two ends of the driving rod 533 are hinged to the second end of the first connecting rod 531 and the second end of the second connecting rod 532 respectively, the driving boss 534 is disposed on the driving rod 533, and therefore, the driving boss 534 can apply force to the driving boss 534, so that the driving boss 534 drives the driving rod 533 to move, and then the driving rod 533 drives the first connecting rod 531 and the second connecting rod 532, so that the first connecting rod 531 drives the first driving plate 51, the second connecting rod 532 drives the second driving plate 52, so that the first driving plate 51 and the second driving plate 52 move, and further the first driving plate 51 drives the first clip spring 10 to move, the second driving plate 52 drives the second clip spring 20 to move, so that the first clip spring 10 and the second clip spring 20 are away from each other.

In addition, in the embodiment of the present invention, the link structure 53 further includes a third link 535 and a fourth link 536. A first end of the third link 535 is disposed on the first driving plate 51, a first end of the fourth link 536 is disposed on the second driving plate 52, and a second end of the third link 535 is hinged to a second end of the fourth link 536.

When the first end of the third link 535 is disposed on the first drive plate 51, the first end of the fourth link 536 is disposed on the second drive plate 52, and the second end of the third link 535 is hinged to the second end of the fourth link 536, when the first drive plate 51 and the second drive plate 52 are forced to move, the first drive plate 51 and the second drive plate 52 can apply force to the third link 535 and the fourth link 536, respectively, so that the third link 535 and the fourth link 536 move, and after the third link 535 and the fourth link 536 move, the third link 535 and the fourth link 536 can drive the first drive plate 51 and the second drive plate 52 to move, thereby facilitating the movement of the first drive plate 51 and the second drive plate 52, and further facilitating the mutual separation of the first clip elastic sheet 10 and the second clip elastic sheet 20. That is, the third link 535 and the fourth link 536 are provided to facilitate the clip to be moved from the clamped state to the spread state.

In addition, in the embodiment of the present invention, the number of the third link 535 and the fourth link 536 may be set according to actual requirements, for example, the number of the third link 535 is two, the number of the fourth link 536 is two, and the number of the third link 535 and the fourth link 536 is not limited herein.

In addition, in the embodiment of the present invention, the driving structure 50 may further include a first driving plate 51, a second driving plate 52, a first elastic member, a second elastic member, and a force applying member, wherein the first driving plate 51 and the second driving plate 52 are disposed opposite to each other, the first driving plate 51 is in contact with the first clip sheet 10, and the second driving plate 52 is in contact with the second clip sheet 20. The first end of the first elastic member is connected to the first driving plate 51, the first end of the second elastic member is connected to the second driving plate 52, and the second end of the first elastic member and the second end of the second elastic member are both connected to the force applying member. At this time, by applying an external force to the force application member, the force application member drives the first elastic member and the second elastic member to stretch, and then the first elastic member and the second elastic member respectively drive the first driving plate 51 and the second driving plate 52 to move, so that the first clip elastic sheet 10 and the second clip elastic sheet 20 are away from each other. Of course, the driving structure 50 may have other forms, and the embodiment of the present invention is not limited thereto.

In addition, in the embodiment of the present invention, after the clip is changed from the clamping state to the spreading state by the driving structure 50, the clip may be changed from the spreading state to the clamping state by other mechanical members, or the first clip elastic piece 10 and the second clip elastic piece 20 of the clip depend on their own material properties, that is, the first clip elastic piece 10 and the second clip elastic piece 20 have a certain strength, and when the first clip elastic piece 10 and the second clip elastic piece 20 approach each other or move away from each other, the deformation amount of the first clip elastic piece 10 and the second clip elastic piece 20 does not exceed the elastic deformation amount of the material, so that the first clip elastic piece 10 and the second clip elastic piece 20 can be restored from the spreading state to the clamping state by their own properties.

Additionally, in some embodiments, the plating carrier may further include a carrier plate 60. The first clip spring 10 and the second clip spring 20 are both connected to the carrier plate 60, and the carrier plate 60 is used for fixing the first clip spring 10 and the second clip spring 20.

