KR102090514B1 - Solar cell soldering apparatus - Google Patents

Abstract

In the present embodiment, a cell soldering apparatus for bonding a wiring material to a solar cell includes: a case, a heat source module installed in the case; A jig in which at least one crimp piece for pressing the wiring material to the solar cell is installed on the crimp bar; A bracket provided in the case; It includes at least one fastening member for fixing the jig to the bracket so that the jig is located under the heat source module, and moving the separate jig for pressurizing the wiring material to the cell under the heat source module and taking it out, rather than manufacturing time It can be shortened and the cost can be reduced.

Description

Solar cell soldering apparatus

The present invention relates to a cell soldering device, and more particularly, to a cell soldering device for bonding a wiring material to the cell.

Recently, as the depletion of energy resources such as petroleum and coal is expected, interest in alternative energy to replace them is high.

A plurality of solar cells may be connected in series or parallel by a conductor such as a ribbon, and the plurality of solar cells may be manufactured as a solar cell module through a packaging process.

The packaging process for manufacturing a solar cell module may include a tebing process in which conductor ribbons are alternately bonded to both sides of the solar cell in a state in which the cells are arranged in series or in parallel.

Republic of Korea Patent Application Publication No. 10-2017-0039993 A (published on April 12, 2017) discloses an apparatus and method for attaching a wiring material to a solar panel that attaches a plurality of wiring materials to a solar cell.

The wiring material attachment device of the solar cell panel fixes a plurality of wiring materials to a jig to form a wiring material-jig assembly, and after moving the wiring material-jig combination onto a worktable, the wiring material is fixed to the solar cell, and the wiring material is fixed to the solar cell When the jig is separated from the plurality of wiring materials, heat is applied to the solar cell to attach the plurality of wiring materials to the solar cell.

The wiring material attachment device of the solar panel includes a jig moving mechanism for moving the jig, since the jig fixes the wiring material to the solar cell in such a way that the wiring material moves, and the jig moving mechanism increases the cost. During the time during which the jig is moved, the bonding operation between the wiring material and the solar cell is temporarily stopped, so that the overall manufacturing time of the solar cell module is long.

Republic of Korea Patent Publication No. 10-2017-0039993 A (published April 12, 2017) Republic of Korea Patent Publication No. 10-2016-0142494 A (published on December 13, 2016)

According to the present invention, when the jig for pressing the wiring material with the solar cell is integrated into the heat source, a separate jig for pressing the wiring material can be reduced in cost, and the cell soldering can shorten the manufacturing time of the cell module. The purpose is to provide a device.

An embodiment of the present invention is a cell soldering apparatus for bonding a wiring material to a solar cell, comprising: a case, a heat source module installed in the case; A jig in which at least one crimp piece for pressing the wiring material to the solar cell is installed on the crimp bar; A bracket provided in the case; It may include at least one fastening member for fixing the jig to the bracket so that the jig is located under the heat source module.

The fastening member may include a fixing pin for fixing the bracket and the jig.

The jig may further include a pressing bar holder to which a fixing pin is connected and a pressing bar is fixed.

The bracket can be provided on the side plate of the case.

A through hole through which the fastening member penetrates may be formed in the bracket.

The jig may include a plurality of crimp bars, and an opening toward the heat source module may be opened in the vertical direction between the plurality of crimp bars.

The fastening member may fix the jig to the bracket so that the upper end of the compression bar is spaced a predetermined distance in the vertical direction from the heat source module.

An infrared lamp mounted on the bottom of the case with the heat source module; A reflector disposed between the infrared lamp and the case may be further included.

The fastening member can fix the jig to the bracket so that the pressing bar is spaced apart from the infrared lamp.

The solar cell soldering apparatus includes a fan installed in a case and blowing air to a space formed in the case; The exhaust duct may further include an exhaust duct disposed outside the case and guiding the air flowing in the space in an upward direction, and the exhaust duct may be spaced apart from the bracket in the vertical direction on the upper side of the bracket.

According to an embodiment of the present invention, the jig is fixedly mounted on the solar cell soldering device, and the manufacturing time can be shortened than when a separate jig for pressurizing the wiring material into the solar cell under the heat source module is removed. Can save.

