KR20130011677A - Tabbing apparatus for solar cell - Google Patents

Abstract

PURPOSE: A tabbing apparatus for a solar cell is provided to prevent the cold soldering effect of a junction part by using a heated junction unit. CONSTITUTION: A tabbing apparatus for a solar cell includes a junction unit(10) and a heating unit(20). The junction unit is arranged in the upper part of the solar cell and moves up and down on one surface of the solar cell. The junction unit is heated and pressurizes a metal electrode to bond the metal electrode with the solar cell. The heating unit is installed at the side of the junction unit and heats the contact part of the solar cell and the metal electrode.

Description

Tabbing device for solar cell {TABBING APPARATUS FOR SOLAR CELL}

The present invention relates to a tabbing device for a solar cell, and more particularly, soldering while pressing a metal electrode which is electrically connected to an electrode line of a solar cell formed in a solar cell module by pressing with a heated bonding unit during bonding. (Cold soldering) relates to a tabbing device for a solar cell that can prevent the phenomenon.

In general, a solar cell is a semiconductor device that converts solar energy into electrical energy. Silicon, gallium arsenide, cadmium tellurium, cadmium sulfide, indium, or a combination thereof is used.

Since the solar cell has a small electromotive force because each cell generates only a maximum voltage of 0.5V, a plurality of solar cells are connected in series to form a photovoltaic module having an appropriate electromotive force.

Here, a plurality of electrode lines are formed in a conventional solar cell, and the electrode lines are electrically connected to each other by bonding a metal electrode having a ribbon shape.

In this case, a lead electrode coated conductor ribbon is commonly used, and each solar cell is bonded to the front and rear of each cell so as to be connected in series. This is called a tabbing process.

The tabbing process is the most essential process of the solar cell module manufacturing process. If the metal electrode is broken in the middle or is not properly bonded to the solar cell, the entire solar cell module cannot be used.

Looking at the tabbing process in detail, the process of correcting the bending of the metal electrode, the process of cutting the metal electrode to an appropriate size, the process of placing the cut metal electrode on the solar cell, the flux (flux) on the solar cell and the metal electrode The coating process may be divided into a soldering process of bonding the solar cell and the metal electrode.

Here, the soldering process is to solder the electrode line and the metal electrode of the solar cell by supplying high temperature hot air through a heater for applying hot air in a state in which the electrode line and the metal electrode formed on the solar cell is pressed and fixed by a predetermined pressing means. It is.

1 is a schematic diagram of a conventional tabbing device for a solar cell. In the conventional tabbing device 100, the metal electrodes 400 are disposed to be in contact with each electrode line 300 formed in each solar cell 200, and then the metal pins 400 are fixed by the fixing pins 101. By using the hot air means 102 for applying hot air in the melting of the lead contained in the metal electrode 400 to be bonded to the solar cell 200 so that the electrode line 300 is electrically connected to each other.

By the way, in the case of such soldering, the fixing pin 101 absorbs the heat applied from the hot air means 102, and the bonding at the junction where the metal electrode and the electrode line are joined is not bonded in correspondence with the set temperature. There has been a problem that a cold soldering phenomenon occurs at a lower temperature.

When the cold solder phenomenon occurs, a poor bonding occurs at the junction, there is a problem that does not generate sufficient electromotive force even when connecting a plurality of solar cells 200.

In addition, even if a plurality of fixing pins 101 in the conventional tabbing device 100 are arranged along the metal electrode 400, the pressing force of each of the fixing pins 101 may be pressurized by different pressing pressures, respectively. There is a problem that the area in contact with the (200) is not uniform, or the pressure applied to the metal electrode 400 is not uniform due to the height deviation of the fixing pin 101 is not uniform soldering is performed at each junction.

Accordingly, an object of the present invention is to solve such a conventional problem, it is possible to perform soldering through the fixing pin while pressing the fixing pin when bonding the metal electrode to electrically connect the electrode line of the solar cell. The present invention provides a tabbing device for a solar cell that can prevent cold soldering.

In addition, the fixing pin is elastically supported when it moves downward to provide a tabbing device for a solar cell that can improve the uniformity of the soldered joint by performing soldering by contacting all of the fixed pins arranged in a plurality of metal electrodes. have.

In addition, when a heating unit for applying hot air is installed, the fixing pin heats the metal electrode together with the heating unit to significantly lower the temperature of the hot air, thereby preventing micro cracks at the joints caused by high hot air, and coating the solar cell. It is to provide a tabbing device for a solar cell that can prevent damage.

According to the present invention, in the tabbing device for a solar cell for bonding a metal electrode to the solar cell, the plurality of electrode lines formed in the solar cell electrically connected to the solar cell, in the upper portion of the solar cell In the state where the metal electrode is disposed, it is installed to be movable up and down with respect to one surface of the solar cell, by pressing the solar cell and the metal electrode in contact with each other in a heated state when moving in the direction of the solar cell It is achieved by a tabbing device for a solar cell comprising a; a bonding unit for bonding the metal electrode to the solar cell.

Here, the heating unit may further include a heating unit installed on the side of the junction unit to apply heat to join the portion where the solar cell and the metal electrode abut.

