KR20170125550A - Tabbing apparatus and tabbing method - Google Patents

Abstract

The present invention relates to a tabbing apparatus and a tabbing method. The tabbing apparatus comprises: a transfer unit for transferring a cell for a solar cell and a plurality of wires together while aligning the cell and the plurality of wires; a heating unit installed in a lower part of the transfer unit, and heating the cell and the plurality of wires; a first bonding unit installed in an upper part of the transfer unit, and bonding a part of a contact region between the cell and the plurality of wires; and a second bonding unit separately installed by a predetermined distance downstream of the first bonding unit, and bonding the total contact region between the cell and the plurality of wires. Accordingly, since the tabbing apparatus of the present invention locally performs temporal soldering on the cell and the wire in advance by temporal bonding of the first bonding unit before totally bonding the cell and the wire by soldering of the second bonding unit, the soldering efficiency can be improved as well as reducing a process time of the total bonding process by the second bonding unit.

Description

{TABBING APPARATUS AND TABBING METHOD}

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a tableting apparatus and a tableting method, and more particularly, to a tableting apparatus and a tableting method for supplying a conductor to upper and lower portions of a cell to electrically connect a plurality of cells will be.

Petroleum, coal, nuclear power, and natural gas, and these fossil and nuclear energy sources are expected to be depleted in the near future. Therefore, countries around the world are accelerating the research and development of new and renewable energy. Among them, photovoltaic power generation can get electricity anywhere in the sunlight, and unlike other power generation methods, there is no pollution.

Solar power generation requires a semiconductor device that converts solar energy into electrical energy. In general, the maximum voltage of about 0.5 V is generated only by a unit solar cell, so solar cells should be connected in series. This module solar cell is called modular solar module.

The manufacturing process of the solar cell module can be roughly divided into five processes such as a cell test process, a tabbing process, a lay-up process, a lamination process, and a module test.

In the cell test process, cells having various electrical properties are classified after testing and classified into cells having similar electrical properties. In the second tabbing process, a conductive ribbon is bonded to the solar cell to connect the solar cells in series.

In the third lay-up process, a row of solar cells fabricated in the tableting process is arranged in the lateral direction again to form a desired shape, and then a low-iron-reinforced glass, EVA, and a back sheet are stacked.

In the fourth lamination process, the laminated solar cell module materials are vacuum-squeezed at a high temperature so that the solar cell module can withstand impact and waterproof. Finally, the module test process tests whether the completed solar cell module operates normally.

On the other hand, the tabbing process is the most important process in the above process, and the tabbing process determines the quality of the solar cell module because the entire solar cell module can not be used unless the ribbon is interrupted or properly joined.

In a schematic view of the tableting process, the two strands of ribbon supplied from the ribbon reel are cut, the cut ribbon is seated on the solar cell by a gripper, and then the solar cell and the ribbon are soldered.

In recent years, solar cells have become thinner. As the solar cell is thinned, the solar cell may be damaged by the pressing force when the solar cell is transported. Further, when the solar cell is soldered, the solar cell may be damaged as the solar cell is bent by heat.

As a conventional technique, a manufacturing apparatus for a solar cell module and a manufacturing method using the solar cell module are disclosed in Japanese Patent Application No. 10-1206713 (Nov. 29, 2012). A pressing means disposed above the work table and capable of pressing a metal electrode onto the solar cell; And a laser irradiating device for irradiating a laser toward a junction between the metal electrode pressed by the pressing device and the solar cell, wherein the pressing device comprises a pair of pressing parts symmetrical about the joint part irradiated with the laser, role; And a damping shaft mounted on one end of the squeezing roll and providing a pressing force to the squeezing roll.