In addition, heat deformation of the fastening member or the bracket can be minimized by the heat of the heat source module, and the jig can be fixed with high reliability.

In addition, there is an advantage of high space utilization around the cell soldering device.

1 is a side view when any one wiring material enters under the solar cell soldering apparatus according to an embodiment of the present invention,
2 is a side view when the solar cell is placed on the wiring material shown in FIG. 1;
FIG. 3 is a side view when the cell and wiring material shown in FIG. 2 are moved under the cell soldering device,
FIG. 4 is a side view when another wiring material is placed on the solar cell shown in FIG. 3;
FIG. 5 is a side view of the solar cell soldering apparatus shown in FIG. 4 when a plurality of wiring materials are joined to a cell while the plurality of wiring materials are pressed against the cell.
6 is a perspective view of a cell soldering apparatus according to an embodiment of the present invention,
7 is an exploded perspective view of a cell soldering apparatus according to an embodiment of the present invention,
8 is a front view of a cell soldering apparatus according to an embodiment of the present invention,
9 is a side view of a cell soldering apparatus according to an embodiment of the present invention,
10 is a partially cut-away perspective view of a cell soldering apparatus before jig mounting according to an embodiment of the present invention,
11 is a bottom view of a cell soldering device before jig mounting according to an embodiment of the present invention,
12 is a bottom view of a cell soldering apparatus according to an embodiment of the present invention.

Hereinafter, a specific embodiment of the present invention will be described in detail with the accompanying drawings.

1 to 5 are views showing a process of bonding a wiring material to a solar cell using a cell soldering device according to an embodiment of the present invention, and FIG. 1 is a cell soldering device according to an embodiment of the present invention. A side view when any one wiring material enters, and FIG. 2 is a side view when a solar cell is placed on the wiring material shown in FIG. 1, and FIG. 3 is a solar cell and wiring material shown in FIG. 2 below the cell soldering device 4 is a side view when another wiring material is placed on the cell shown in FIG. 3, and FIG. 5 is a solar cell soldering apparatus shown in FIG. It is a side view when bonding multiple wiring materials to a solar cell while crimping.

The cell soldering device 1 may be positioned to be elevated on the conveyor belt 2 for transporting the cell S, and is connected to a lifting mechanism (not shown) for raising the cell soldering device 1. As shown in FIG. 5, it may be lowered toward the conveyor belt 2, and after the wiring materials 3 and 4 are joined to the solar cell S, as shown in FIG. 1 by the lifting mechanism, the upper side Can be elevated.

In the solar cell soldering apparatus 1, a jig 30 for pressing the wiring material 3 and 4 with the solar cell S is a heat source part H for bonding the wiring material 3 and 4 to the solar cell S. It may be an integrated device.

The wiring material (3) (4) and the cell (S) may be located between the cell soldering device (1) and the conveyor belt (2) in contact, and the cell soldering device (1) and the conveyor belt (2) It can be fixed by the jig 30 between, it can be joined by a solar cell soldering device (1).

The bonding process of the wiring material 3 (4) and the solar cell S using the solar cell soldering apparatus 1 of this embodiment will be described with reference to FIGS. 1 to 5 as follows.

The wiring materials 3 and 4 may have a wire shape or a cylindrical shape, and a flux may be coated on the outer surface thereof.

As shown in FIG. 1, the wiring material supply mechanism (not shown) may place any one wiring material 3 on the conveyor belt 2. And, a cell moving mechanism (not shown), such as a cell transfer robot, can seat the solar cell S on the wiring material 3 placed on the conveyor belt 2, as shown in FIG. The wiring material 3 and the solar cell S mounted on the belt 2 may be transferred under the solar cell soldering device 1 along the conveyor belt 2 as shown in FIG. 3. When transferring the wiring material 3 and the cell S as described above, the top surface of the cell S is fixedly mounted in the cell soldering device 1, and the jig 30 is spaced apart in the vertical direction. 30).

Subsequently, as shown in FIG. 4, the wiring material supply mechanism may allow a portion of the other wiring material 4 to enter between the solar cell S and the jig 30, and is mounted on the upper surface of the solar cell S. You can. The wiring material 4 is in contact with the solar cell S between the jig 30 and the solar cell S, and may be in a non-contact state with the jig 30.

