KR100821887B1 - Battery cell array jig, battery pack assembling apparatus with battery cell array jig and assembling method of battery pack using battery cell array jig - Google Patents

Abstract

A battery cell fixing jig, a battery pack assembly apparatus containing the battery cell fixing jig, and a method for assembling a battery pack are provided to prevent the movement of battery cells and parts even in case of the assembly of a battery pack, thereby improving quality. A battery cell fixing jig(10) comprises a main body(11) whose upper part is open and which is a rectangular container; a battery cell combination space(12) which is formed into a rectangular space by opening the inside of the main body upward; and a battery cell combination tool(14) which is formed by forming a plurality of long grooves formed from the upper part to the lower part at the internal wall surface(13) of the facing long part of the battery cell combination part and where the both sides long edge parts of a plurality of battery cells are inserted.

Description

BATTERY CELL ARRAY JIG, BATTERY PACK ASSEMBLING APPARATUS WITH BATTERY CELL ARRAY JIG AND ASSEMBLING METHOD OF BATTERY PACK USING BATTERY CELL ARRAY JIG}

1 is a perspective view of a battery pack assembly according to the prior art.

Figure 2 is a perspective view of a first embodiment of the battery pack fixing jig of the present invention.

3 is an exploded perspective view of a second embodiment of the battery pack fixing jig of the present invention.

Figure 4 is a plan view of a second embodiment of the battery pack fixing jig of the present invention.

Figure 5 is a plan view of a battery pack assembly equipped with a battery pack fixing jig of the present invention.

6 is an exemplary embodiment of a battery pack assembling apparatus equipped with the battery pack fixing jig of the present invention.

7 is an exploded perspective view of a battery pack mounted on the battery pack assembly of the present invention.

8 is a block diagram of a battery repack assembly method by a battery pack assembly device equipped with a battery pack fixing jig of the present invention.

<Explanation of symbols for the main parts of the drawings>

10: battery cell fixing jig 11: body

14: battery cell coupling port 15: guide groove

20: partition wall 31: vertical projection

50: battery pack assembly 51: base body

61: fixing jig guide groove 71; Step wall

81: support wall 91: support spring

100: battery pack 101: battery cell

131; Middle Mold

151 PCB Circuit Board Assembly 161: Upper Case

The present invention relates to a battery cell fixing jig and a battery pack assembling apparatus, and more particularly, to a battery pack assembling apparatus in which a battery cell fixing jig into which a plurality of battery cells are inserted is installed. Battery cell fixing jig and battery pack to prevent the battery cells and parts from swinging and to move sideways at regular intervals, and to make the assembly work stable, thereby simplifying the work process and producing products with uniform quality. It relates to an assembly apparatus.

In general, a battery pack is used in a portable terminal and the like to supply charged power to the portable terminal. The battery pack comprises a battery cell that is charged with power, a circuit for protecting the battery pack while charging and supplying power, and an external protective case.

Therefore, the structure must be complicated and precisely assembled to show excellent performance even when used in portable terminals.

According to the prior art of assembling the battery rack pack, according to Figure 1 of the Republic of Korea Patent Registration No. 10-0478599 (battery cell nickel terminal automatic cutting device), the cutting device body 510 on the upper surface of the base 500 ) Is configured, and the cutting device 520 is coupled to the front end thereof. In addition, the fixing jig 550 moving along the jig rail 540 is positioned at a position opposite to the cutting device 520, and the battery cell 560 seated on the fixing jig 550 faces the cutting device 520. Support means for supporting the is provided.

Such a conventional battery pack assembling apparatus is provided to perform a cutting operation while the battery cell 560 moves along the jig rail 540. However, since the battery cells 560 are seated on the fixing jig 550 on which the battery cells 560 are seated, it is difficult to manufacture a large number of battery packs.

In addition, since the battery cell 560 is mounted on the fixing jig 550 in a state in which it is difficult to assemble, the assembly of other parts of the battery pack cannot be performed, and the battery cell 560 again for another process operation. It is necessary to disassemble and move the work, which causes a problem of slowing down the work speed and increasing the amount of work, thereby significantly reducing the yield. In addition, since the assembly work must be performed while changing the working position, a problem such as an assembly failure of the battery pack occurs due to the non-continuous work.