Open No. 10-2013-0011677 (Jan. 30, 2013) discloses a test apparatus for a solar cell, which includes a metal electrode for electrically connecting a plurality of electrode lines formed on a solar cell to the solar cell A method of manufacturing a solar cell module, the solar cell module comprising: a plurality of solar cells, each solar cell module including a plurality of solar cells, And a joining unit for joining the metal electrode to the solar cell by pressing the solar cell and the metal electrode so as to be in contact with each other while being heated when moving in the direction of the arrow.

However, such a conventional solar battery cell fastening device requires a long time for soldering a lead wire such as a ribbon or a wire, and there is a problem that a lathe of a tableting process is delayed, and a working efficiency is lowered due to soldering failure .

Korean Registered Patent No. 10-1206713 (November 29, 2012) Korean Patent No. 10-1097052 (December 22, 2011) Korean Patent Publication No. 10-2013-0011677 (January 30, 2013)

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above problems, and it is an object of the present invention to provide a tableting device and a tableting method capable of reducing the process time of the entire bonding process by the second bonding part and improving the soldering efficiency .

The present invention also provides a tableting apparatus capable of improving the soldering quality by sufficiently preheating cells and wires before the first bonding and the second bonding and improving the soldering performance by forming a temperature holding interval between the first bonding and the second bonding. And a method of tableting.

Another object of the present invention is to provide a tableting device and a tableting method capable of maintaining an optimum preheating temperature for alignment, soldering and preheating in a running section of a transfer section.

Another object of the present invention is to provide a tableting apparatus and a tableting method capable of reducing the soldering defects by minimizing the positional change during soldering while providing a pressing force between the cell and the lead wire during the soldering operation of the cell and the lead wire.

According to an aspect of the present invention, there is provided a solar cell comprising: a transfer unit for transferring a solar cell and a plurality of conductors together in an aligned state; A heating unit installed at a lower portion of the feeding unit to preheat the cell and the plurality of wires; A first junction provided on an upper portion of the transfer unit for joining a part of a contact portion between the cell and the plurality of conductors; And a second joint provided at an upper portion of the transfer portion and spaced a predetermined distance downstream of the first joint to join all the contact areas between the cell and the plurality of conductors.

The transferring portion of the present invention may further include an alignment section for aligning and aligning the cells with the plurality of conductors, a first junction section for joining a part of a contact portion between the cell and the plurality of conductors, A temperature holding section for preheating the plurality of conductors while transferring the plurality of conductors; a second junction section for joining all the contact areas of the preheated cells and the plurality of conductors; and a discharge section for discharging the fully- In order.

The heating unit of the present invention is characterized in that the temperature of the cell and the plurality of conductors are differently preheated for each section in which the conveyance section travels.

According to another aspect of the present invention, there is further provided a control unit for controlling the heating unit to preheat the cells and the plurality of wires differently according to the intervals in which the conveyance unit travels.

The control unit may maintain the preheating temperature of the temperature holding period lower than the preheating temperature of the first junction period and maintain the preheating temperature higher than the preheating temperature of the aligning period.

The first junction of the present invention may include a first heater vertically disposed in the longitudinal direction of the plurality of conductors so as to bond a part of a contact portion between the cell and the plurality of conductors; And a first jig provided at a lower portion of the first heater so as to be able to move up and down so as to press a contact portion between the cell and the plurality of conductors. The first heater of the present invention is characterized in that two points, front and rear, are bonded on the contact portion between the cell and the plurality of conductors.

The first heater of the present invention is characterized in that the first heater is a contact heating type heater which directly contacts the contact portion between the cell and the plurality of conductors pressed by the first jig to connect the cell and the upper and lower portions of the plurality of conductors to each other, .

The first heater of the present invention is heated by a predetermined distance above the contact portion between the cell pressed by the first jig and the plurality of conductors to join the cell and the upper and lower portions of the plurality of conductors to each other Contact heating type heater.

The second junction of the present invention may include a second heater horizontally disposed in the longitudinal direction of the plurality of conductors so as to connect all the contact areas between the cell and the plurality of conductors; And a second jig provided so as to be able to move upward and downward from the lower portion of the second heater to press the contact portion between the cell and the plurality of conductors.