In addition, the junction unit is formed to be elongated in one direction and the movable block is installed so as to be movable up and down with respect to the solar cell, and at least one is coupled to one side of the movable block in the longitudinal direction so that the movable block is upward Or it may include a fixing pin for pressing the metal electrode when moving downward, and a heating means for heating the fixing pin.

In addition, the movable block may include a block body which is installed to be movable up and down, and a fastening block which is coupled to the side of the block body and has a fastening hole to which the fixing pin is inserted and fastened.

In addition, an elastic member may be further installed to elastically support the fixing pin in the inserted state of the fastening hole.

In addition, it is preferable that the engaging portion protrudes from the lower outer side of the fixing pin to support the lower end of the elastic member.

In addition, the heating means may be installed to heat the lower portion of the fixing pin.

In addition, a heat insulating member may be further installed between the fastening block and the block body.

According to the present invention, a solar cell tabbing device capable of preventing cold soldering by enabling soldering through a fixing pin while pressing a fixing pin while bonding a metal electrode that electrically connects an electrode line of the solar cell to each other. Is provided.

In addition, there is provided a tabbing device for a solar cell that can improve the uniformity of the soldered joint by performing soldering by contacting all of the fixed pins arranged in plural numbers so that the fixing pins are elastically supported when moved downward. .

In addition, when a heating unit for applying hot air is installed, the fixing pin heats the metal electrode together with the heating unit to significantly lower the temperature of the hot air, thereby preventing micro cracks at the joints caused by high hot air, and coating the solar cell. A tabbing device for a solar cell that can prevent damage is provided.

1 is a schematic diagram of a tabbing device for a conventional solar cell,
2 is a perspective view of a tabbing device for a solar cell according to the first embodiment of the present invention;
3 is an exploded perspective view of the bonding unit of FIG.
4 is an exploded view of a cross section taken along II ′ of FIG. 2;
5 is a coupling diagram of FIG. 4,
6 is an operational state diagram of a tabbing device for a solar cell according to the first embodiment of the present invention.

Prior to the description, components having the same configuration are denoted by the same reference numerals as those in the first embodiment. In other embodiments, configurations different from those of the first embodiment will be described do.

Hereinafter, with reference to the accompanying drawings will be described in detail a tabbing device for a solar cell according to a first embodiment of the present invention.

2 is a perspective view of a tabbing device for a solar cell according to a first embodiment of the present invention.

Referring to FIG. 2, the tabbing device for a solar cell according to the first embodiment of the present invention includes a bonding unit 10 and a heating unit 20.

Here, the metal electrode 2 to be bonded is transported by a known transport device in a state seated at a corresponding position of the solar cell 1 and seated on a table, and the tabbing device is installed above or below the table. Carry out the tabbing process. In the present embodiment, the bonding of the metal electrode on the upper side of the solar cell will be described. Since the electrode line formed in the solar cell is formed in a very small size compared to the metal electrode as a micro unit, illustration is omitted in the drawings.

3 is an exploded perspective view of the bonding unit of FIG. 2, FIG. 4 is an exploded view of a cross section taken along line II ′ of FIG. 2, and FIG. 5 is a coupling view of FIG. 4.

3 to 5, the bonding unit 10 is installed to move up and down from the upper side of the solar cell 1, including a moving block 11, a fixing pin 12 and the heating means (13). do.

The moving block 11 includes a block body 110 provided in the form of a rectangular parallelepiped formed in one direction and a fastening block 120 coupled to the side surface of the block body 110.

Here, the moving block 11 is installed to be movable up and down by a lifting means such as a predetermined gear or hydraulic pressure on the upper side of the solar cell (1).

The fastening block 120 is formed with a plurality of fastening holes 120a along the longitudinal direction such that the fixing pin 12 to be described later is installed in-built.

In addition, a heat insulating member 120b is installed between the fastening block 120 and the block body 110, and heat generated from the fixing pin 12 to be described later is transferred to the block body 110 through the fastening block 120. Prevent it.

The heat insulating member 120b may be installed outside the fastening block 120 as well as between the fastening block 120 and the block body 110.

The fixing pin 12 is made of a metal material and is installed inwardly by a fastening hole 120a formed in the fastening block 120. At this time, the heating means 13 is installed in the lower inner side of the fixing pin 12 is supplied with power from the power supply (13a). The heating means 13 in this embodiment is a heating coil for converting electrical energy into thermal energy.

As such, the heating means 13 is installed to heat only the lower portion of the fixing pin 12 to prevent heat from being transferred to the block body 110 through the fastening block 120 together with the above-described heat insulating member 120b. Can be.

That is, when heat is transferred to the block body 110, it may be possible to prevent malfunction of the tabbing device due to heat applied to the entire tabbing device.

In addition, the lower end surface of the fixing pin 12 is formed with a locking end 12a protruding to support the lower end of the elastic member 14 to be described later.

The elastic member 14 is installed in a form of being fitted to the body of the fixing pin 12 as a predetermined spring, both ends are burnt by the engaging end 12a of the fixing pin 12 and the inner end of the fastening hole 120a. It can be sexually supported.