As described above, when the other wiring material 4 is seated on the top surface of the solar cell S, the solar cell soldering device 1 may be lowered, as shown in FIG. 5 by a lifting mechanism, and this solar cell When the soldering device 1 is lowered, the jig 30 may be lowered together with the heat source portion H. The jig 30 may be lowered by a predetermined height to be in contact with the other wiring material 4 and press the other wiring material 4 with the solar cell S.

Upon contact of the other wiring material 4 and the jig 30 as described above, the pressing force of the jig 30 may be transmitted to the cell S through the other wiring material 4, and the solar cell S ) Can press any one of the wiring materials 3 placed on the conveyor belt 2. In this case, each of the wiring members 3 and 4 positioned with the solar cell S therebetween may be in close contact with the solar cell 3.

After the solar cell soldering device 1 is lowered, the heat source part H can apply heat to melt the coated flux on the wiring materials 3 and 4, and the wiring materials 3 and 4 are melted. It can be joined to the solar cell (S) by the flux.

The bonding of the wiring material (3) (4) and the solar cell (S) by the heating unit (H) can be carried out for a predetermined time, the solar cell soldering device (1) can be raised by the lifting mechanism. When the solar cell soldering device 1 is raised, the jig 30 may be separated from the wiring materials 3 and 4 and raised together with the heat source H.

When the solar cell soldering device 1 is raised, a new solar cell can be placed on the other wiring material 4, and the plurality of solar cells can be connected in series or parallel by the wiring material as the above process is repeated. .

Hereinafter, a cell soldering apparatus will be described in detail with reference to FIGS. 6 to 9.

6 is a perspective view of a cell soldering device according to an embodiment of the present invention, FIG. 7 is an exploded perspective view of a cell soldering device according to an embodiment of the present invention, and FIG. 8 is a cell soldering according to an embodiment of the present invention The front view of the device, FIG. 9 is a side view of the solar cell soldering device according to the embodiment of the present invention, FIG. 10 is a partially cut-away perspective view of the cell soldering device before the jig is mounted according to the embodiment of the present invention, and FIG. A bottom view of the cell soldering apparatus before jig mounting according to an embodiment of the present invention, and FIG. 12 is a bottom view of the solar soldering device according to an embodiment of the present invention.

The cell soldering device 1 may include a case 10, a heat source module 20, a jig 30, a bracket 40, and a fastening member 50.

The case 10 and the heat source module 20 may constitute the heat source part H shown in FIGS. 1 to 5, and the jig 30 shown in FIGS. 1 to 5 includes a bracket 40 and a fastening member It can be fixed to the heat source portion (H) by (50).

The case 10 may form the exterior of the solar cell soldering device 1, and a space S in which the heat source module 20 is accommodated may be formed therein.

The case 10 may be a combination of a plurality of members. The case 10 may have a hexahedral shape as a whole. The case 10 may have a rectangular parallelepiped shape, and may be elongated in a direction parallel to the movement direction of the solar cell S.

The case 10 may have a bottom opening 11 formed on the bottom surface. The case 10 may include an upper plate 12, a lower plate 13, a pair of side plates 14, 15, a front plate 16, and a back plate 17.

The case 10 may include a pair of lower plates 13 spaced apart in the horizontal direction. An opening 11 may be formed between the pair of lower plates 13.

At least one fan 18 capable of dissipating the heat source module 20 may be disposed in the case 10.

The fan 18 may be installed in the case 10 to blow air into the space S of the case 10. The fan 18 may be installed on the top plate 12. A fan mounter 18 'may be mounted on the case 10, and the fan 18 may be mounted on the fan mounter 18'.

A pair of fans 18 may be provided in the case 10, and a pair of fans 18 may be disposed in the case 10 spaced apart from each other in the longitudinal direction of the case 10. A gap through which the wire 60 to be described later can be inserted may be formed between the pair of fans 18.

The fan 18 can suck the air on the upper side and blow it in a downward direction, and the air blown by the fan 18 can radiate the upper surface of the heat source module 30 in the space S by air cooling. The air radiating the upper surface of the heat source module 30 may be exhausted to the outside through the exhaust duct 19 described later.