According to another aspect of the present invention, there is provided a tableting method for joining a solar cell and a plurality of conductors in an aligned state while being carried together, comprising: aligning the cell and the plurality of conductors by aligning the cells and the plurality of conductors; A preheating step of preheating the aligned cells and the plurality of leads; A first bonding step of bonding a part of the contact area between the preheated cell and the plurality of wires; A preheating step of preheating the partially bonded cells and the plurality of leads while transferring the preheated cells; A second bonding step of bonding all of the contact areas between the transferred cells and the plurality of conductors; And a discharging step of discharging the fully connected cell and the plurality of conductors.

The aligning step of the present invention includes the steps of: placing and aligning an original conductor on a conveying portion; Placing and aligning an initial cell on top of the aligned initial conductor; Placing and aligning an intermediate lead on top of the aligned initial cell; Aligning and aligning the intermediate cells behind the aligned intermediate conductors; And aligning and aligning the final conductor on top of the aligned intermediate cell.

The first joining step of the present invention comprises the steps of: lowering the first jig above the cell and the plurality of conductors to press-fix the cell and the plurality of conductors; Bonding a portion of a contact region between the cell and the plurality of conductors by a first heater at an upper portion of the fixed cell and a plurality of conductors; And raising the first jig above the bonded cell and the plurality of conductors.

As described above, according to the present invention, the cell and the lead are preliminarily soldered to the cell and the lead by pre-bonding the cell and the lead by the soldering of the second junction, And at the same time, the soldering efficiency can be improved.

Further, by dividing the running section of the transfer section into the alignment section, the first junction section, the temperature maintenance section, the second junction section and the discharge section, it is possible to sufficiently preheat the cells and the lead wires before the first junction and the second junction to improve the soldering quality At the same time, a temperature holding interval is formed between the first junction and the second junction to improve the soldering performance.

Also, by maintaining the preheating temperature of the cells and the conductors different from each other in the section where the conveying section travels, it is possible to maintain an optimum preheating temperature for the aligning operation, the soldering operation, and the preheating operation in the traveling section of the conveying section.

Further, since the junction is provided by the heater and the jig, a compression force is provided between the cell and the lead wire during the soldering operation of the cell and the lead wire, and the change in position at the time of soldering is minimized, thereby reducing the soldering failure.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a configuration diagram showing a tableting apparatus according to an embodiment of the present invention; Fig.
2 is an enlarged view of a tableting device according to an embodiment of the present invention;
3 is a configuration view showing an example of a first joint portion of a tableting machine according to an embodiment of the present invention;
4 is a configuration view showing another example of a first joint of a tableting machine according to an embodiment of the present invention;
5 is a configuration diagram showing a first bonding state of a tabletting apparatus according to an embodiment of the present invention;
6 is a flowchart showing a tableting method according to an embodiment of the present invention;
7 to 14 are operational state diagrams showing the operation of the tableting method according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is a magnified view illustrating a tableting apparatus according to an embodiment of the present invention. FIG. 3 is a cross-sectional view illustrating a tableting apparatus according to an embodiment of the present invention. FIG. 4 is a configuration diagram showing another example of the first joint of the tabletting machine according to the embodiment of the present invention, and FIG. 5 is a schematic view showing an example of the first joint of the tableting apparatus according to the embodiment of the present invention FIG. 6 is a flowchart illustrating a tableting method according to an embodiment of the present invention, and FIGS. 7 to 14 illustrate operations of the tableting method according to an embodiment of the present invention. Fig.

As shown in Figs. 1 and 2, the lathe according to the present embodiment includes a conveying unit 10, a heating unit 20, a first joining unit 30 and a second joining unit 40, And the cell 1 and the plurality of leads 2 are jointly fed while being aligned.

The conveying unit 10 is a conveying unit that conveys the solar cell and a plurality of conductors in an aligned state together and is composed of a conveyor belt 11, a driving motor 12, a guide roller 13, and a guide 14 .