When the first clip spring 10 and the second clip spring 20 are both connected to the carrier 60, at this time, the first clip spring 10 and the second clip spring 20 are both fixed on the carrier 60, so as to avoid the problem of the first clip spring 10 and the second clip spring 20 shaking when the first clip spring 10 and the second clip spring 20 approach each other or are away from each other. In addition, the carrier plate 60 is arranged, so that the first clip spring 10 and the second clip spring 20 can be conveniently fixed, the integrity of the electroplating carrier is better, and the electroplating carrier is convenient to transport.

In addition, in the embodiment of the utility model, when the first clip sheet 10 includes the first sub-sheet 11 and the second sub-sheet 12, the second sub-sheet 12 is connected to the carrier 60. When the second clip sheet 20 includes the third sub-sheet 21 and the fourth sub-sheet 22, the third sub-sheet 21 is connected to the carrier 60.

In addition, in the embodiment of the present invention, when the plating carrier includes the carrier plate 60, a through hole may be further disposed on the carrier plate 60, and the fourth link 536 may be inserted into the through hole, at this time, when the third link 535 and the fourth link 536 are stressed, the fourth link 536 may be blocked by the hole wall of the through hole to shift the position of the third link 535, so that the first clip strip 10 is far away from or close to the second clip strip 20, that is, in this case, the first clip strip 10 may move corresponding to the second clip strip 20 being fixed.

In addition, in the embodiment of the present invention, the electroplating carrier may further include a connection elastic sheet 70, the connection elastic sheet 70 is connected to the carrier 60, and the connection elastic sheet 70 is detachably connected to the second clip elastic sheet 20. By providing the connecting elastic sheet 70, the second clip elastic sheet 20 and the carrier plate 60 can be connected more firmly. At this time, in the process of using the electroplating carrier, the connecting elastic sheet 70 and the second clip elastic sheet 20 can be separated, and after using the electroplating carrier, the connecting elastic sheet 70 and the second clip elastic sheet 20 can be connected.

In addition, in the embodiment of the present invention, the carrier plate 60 is provided with a first joint 61 and a second joint 62. The first clip spring 10 is connected with the first connector 61, the first connector 61 is used for fixing the first clip spring 10, the first connector 61 is used for transmitting a first power supply to the first clip spring 10, the second clip spring 20 is connected with the second connector 62, the second connector 62 is used for fixing the second clip spring 20, and the second connector 62 is used for transmitting a second power supply to the second clip spring 20.

When the carrier plate 60 is provided with the first joint 61 and the second joint 62, at this time, the first clip elastic sheet 10 may be connected to the first joint 61, and the second clip elastic sheet 20 may be connected to the second joint 62, so that the first clip elastic sheet 10 and the second clip elastic sheet 20 are respectively fixed on the carrier plate 60 through the first joint 61 and the second joint 62. In addition, when the first connector 61 transmits a first power to the first clip elastic sheet 10 and the second connector 62 transmits a second power to the second clip elastic sheet 20, the first clip elastic sheet 10 can transmit the first power to the first probe 30 and the second clip elastic sheet 20 can transmit the second power to the second probe 40, so that when the solar cell 100 is electroplated, the electrode contacts on the two opposite surfaces of the solar cell 100 can be electrified, and the two opposite surfaces of the solar cell 100 can be electroplated and have a plating layer. That is, by providing the first tab 61 and the second tab 62 on the carrier plate 60, not only the first clip spring 10 and the second clip spring 20 can be fixed conveniently, but also the effect of double-sided plating on the solar cell 100 can be achieved.

In addition, in the embodiment of the utility model, when the first clip sheet 10 includes the first sub-sheet 11 and the second sub-sheet 12, at this time, the second sub-sheet 12 is connected to the first joint 61, and the second sub-sheet 12 is connected to the carrier 60 through the first joint 61. When the second clip sheet 20 includes the third sub-sheet 21 and the fourth sub-sheet 22, at this time, the third sub-sheet 21 is connected to the second connector 62, and the fourth sub-sheet 22 is connected to the carrier 60 through the second connector 62.

Of course, the first clip elastic piece 10 and the second clip elastic piece 20 may be connected to the carrier plate 60 respectively in other manners, for example, the first clip elastic piece 10 and the second clip elastic piece 20 are connected to the carrier plate 60 respectively through a connecting piece, and the connecting piece may be an elastic piece, etc., which is not limited herein.