The case 10 may be provided with an exhaust duct 19 for guiding the air flowing in the space S to the outside.

The exhaust duct 19 may be disposed to be located outside the case 10. The exhaust duct 19 may be connected to the side plates 14 and 15. The exhaust duct 19 may have one end communicated with the space S, and the other end may be located outside the case 10.

The exhaust duct 19 may be installed on the side plates 14 and 15 so as to be located on the upper side of the bracket 40, and may be disposed to be spaced apart from the bracket 40 in the vertical direction. The exhaust duct 19 may be arranged to exhaust air flowing in the space S in an upward direction. The exhaust duct 19 may have a bent shape, and may further include a horizontal duct 19A connected to the case 10 and a vertical duct 19B extending upward from the horizontal duct 19A.

The heat source module 20 may be installed in the case 10, and may include at least one heat source. The heat source module 20 may be installed under the case 10.

An infrared lamp 21 which is a heat source mounted on the lower portion of the case 10, the heat source module 20; A reflector 22 disposed between the outer lamp 21 and the case 10 may be further included. A space through which air for cooling the heat source module 20 passes may be formed between the upper plate 12 of the case 10 and the reflector 22.

In the jig 30, at least one crimp piece 31 for pressing the wiring materials 3, 4 (see FIGS. 4 and 5) on the solar cell S may be installed on the crimp bar 32.

The crimping piece 31 may be formed of an elastic body having one end connected to the crimping bar 32 and the other end being a free end, and may have a bent shape or a bent shape at least once between one end and the other end. The crimping piece 31 may have a predetermined height, and when the jig 30 is lowered, it is in contact with the wiring material 3 and can be compressed between the crimping bar 32 and the wiring material 3, and the jig 30 is raised. When separated from the wiring material (3) can be elastically restored.

The crimping piece 31 may be formed with a fixing portion fixed to the crimping bar 32 at the top, and a contact portion contacting the wiring material 3 at the bottom.

A plurality of crimp pieces 31 may be provided on the crimp bar 32, and the plurality of crimp pieces 31 may be arranged to be spaced apart along the longitudinal direction of the crimp bar 32.

The crimping bar 32 may be arranged long in the horizontal direction, and the plurality of crimping pieces 31 may be elevated together.

The crimping bar 32 may be arranged long in the longitudinal direction of the wiring material 3.

The jig 30 may include a plurality of crimp bars 32. The plurality of crimp bars 32 may be arranged parallel to each other, and the plurality of crimp bars 32 may be spaced apart from each other in a direction orthogonal to the longitudinal direction of the crimp bars 32. The plurality of pressing bars 32 do not contact each other, and an opening 34 through which heat generated in the heat source module 30 can be transferred may be formed between the plurality of pressing bars 32. The jig 30 may be opened between the plurality of pressing bars 32 in the vertical direction and an opening 34 facing the heat source module 20 may be formed.

The jig 30 may further include a pressing bar holder 33 to which a fixing pin, which is a fastening member 50, is connected and the pressing bar 32 is fixed.

The jig 30 may include a pair of crimp bar holders 33 spaced apart in the horizontal direction, and a plurality of crimp bars 32 may be disposed between the pair of crimp bar holders 33. Each of the plurality of crimping bars 32 may have one end in the longitudinal direction connected to any one crimping bar holder, and the other end in the longitudinal direction may be connected to another crimping bar holder.

When the jig 30 is mounted by the bracket 40 and the fastening member 50, some of the upper surfaces of the plurality of pressing bars 32 may face the bottom opening 11 of the case 10.

The bracket 40 may be provided on the case 10. It may be installed to be located outside the case 10 of the bracket 40. The bracket 40 may be provided on the side plates 14 and 15 of the case 10. A pair of brackets 40 may be provided on the case 10, and may be provided on each of the left side plate 14 and the right side plate 15.

A through hole 41 through which the fastening member 50 passes may be formed in the bracket 40.

A pair of through holes 41 may be formed in the bracket 40, and two fastening members 50 may be fastened to the bracket 40.

The bracket 40 is not installed on the front plate 16 and the rear plate 17, and may be disposed together with the exhaust duct 19 on the side plates 14 and 15 to which the exhaust duct 19 is connected.