The conveyor belt 11 is a belt member that is formed in a closed shape and is arranged to move or circulate a predetermined conveying distance in a state in which an article is seated on an upper portion of the conveyor belt 11. The conveyor belt 11 includes a solar cell, It is preferable that the flat belt is formed with a substantially flat cross section so as to be conveyed together.

The moving surface of the conveyor belt 11 is provided with an alignment section 10a for aligning and aligning cells with a plurality of conductors, a first joint section 10b for joining a part of a contact portion of the cells with a plurality of conductors, A temperature holding section 10c for preheating while partially transferring a plurality of wires and a plurality of wires, a second junction section 10d for bonding the preheated cell and all of the contact portions of the plurality of wires to each other, And a discharge section 10e for discharging a plurality of conductive lines are sequentially partitioned.

Therefore, the conveyor belt 11 travels sequentially through the alignment section 10a, the first joint section 10b, the temperature maintaining section 10c, the second joint section 10d, and the discharge section 10e .

The driving motor 12 is a power means provided on one side of the lower portion of the conveyor belt 11 to provide a driving force to the conveyor belt 11 and is provided with a solar cell and a plurality of conductors Step drive means such as a step motor for stepwise providing driving force to the conveyor belt 11 so as to be seated and aligned.

The drive motor 12 is driven by the conveyor belt 11 so as to move the conveyor belt 11 at a predetermined time interval so as to intermittently move the solar cell and the plurality of conductors with a predetermined interval The driving force is provided to repeat the movement.

The guide roller 13 is a guide member provided at the lower portion of the conveyor belt 11 and guiding the traveling and conveyance of the conveyor belt 11, .

The guide 14 is a guide member provided on the upstream side of the conveyor belt 11 to guide the seating of the solar cell and the plurality of wires to be placed on the upper portion of the conveyor belt 11, It is preferable that the conveyor belt 11 is installed at the same position as the running surface of the conveyor belt 11.

The heating unit 20 is a heating member installed at the lower portion of the conveyance unit 10 and heating the cell to be conveyed by the conveyance unit 10 and a plurality of conductive wires to preheat the conveyance belt 10, It is preferable that each heater is provided for each section so as to preheat different temperatures of the cell and the plurality of conductors for each section.

A temperature measuring unit 50 is provided in the lower portion of the heating unit 20 to measure the heating temperature of the second bonding unit 40 and the preheating temperature of the heating unit 20 in the second bonding zone 10d, It is of course possible to reflect this in the control of FIG.

The control device of the present invention further includes a control unit for controlling the heating unit 20 to preheat the cells and the plurality of conductive wires to different temperatures for each section of the conveyor belt 11 traveling in the conveyance unit 10 Of course it is possible.

It is preferable that the control section maintains the preheating temperature of the temperature holding section 10c lower than the preheating temperature of the first junction section 10b and is higher than the preheating temperature of the alignment section 10a.

Therefore, the cells and the plurality of conductors to which a part of the contact portion is joined at the predetermined high temperature in the first junction section 10b are moved to the temperature holding section 10c, which is maintained lower than the preheat temperature of the first junction section 10b And then all of the contact portions between the cell and the plurality of conductors are bonded at a predetermined high temperature in the second junction section 10d.

The first bonding portion 30 is provided at an upper portion of the transfer portion 10 and serves as a joining means for joining a part of a contact portion between the cell and a plurality of conductors. The first joining portion 30 is composed of a first heater and a first jig.

The first heater is a heating means provided perpendicularly to the longitudinal direction of the plurality of conductors so as to connect a part of the contact portion between the cell and the plurality of conductors, and is composed of a contact heater 31 or a noncontact heater 34, It is preferable to join two points of the front point 3a and the rear point 3b on the contact portion between the cell 1 and the plurality of leads 2 as shown in Fig.