In addition, in the embodiment of the utility model, the carrier plate 60 has the hollow portion 63, the hollow portion 63 includes a first side and a second side opposite to each other, the number of the first clip strips 10 is two, and the number of the second clip strips 20 is two. The two first clip spring pieces 10 are respectively positioned on the first side and the second side, and the two second clip spring pieces 20 are respectively positioned on the first side and the second side.

When the carrier plate 60 has the hollow portion 63, the two first clip elastic pieces 10 are respectively located at the first side and the second side of the hollow portion 63, the two second clip elastic pieces 20 are respectively located at the first side and the second side of the hollow portion 63, the first clip elastic pieces 10 are detachably connected with the second clip elastic pieces 20, at this time, when the solar panel is clamped, the two opposite sides of the solar panel can be clamped by the first probe 30 on the first clip elastic piece 10 and the second probe 40 on the second clip elastic piece 20, so that the solar panel is better clamped. That is, when the number of the first clip spring 10 and the number of the second clip spring 20 are both two, the solar cell 100 can be better clipped.

In addition, in the embodiment of the present invention, the first clip spring 10 and the second clip spring 20 are both coated with an insulating layer.

When the insulating layers are coated on the first clip elastic sheet 10 and the second clip elastic sheet 20, after the first clip elastic sheet 10 is connected with the second clip elastic sheet 20, the first clip elastic sheet 10 and the second clip elastic sheet 20 are insulated from each other, and after the first clip elastic sheet 10 and the second clip elastic sheet 20 pass through the current, the first clip elastic sheet 10 and the second clip elastic sheet 20 cannot be conducted, so that the first clip elastic sheet 10 and the second clip elastic sheet 20 are prevented from being conducted, and the effect of double-sided electroplating on the solar cell 100 is prevented from being influenced. That is, the insulating layer is coated on the first clip spring 10 and the second clip spring 20, so that the effect of double-sided plating on the solar cell 100 can be improved.

It should be noted that the insulating layer may be made of teflon, and certainly, other insulating materials may also be used, for example, silica gel, which is not limited herein.

In the embodiment of the present invention, since the first probe 30 is disposed on the first clip elastic sheet 10, the second probe 40 is disposed on the second clip elastic sheet 20, and the driving structure 50 can drive the clip, and the clip includes a clamping state and an expanding state, when the clip is in the clamping state, the first clip elastic sheet 10 and the second clip elastic sheet 20 are close to each other, so that the first probe 30 and the second probe 40 can clamp two sides of the solar cell 100, and then the solar cell 100 can be electroplated. Under the condition that the clip is in the opened state, the second clip elastic sheet 20 and the second clip elastic sheet 20 are away from each other, so that the first probe 30 and the second probe 40 release the clamping of the solar cell 100, and then the completely electroplated solar cell 100 can be taken out of the electroplating carrier. That is, in the embodiment of the present invention, the cartridge clip and the driving structure 50 for driving the cartridge clip to open and close are arranged, the first clip elastic piece 10 of the cartridge clip is detachably connected to the second clip elastic piece 20, the first probe 30 is arranged on the first clip elastic piece 10, and the second probe 40 is arranged on the second clip elastic piece 20, so that the first probe 30 and the second probe 40 can clamp the solar cell 100, and the structure of the electroplating carrier is simple.

It should be noted that, in this specification, each embodiment is described in a progressive manner, and each embodiment focuses on differences from other embodiments, and portions that are the same as and similar to each other in each embodiment may be referred to.

While alternative embodiments of the present invention have been described, additional variations and modifications of these embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. It is therefore intended that the following claims be interpreted as including alternative embodiments and all such alterations and modifications as fall within the true scope of the embodiments of the utility model.

Finally, it should also be noted that, in this document, relational terms such as first and second, and the like may be used solely to distinguish one entity from another entity without necessarily requiring or implying any actual such relationship or order between such entities. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that an article or terminal apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such article or terminal apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of additional like elements in the article or terminal device comprising the element.

While the technical solutions provided by the present invention have been described in detail above, the principles and embodiments of the present invention are described herein by using specific examples, and meanwhile, for a person skilled in the art, according to the principles and implementation manners of the present invention, the specific embodiments and application scope may be changed, and in conclusion, the content of the present description should not be construed as limiting the present invention.