When the bracket 40 is mounted on the front plate 16 or the rear plate 17 of the case 10, the width in the front-rear direction of the solar cell soldering device may be increased. On the other hand, when the bracket 40 is mounted to be positioned below the exhaust duct 19, the cell soldering device can be configured compactly without increasing the width in the front-rear direction of the cell soldering device. The space utilization around the cell soldering device may be high.

The fastening member 50 may fix the jig 30 to the bracket 40 so that the jig 30 is located under the heat source module 20.

The fastening member 50 may include a fixing pin for fixing the bracket 30 and the jig 20. The fixing pin 50, which is a fastening member 50, may be disposed to protrude upward in the compression bar holder 33. The fastening member 50 may be integrally formed on the jig 30, in particular, the crimping bar holder 33, and manufactured separately from the crimping bar holder 33, and then coupled to the crimping bar holder 33. to be.

The fastening member 50 may fix the jig 30 to the bracket 30 so that the upper end of the compression bar 32 is spaced apart from the heat source module 20 in the vertical direction.

The fastening member 50 may fix the jig 30 to the bracket 40 so that the crimp bar 32 is spaced apart from the infrared lamp 21.

The fastening member 50 may be provided with a stopper for fixing the fastening member 50 to a portion passing through the through hole 41 formed in the bracket 40.

The fastening member 50 may be a pin formed with a male thread, and in this case, a stopper such as a nut formed with a female thread may be coupled to a portion of the fastening member 50 that penetrates the through hole 41 of the bracket 40.

The solar cell soldering device may further include a wire 60 for applying power to the fan 18 and the heat source module 20, and the wire 60 is drawn into the case 10 from the top of the case 10. Can be.

The above description is merely illustrative of the technical idea of the present invention, and those skilled in the art to which the present invention pertains may make various modifications and variations without departing from the essential characteristics of the present invention.

Therefore, the embodiments disclosed in the present invention are not intended to limit the technical spirit of the present invention, but to explain, and the scope of the technical spirit of the present invention is not limited by these embodiments.

The scope of protection of the present invention should be interpreted by the claims below, and all technical spirits within the scope equivalent thereto should be interpreted as being included in the scope of the present invention.

1: Cell soldering device 10: Case
20: heat source module 30: jig
40: bracket 50: fastening member
H: heat source

Claims (9)

In the cell soldering apparatus for bonding the wiring material to the solar cell,
A case;
A heat source module installed in the case;
A jig in which at least one crimp piece for pressing the wiring material to the solar cell is installed on the crimp bar;
A bracket provided in the case;
It includes at least one fastening member for fixing the jig to the bracket so that the jig is located under the heat source module,
The heat source module
An infrared lamp mounted under the case;
Further comprising a reflector disposed between the infrared lamp and the case,
The fastening member secures the jig to the bracket so that the compression bar is spaced apart from the infrared lamp.
Cell soldering device. According to claim 1,
The fastening member is a cell soldering device comprising a fixing pin for fixing the bracket and the jig. According to claim 2,
The jig is a cell soldering device further comprises a pressing bar holder to which the fixing pin is connected and the pressing bar is fixed. According to claim 1,
The bracket is a solar cell soldering device provided on the side plate of the case. According to claim 1,
A solar cell soldering device having a through hole through which the fastening member passes through the bracket. According to claim 1,
The jig includes a plurality of the pressing bar,
A solar cell soldering device in which an opening toward the heat source module is opened in a vertical direction between a plurality of compression bars. According to claim 1,
The fastening member is a cell soldering device for fixing the jig to the bracket so that the upper end of the compression bar is spaced a predetermined distance in the vertical direction from the heat source module. delete In the cell soldering apparatus for bonding the wiring material to the solar cell,
Case,
A heat source module installed in the case;
A jig in which at least one crimp piece for pressing the wiring material to the solar cell is installed on the crimp bar;
A bracket provided in the case;
It includes at least one fastening member for fixing the jig to the bracket so that the jig is located under the heat source module,
A fan installed in the case and blowing air to a space formed in the case;
Further comprising an exhaust duct disposed outside the case and guiding the air flowing in the space in an upward direction,
The exhaust duct is a cell soldering device disposed on the upper side of the bracket to be spaced apart from the bracket in the vertical direction.

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