The contact heating type heater 31 is a contact type heater such as a pulse heater or the like so as to directly contact the contact portion between the cell pressed by the first jig and the plurality of lead wires, consist of.

The front heater tip 32a and the rear heater tip 32b are connected to the lower portion of the contact heating type heater 31 so as to press-contact the two points of the front point and the rear point on the contact portion between the cell and the plurality of leads. Are protruded downwardly.

The non-contact heater 34 is heated by a predetermined distance above the contact portion between the cell pressed by the first jig and the plurality of lead wires, and is connected to an IR lamp infrared ray heater such as an infrared ray heater using a ray ramp.

A front IR lamp and a rear IR lamp are provided on the lower portion of the non-contact heater 34 so as to join the two points of the front point and the rear point on the contact portion between the cell and the plurality of conductors.

As shown in Fig. 3, the first jig is a support means provided on the lower portion of the first heater so as to press the contact portion between the cell and the plurality of conductors. The first jig includes a plate spring As shown in Fig. 4, or a pin jig 35 using a coil spring provided under the non-contact heater 34 as shown in Fig.

The first jig is not limited to this, but a pin jig 35 using a coil spring may be provided below the contact heating type heater 31, or a paper jig 35 using a leaf spring may be provided under the non- It is of course possible to provide a mounting portion 35 for mounting the motor.

Therefore, a part of the contact portion between the cell and the plurality of conductors can be bonded by the first heater while the first jig presses a part of the contact portion between the cell and the plurality of conductors.

The second joining portion 40 is provided at an upper portion of the conveying portion 10 and is provided downstream of the first joining portion 30 at a predetermined distance to join all of the contact portions between the cell and the plurality of conductors, And a heater 41 and a second jig 42.

The second heater 41 is a heating member provided with a plurality of horizontally arranged plurality of conductors along the longitudinal direction of the plurality of conductors so as to connect all the contact areas between the cell and the plurality of conductors, And a noncontact heating heater for heating in a spaced state.

The non-contact heating type heater is an IR heater using an IR (infrared ray) ramp so as to heat the cell and the plurality of leads by a predetermined distance from the contact portion between the cell and the plurality of leads, ray heaters, and the like.

A plurality of IR lamps are provided in the lower portion of the non-contact heater in the longitudinal direction along the plurality of conductors so as to connect all of the contact portions between the cell and the plurality of conductors.

The second jig 42 is supported by the second heater 41 so as to be able to move up and down in the lower portion of the second heater 41 so as to press the contact portion between the cell and the plurality of lead wires. It is made of pin jig.

Therefore, the second heater 41 can bond all of the contact portions between the cell and the plurality of conductors with the second jig 42 pressing a part of the contact portion between the cell and the plurality of conductors.

Hereinafter, a tableting method using the tableting apparatus of this embodiment will be described in detail with reference to the drawings.

As shown in Figs. 1 and 6 to 14, the tableting method according to the present embodiment includes an alignment step S10, a heating step S20, a first bonding step S30, a preheating step S40, A joining step S50 and a discharging step S60 so as to join together the solar cell 1 and the plurality of leads 2 in an aligned state.

The aligning step S10 is a step of placing and aligning the cell 1 and the plurality of leads 2 on the conveying portion and arranging the first lead 1a on the upper portion of the conveying portion 10 as shown in Figs. The first cell 1a is seated and aligned on the first lead 2a and the first intermediate conductor 2b is seated on the top of the first cell 1a to align the first cell 1a, The first conductor 2a is arranged in the lower part of the first cell 1a and the first intermediate conductor 2b is arranged in the upper part of the first cell 1a.

In this sorting step S10, intermediate leads 1b, 1c, and 1d and intermediate leads 2b, 2c, and 2d and the final leads are sequentially placed on the upper and lower ends of the final cell.