The battery cell fixing jig and the battery pack assembly of the present invention for solving the problems as described above, so that even if the battery pack assembly operation is performed so that the battery cell and parts are not rocked, the assembly operation can be performed stably, the defect rate is low And, the purpose of the excellent performance of the assembled battery pack.

In addition, by moving the battery cell fixing jig equipped with a plurality of battery cells laterally at regular intervals to work, there is an object to simplify the work process and to produce a product of uniform quality.

The battery cell fixing jig of the present invention for achieving the above object, the upper body is opened and the overall shape is formed into a rectangular box shape, the interior of the body 11 is opened to the upper space into a rectangular space A plurality of long grooves are formed on the inner wall surface 13 of the long side facing each other of the battery cell coupling space 12 and the battery cell coupling space 12, respectively, formed at the upper side to the lower side, and long edge portions of both sides of the plurality of battery cells. Each of the battery cell coupler 14 to be inserted is formed.

The body 11 is provided with a separating wall 20 in which one wall surface on which the battery cell coupler 14 of the body 11 is formed can be separated and combined, so that the battery cell 100 is the battery cell. It is configured to facilitate insertion and separation in the coupling sphere 14, and forms the induction groove 15 of the long groove in the vertical direction in the center of the battery cell coupling sphere 14, of the opposite wall of the separation wall 20 One or a plurality of vertical protrusions 31 may be formed on the outer wall surface 32 to protrude upward and downward to outward. In addition, the vertical protrusion 31 may be formed as a semicircular round surface of the outwardly projecting surface.

In another embodiment of the present invention, a battery pack assembling device equipped with a battery cell fixing jig includes the battery cell fixing jig 10 mounted therein, and the battery cell 101 is mounted on the battery cell fixing jig 10. 100) a fixing jig guide groove for allowing the battery cell fixing jig 10 to be mounted and moved in the base body 51 and the upper part of the base body 51 which are open to perform the assembly work. 61 is provided.

Accordingly, the base 51 has a plurality of vertical grooves 72 in which one side wall of the fixing jig guide groove 61 is a vertical groove long vertically coupled to the plurality of vertical protrusions 31 of the battery cell fixing jig 10. And a step wall surface 71 formed therein, and the other side wall allows swinging in a direction perpendicular to the moving direction of the battery cell fixing jig 10, thereby moving the battery cell fixing jig 10 to the step wall surface 71. It is provided with a support wall surface 81 which is a vertical plate body to elastically support in the direction, and forms a fixed wall surface 65 which is a vertical wall to the outside of the support wall surface 81, the support wall surface 81 is the fixed wall surface One side of the sliding bar 75 penetrating through the through hole of the fixing is fixed, the sliding bar 75 is embedded therein between the support wall surface 81 and the fixed wall surface 65 is provided with a support spring (91) It may be further provided.

A battery pack assembly method using a battery pack assembly apparatus in which a battery cell fixing jig is mounted according to another embodiment of the present invention is provided with a battery pack assembly apparatus 50 to assemble the battery pack 100 by the following steps.

1) In the state where the battery cell fixing jig 10 is separated from the battery pack assembly device 50 and the separating wall 20 is separated from the battery cell fixing jig 10, A lower case seating step of seating the lower case 110 on the bottom (S01);

2) The battery cell 101 is mounted on the battery cell fixing jig 10 on which the lower case 110 is seated, and the separation wall 20 is fixedly coupled to the body 11 to fix the battery cell 101. Then, the battery cell mounting jig (10) is seated on the fixing jig guide groove 61 of the battery pack assembly device (50) mounting step (S02);

3) Clad metal 121 on the (+) terminal 104 side of the battery cell 101 located in the battery cell fixing jig 10 seated in the fixing jig guide groove 61 of the battery pack assembly device 50 ) And a clad metal seating step (S03) for seating the nickel plate 123 on the (-) terminal 105 side;

4) a terminal welding step (S04) of spot welding the (+) terminal 104, the clad metal 121, the (-) terminal 105 and the nickel plate 123 of the battery cell 101;

5) a middle mold seating step (S05) for seating the middle mold (131) to the top of the battery cell (101);

6) a negative electrode plate seating step (S06) for spot welding by placing the negative electrode nickel plate 143 toward the nickel plate 123;

7) a positive electrode nickel plate seating step (S07) for spot welding by placing the positive electrode nickel plate 141 toward the clad metal 121;