Claims (10)

1. An electroplating carrier, comprising: the device comprises a cartridge clip for clamping the solar cell and a driving structure for driving the cartridge clip to open and close;

the cartridge clip comprises a first clip elastic sheet and a second clip elastic sheet which are mutually connected, wherein a first probe is arranged on the first clip elastic sheet, and a second probe is arranged on the second clip elastic sheet;

the cartridge clip comprises a clamping state and a spreading state;

under the condition that the cartridge clip is in a clamping state, the first clip elastic sheet and the second clip elastic sheet are close to each other, and the first probe and the second probe clamp two sides of the solar cell;

under the condition that the elastic clip is in a spread state, the first clip elastic sheet and the second clip elastic sheet are away from each other, and the first probe and the second probe release the clamping of the solar cell.

2. The electroplating carrier according to claim 1, wherein the first clip piece comprises a first sub-piece and a second sub-piece, and the second clip piece comprises a third sub-piece and a fourth sub-piece;

the first sub-piece is connected with the second sub-piece, and a first included angle is formed between the first sub-piece and the second sub-piece;

the third sub-piece is connected with the fourth sub-piece, and a second included angle is formed between the third sub-piece and the fourth sub-piece;

the first probes are arranged on the first sub-sheet, the second probes are arranged on the fourth sub-sheet, and the second sub-sheet is detachably connected with the third sub-sheet;

under the condition of a clamping state at the cartridge clip, the first sub-piece and the fourth sub-piece are close to each other; under the condition that the cartridge clip is in the expanded state, the first sub-piece and the fourth sub-piece are far away from each other.

3. The electroplating carrier according to claim 1, wherein the driving structure is in contact with the first clip spring and the second clip spring respectively, and the driving structure is configured to drive the clip so as to switch the clip from the clamping state to the spreading state.

4. The electroplating carrier of claim 3, wherein the drive structure comprises a first drive plate, a second drive plate, and a linkage structure;

the first drive plate and the second drive plate are arranged oppositely, the first drive plate is in contact with the first clip elastic sheet, the second drive plate is in contact with the second clip elastic sheet, the first drive plate is connected with the second drive plate through the connecting rod structure, and the connecting rod structure is used for driving the first drive plate and the second drive plate to be away from each other, so that the first clip elastic sheet is away from the second clip elastic sheet.

5. The electroplating carrier according to claim 4, wherein the linkage structure comprises a first linkage, a second linkage, a drive rod, and a drive boss;

the first end of the first connecting rod is hinged with the first driving plate, the first end of the second connecting rod is hinged with the second driving plate, two ends of the driving rod are respectively hinged with the second end of the first connecting rod and the second end of the second connecting rod, and the driving boss is arranged on the driving rod;

under the condition that the driving boss is stressed, the driving boss drives the driving rod to move, so that the driving rod drives the first connecting rod and the second connecting rod to move, and the first driving plate and the second driving plate are far away from each other.

6. The electroplating carrier of claim 5, wherein the linkage structure further comprises a third linkage and a fourth linkage;

the first end of the third connecting rod is arranged on the first driving plate, the first end of the fourth connecting rod is arranged on the second driving plate, and the second end of the third connecting rod is hinged with the second end of the fourth connecting rod.

7. The electroplating carrier of any of claims 1-6, further comprising a carrier plate;

the first clip elastic sheet and the second clip elastic sheet are both connected with the support plate, and the support plate is used for fixing the first clip elastic sheet and the second clip elastic sheet.

8. The electroplating carrier according to claim 7, wherein the carrier plate is provided with a first joint and a second joint;

the first clip elastic sheet is connected with the first connector, the first connector is used for fixing the first clip elastic sheet, the first connector is used for transmitting a first power supply to the first clip elastic sheet, the second clip elastic sheet is connected with the second connector, the second connector is used for fixing the second clip elastic sheet, and the second connector is used for transmitting a second power supply to the second clip elastic sheet.

9. The electroplating carrier according to claim 7, wherein the carrier has a hollow portion, the hollow portion includes a first side and a second side opposite to each other, the number of the first clip pieces is two, and the number of the second clip pieces is two;

the two first clip spring pieces are respectively positioned on the first side and the second side, and the two second clip spring pieces are respectively positioned on the first side and the second side.

10. The electroplating carrier according to any one of claims 1 to 6, wherein the first clip piece and the second clip piece are coated with an insulating layer.

Images