Accordingly, the aligning step S10 includes the steps of placing and aligning the initial lead 2a on the transferring part 10, aligning and aligning the first cell 1a on the first lead 2a thus aligned, Aligning and aligning the intermediate conductor on top of the first cell la so aligned, placing and aligning the intermediate cell on the rear side of the intermediate conductor thus aligned, And aligning and aligning the final conductor on the first conductor.

The heating step S20 is a step of preheating the cell 1 and the plurality of wires 2 arranged on the upper portion of the transferring unit 10 in the alignment step S10 so that the heating unit 20 The cell 1 and the plurality of leads 2 conveyed by the conveyor belt 11 of the conveyance unit 10 are preheated by the heating unit 20 to a predetermined temperature.

In this heating step S20, the alignment section 10a, the first junction section 10b, the temperature maintenance section 10c, the second junction section 10d, and the discharge section 10c, which are formed so that the conveyor belt 11 sequentially runs, It is preferable to adjust the preheating temperature to be different from each other in the lower portion of the first chamber 10e.

Specifically, in the heating step S20, it is preferable to control the preheating temperature of the temperature holding section 10c to be lower than the preheating temperature of the first junction section 10b and to be maintained higher than the preheating temperature of the alignment section 10a Do.

The first joining step S30 is a step of joining a part of the contact area between the cell 1 preheated in the heating step S20 and the plurality of wires 2, The first jig is lowered at the upper portion of the plurality of conductors to press-fix the cell and the plurality of conductors, and a portion of the contact portion between the cell and the plurality of conductors is fixed by the first heater at the upper portion of the cells and the plurality of conductors And the first jig is raised at the upper portion of the cell and the plurality of conductors thus bonded.

Thus, the first joining step S30 includes steps of lowering the first jig at the upper portion of the cell and the plurality of conductors to press-fix the cell and the plurality of conductors, A step of joining a part of the contact portion between the cell and the plurality of conductors by the first heater and a step of raising the first jig from above the cell and the plurality of conductors, to be.

The preheating step S40 is a step of preheating while transferring a plurality of conductors and a cell to which a contact part is partially bonded in a first bonding step S30. In the first bonding step S30, Is transferred to the downstream of the first joining step (S30), and is preheated to a predetermined temperature.

The second joining step S50 is a step of joining all of the contact areas between the cell 1 preheated in the preheating step S40 and the plurality of leads 2, So as to press and fix the cell and the plurality of wires, and all of the contact portions between the cell and the plurality of wires are joined by the second heater at the upper portion of the cells and the plurality of wires thus fixed, And the second jig is raised at the upper portion of the plurality of conductors.

The discharging step S60 is a step of discharging a cell and a plurality of conductors to which the contact portion is entirely bonded in the second bonding step S50, 2 joining step (S50).

As described above, according to the present invention, by preliminarily soldering the cell and the lead wire locally by the joining of the first joining portion before the cell and the lead wire are completely joined by the soldering of the second joining portion, And at the same time, the soldering efficiency can be improved.

Further, by dividing the running section of the transfer section into the alignment section, the first junction section, the temperature maintenance section, the second junction section and the discharge section, it is possible to sufficiently preheat the cells and the lead wires before the first junction and the second junction to improve the soldering quality At the same time, a temperature holding interval is formed between the first junction and the second junction to improve the soldering performance.

Also, by maintaining the preheating temperature of the cells and the conductors different from each other in the section where the conveying section travels, it is possible to maintain an optimum preheating temperature for the aligning operation, the soldering operation, and the preheating operation in the traveling section of the conveying section.

Further, since the junction is provided by the heater and the jig, a compression force is provided between the cell and the lead wire during the soldering operation of the cell and the lead wire, and the change in position at the time of soldering is minimized, thereby reducing the soldering failure.

The present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. Therefore, the above embodiments are merely illustrative in all respects and should not be construed as limiting.