8) a circuit connection step (S08) of coupling the PCB circuit board assembly (151) to the upper portion of the middle mold (131);

9) a middle mold adhesive step (S09) of applying and pressing an adhesive to the lower end of the middle mold (131);

10) the upper case coupling step of placing the upper case 161 to the upper portion of the battery cell 101 to press the upper case to the lower side so that the lower case 110, the battery cell 101 and the upper case 161 are combined; (S10);

11) a functional test step (S11) of checking the electrical state of each terminal of the assembled battery cell 101;

12) a label attaching step (S12) for attaching a test point label 171 to the top of the battery cell (101);

13) The battery cell 101 is separated from the battery cell fixing jig 10 separated from the battery pack assembly device 50 to assemble the outer case 181 to complete the assembly of the battery pack 100 and then inspect the appearance. And complete the step of packaging (S13).

Accordingly, in the state where the battery cell fixing jig 10 in which the lower case 110 and the battery cell 101 are mounted is seated in the fixing jig guide groove 61 of the battery pack assembly device 50, the clad metal seating step (S03), the terminal welding step (S04), the middle mold seating step (S05), the negative nickel plate seating step (S06), the positive nickel plate seating step (S07), the circuit connection step (S08), the Middle mold bonding step (S09), the upper case coupling step (S10), the functional test step (S11) and the label attachment step (S12), the fixing jig guide groove 61 of the battery pack assembly device (50) The vertical protrusions 31 of the battery cell fixing jig 10 moving laterally along one side move one by one with respect to the vertical grooves 72 of the step wall surface 71 of the battery pack assembly device 50. As the step, the clad metal seating step (S03) for each individual battery cell 101 proceeds at every step, for the terminal. Contact step (S04), the middle mold mounting step (S05), the negative nickel plate mounting step (S06), the positive nickel plate mounting step (S07), the circuit connection step (S08), the middle mold bonding step (S09) ), The upper case coupling step (S10), the functional inspection step (S11) and the label can be configured to proceed to the assembly step (S12).

Hereinafter, with reference to the accompanying drawings as follows.

That is, the battery cell fixing jig 10 of the present invention, as shown in Figures 2 to 4, welds a terminal for electric charging to the battery cell 101, and configures a circuit for charging and electrical protection, the battery cell 101 is a fixing jig for assembling the case for protecting the circuit and the like to complete the assembly of the battery pack 100. That is, the upper body is opened and the overall shape is a body 11 formed in a rectangular enclosure shape, the inside of the body 11 is opened to the upper battery cell coupling space 12 formed in a rectangular space, the battery cell coupling space ( A plurality of long grooves are formed on the inner wall surface 13 of the long side facing each other of 12) from the top to the bottom, and battery cell coupling holes 14 are formed in which both long edge portions of the plurality of battery cells are inserted.

By inserting the battery cell 101 for assembly from the top of the battery cell fixing jig 10 as described above, the battery cell (14) in the battery cell coupling port 14 that is a vertical groove formed on both sides of the battery cell fixing jig 10 101) is assembled by inserting the end edges of both ends.

In addition, by forming the induction groove 15 of the long groove in the vertical direction in the center of the battery cell coupler 14 to facilitate insertion and removal of the battery cell 101.

Then, prior to this, after placing the lower case 110 of the battery pack, the battery cell 101 and the upper members of the battery pack 100 are sequentially positioned, and then assembled by the battery pack 100 through pressure and welding operations. Will complete. In particular, the plurality of battery packs 100 may be assembled by inserting a plurality of battery cells 101 into one battery pack fixing jig 10, thereby improving work efficiency. In addition, there is no fear that the battery cell 101 and the accessory parts of the battery pack 100 may be lost even if the assembly work is performed in the installation stand, and there is no fear of wrong assembly.

As shown in FIG. 2, the battery pack fixing jig 10 may be formed as a single body 11 as a whole.

In another embodiment, the body 11 may be provided as a separate type as shown in FIG.

That is, one wall surface on which the battery cell coupler 14 of the body 11 is formed is provided with a separation wall 20 formed to be separated and coupled. Thus, the battery cell 101 is configured to be easily inserted into and detached from the battery cell coupler 14.