The bonding unit 10 described above may be subjected to a soldering process as an independent unit, or may be soldered together with the heating unit 20 to be described later.

The heating unit 20 is provided with a halogen heater, an infrared heater, a hot air fan, and the like, and is installed to heat the metal electrode 2 of the solar cell 1 at the side of the junction unit 10 described above (see FIG. 2). ).

In addition, the heating unit 20 is installed to heat the metal electrode 2 together with the junction unit 10 described above. In particular, when the heating unit 20 is selected as a hot air fan to apply hot air, and the bonding unit 10 together with the heating unit 20 simultaneously heats the metal electrode 2, the temperature of the heating unit 20 is lower than that of the related art. The soldering process may be performed even if heated.

In the case of applying heat to the metal electrode 2 using only conventional hot air, micro-cracks occur in soldering at the joined portion of the metal electrode 2 or defects in the solar cell 1 itself. There was a causal problem.

However, by heating the metal electrode 2 together with the bonding unit 10 as in the present invention, the heating temperature of the heating unit 20 can be lowered than before.

As a result, when soldering the metal electrode 2, the micro-cracks of the solder are prevented by minimizing the influence on the solder caused by the hot air.

In this embodiment, the bonding unit 10 and the heating unit 20 is shown to be arranged only in one line, but may be arranged in a plurality of rows if necessary.

The operation of the above-described tabbing device for a solar cell will now be described.

6 is an operational state diagram of a tabbing device for a solar cell according to the first embodiment of the present invention.

Referring to FIG. 6, when the moving block 11 moves downward while the metal electrode 2 is disposed above the solar cell 1, the lower end of the fixing pin 12 may be disposed on the metal electrode 2. Press to fix it, and in this state, the fixing pin 12 is heated so that the metal electrode 2 is soldered to the solar cell 1.

That is, the fixing pin 12 is heated while fixing the metal electrode 2 to transfer heat, thereby preventing cold absorption by blocking heat absorption by the conventional fixing pin 12.

In addition, a case in which the moving block 11 is moved downward in a state in which the moving block 11 is inclined in either direction occurs. In this case, even if the moving block 11 is moved downward more than the set moving distance, since each fixing pin 12 is elastically supported by the elastic member 14, all the fixing pins 12 are connected with the metal member. It can be abutted and fixed.

It is possible to prevent non-uniform soldering by fixing all of the fixing pins 12 arranged in a row to be in contact with the metal member.

Meanwhile, heat may be applied using the heating unit 20 together with the bonding unit 10. That is, soldering is possible through the heating temperature of the heating unit 20 together with the heating temperature of the bonding unit 10 so that the heating temperature of the heating unit 20 can be lowered than the conventional soldering with only the heating unit 20. do.

As a result, it is possible to prevent damage to the solar cell 1 while preventing cracks in the soldered portion of the metal electrode 2.

The scope of the present invention is not limited to the above-described embodiments, but may be embodied in various forms of embodiments within the scope of the appended claims. Without departing from the gist of the invention claimed in the claims, it is intended that any person skilled in the art to which the present invention pertains falls within the scope of the claims described herein to various extents that can be modified.

1 solar cell 2 metal electrode
10: bonding unit 11: moving block
110: block body 120: fastening block
120a: fastening hole 120b: heat insulating member
12: fixing pin 12a: locking end
13 heating means 13a: power supply
14: elastic member

Claims (8)

In the tabbing device for a solar cell for bonding a metal electrode to the solar cell to electrically connect a plurality of electrode lines formed in the solar cell,
In a state where the metal electrode is disposed on the solar cell, the solar cell is installed to be movable up and down with respect to at least one surface of the solar cell, and is heated when moving toward the solar cell. And a bonding unit configured to press the metal electrode to be in contact with each other to bond the metal electrode to the solar cell. The method of claim 1,
And a heating unit installed on the side of the bonding unit and configured to apply heat to bond the portion where the solar cell and the metal electrode make contact with each other. The method of claim 1,
The junction unit is formed to be elongated in one direction and is provided with a movable block installed to be movable up and down with respect to the solar cell, and at least one coupled to one side of the movable block in a longitudinal direction so that the movable block is upward or downward. Tabbing device for a solar cell comprising a fixing pin for pressing the metal electrode when moving to, and a heating means for heating the fixing pin. The method of claim 3,
The mobile block is a tabbing device for a solar cell, characterized in that it comprises a block body which is installed to be movable up and down, and a fastening block is coupled to the side of the block body is formed with a fastening hole to which the fixing pin is inserted. 5. The method of claim 4,
Tabbing device for a solar cell, characterized in that the elastic member is further installed to be elastically supported in a state in which the fixing pin is inserted inside the fastening hole. 6. The method of claim 5,
Tabbing device for a solar cell, characterized in that the engaging portion protrudes to support the lower end of the elastic member on the lower outer side of the fixing pin. 6. The method of claim 5,
The heating means is a tabbing device for a solar cell, characterized in that installed to heat the lower portion of the fixing pin. 8. The method of claim 7,
Tabbing device for a solar cell, characterized in that the insulating member is further installed between the fastening block and the block body.

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