10: conveying section 20: heating section
30: first bonding portion 40: second bonding portion

Claims (13)

A transfer unit for transferring the solar cell and the plurality of conductors together in an aligned state;
A heating unit installed at a lower portion of the feeding unit to preheat the cell and the plurality of wires;
A first junction provided on an upper portion of the transfer unit for joining a part of a contact portion between the cell and the plurality of conductors; And
And a second joint provided at an upper portion of the conveyance portion and spaced a predetermined distance downstream of the first joint to join all the contact areas between the cell and the plurality of conductors. The method according to claim 1,
The transfer unit may include an alignment section for aligning and aligning the cells with the plurality of conductors, a first junction section for joining a part of a contact portion between the cell and the plurality of conductors, A second junction section for connecting the preheated cell and all of the contact portions of the plurality of conductors, and a discharge section for discharging the fully connected cells and the plurality of conductors in sequence Wherein the at least one of the at least one tablet and the at least one tablet is passed through. 3. The method of claim 2,
Wherein the heating unit preheats the temperature of the cell and the plurality of conductors differently for each section in which the conveyance unit travels. The method of claim 3,
Further comprising: a control unit for controlling the heating unit to preheat the cells and the plurality of conductive wires differently according to the sections in which the conveyance unit travels. 5. The method of claim 4,
Wherein the controller maintains the preheating temperature of the temperature holding section lower than the preheating temperature of the first junction section and maintains the preheating temperature higher than the preheating temperature of the aligning section. The method according to claim 1,
Wherein the first joint comprises:
A first heater disposed perpendicularly to the longitudinal direction of the plurality of conductors so as to join a part of a contact portion between the cell and the plurality of conductors; And
And a first jig provided on the lower portion of the first heater so as to be able to move up and down so as to press a contact portion between the cell and the plurality of conductors. The method according to claim 6,
Wherein the first heater joins two front and rear points on a contact portion between the cell and the plurality of conductors. The method according to claim 6,
The first heater is composed of a contact heating type heater which directly contacts the contact portion between the cell pressed by the first jig and the plurality of lead wires and joins the cell and the upper and lower portions of the plurality of lead wires to each other . The method according to claim 6,
Wherein the first heater is heated by a predetermined distance from the contact portion between the cell pressed by the first jig and the plurality of lead wires so as to connect the cell and the upper and lower portions of the plurality of lead wires to each other, And a heater. The method according to claim 1,
Wherein the second joint comprises:
A second heater disposed horizontally in the longitudinal direction of the plurality of conductors so as to connect all the contact areas between the cell and the plurality of conductors; And
And a second jig provided so as to be able to move up and down at a lower portion of the second heater so as to press a contact portion between the cell and the plurality of conductors. A method of performing a bonding operation in which a cell for a solar cell and a plurality of conductors are jointly transferred while being aligned,
Aligning the cell and the plurality of conductors on the conveyance unit;
A preheating step of preheating the aligned cells and the plurality of leads;
A first bonding step of bonding a part of the contact area between the preheated cell and the plurality of wires;
A preheating step of preheating the partially bonded cells and the plurality of leads while transferring the preheated cells;
A second bonding step of bonding all of the contact areas between the transferred cells and the plurality of conductors; And
And a discharging step of discharging the fully bonded cell and the plurality of leads. 12. The method of claim 11,
The aligning step comprises:
Aligning and aligning the original conductor to the transfer portion;
Placing and aligning an initial cell on top of the aligned initial conductor;
Placing and aligning an intermediate lead on top of the aligned initial cell;
Aligning and aligning the intermediate cells behind the aligned intermediate conductors; And
And aligning and aligning a final lead on top of the aligned intermediate cell. 12. The method of claim 11,
Wherein the first bonding step comprises:
Lowering the first jig above the cell and the plurality of leads to press-fix the cell and the plurality of leads;
Bonding a portion of a contact region between the cell and the plurality of conductors by a first heater at an upper portion of the fixed cell and a plurality of conductors; And
And raising the first jig above the bonded cell and the plurality of conductors.

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