Accordingly, a screw groove 16 in which the fastening bolt 21 is screwed is formed under the coupling portion in which the separating wall 20 is removed from the body 11, and a corresponding position of the separating wall 20 is formed. The screw through groove 22 penetrating from the top to the bottom is formed in the. Therefore, in the state in which the separation wall 20 is removed, one or a plurality of battery cells 101 are inserted into and coupled to the battery cell coupling holes 14 of the body 11, and the separation wall 20 is connected to the battery cells 101. After positioning so as not to swing, it is screwed into the screw groove 16 of the body 11 through the screw through groove 22 of the separation wall 20 with the fastening bolt 21. Then, the battery cell 101 is fixed by the battery cell coupler 14 and the separation wall 20 of the body 11 without being shaken, so that other parts can be easily joined and welded. will be.

The battery cell fixing jig 10 may be embodied as an embodiment of the two cases, and the body 11 of the battery cell fixing jig 10 may also be formed on the outer wall surface of the wall opposite the separation wall 20 ( It is possible to form one or a plurality of vertical protrusions 31 protruding upward and downward long outwardly in the 32. The vertical protrusions 31 may be formed as a semicircular rounded surface, an elliptical surface, a zigzag rectangular projecting surface, a triangular mountain, or the like, and are particularly preferably formed as a semicircular rounded surface. Since the battery cell fixing jig 10 is mounted on the battery pack assembly device 50 while the battery cell 101 is mounted, the assembly process is performed while moving the vertical protrusions 31 one by one, This is because the surface can be provided so that the movement can be easily performed.

The battery cell fixing jig 10 provided as described above may be mounted to configure a battery pack assembly device 50 for assembling the battery pack 100. That is, as shown in Figs. 5 and 6, the battery cell 101 is mounted on the battery cell fixing jig 10, the base body 51 to perform the assembly operation of the battery pack 100, and the base body 51 In the upper part of the open), the battery cell fixing jig 10 is provided as a fixing jig guide groove 61 to be mounted and moved.

Accordingly, the base 51 has a plurality of vertical grooves 72 in which one side wall of the fixing jig guide groove 61 is a vertical groove long vertically coupled to the plurality of vertical protrusions 31 of the battery cell fixing jig 10. And a step wall surface 71 formed therein, and the other side wall allows swinging in a direction perpendicular to the moving direction of the battery cell fixing jig 10, thereby moving the battery cell fixing jig 10 to the step wall surface 71. It is provided with a support wall surface 81 which is a vertical plate body to elastically support in the direction.

And a fixed wall surface 65 which is a vertical wall to the outside of the support wall surface 81, and the support wall surface 81 of the sliding rod 75 penetrates the through hole 66 of the fixed wall surface 65. One side is fixed, the sliding rod 75 is embedded therein further provided with a support spring 91 provided between the support wall surface 81 and the fixed wall surface (65).

Thus, one side of the support spring 91 elastically supports the fixed wall surface 65 to maintain the state in which the other support wall surface 81 is pushed toward the battery cell fixing jig 10 side, resulting in a battery cell fixing jig ( The vertical protrusions 31 of 10 and the vertical grooves 72 of the step wall surface 71 maintain grooves coupled to each other. When the lateral force to move along the fixing jig guide groove 61 from the outside acts, while crossing the plurality of vertical grooves 72 of the step wall surface 71 along the fixing jig guide groove 61 one by one The cell fixing jig 10 is provided to move.

Therefore, while progressing the vertical groove 72 of the step wall surface 71 one by one, it is possible to proceed with the assembly work consisting of each step sequentially.

The method of assembling the battery pack 100 using the battery cell fixing jig 10 configured as described above and the battery pack assembly device 50 using the same will now be described.

That is, the assembly method of the battery pack 100 as an example of the exploded perspective view of the battery pack 100 shown in FIG.

1) First, the battery cell fixing jig 10 is separated from the battery pack assembly device 50, and the cell wall fixing jig 14 is separated from the battery cell fixing jig 10. The lower case of the first to prepare the assembly work of the battery pack 100 to the lower case seating step (S01) to seat the lower case 110.

2) and mounting the plurality of battery cells 101 in the battery cell fixing jig 10 on which the lower case 110 is seated, and fastening bolts for separating the wall 20 so that the battery cells 101 are fixed. After the fixed coupling to the body 11 using the 21), as the battery cell mounting step (S02) to seat the battery cell fixing jig 10 to the fixing jig guide groove 61 of the battery pack assembly device (50) The battery cell 101 is mounted. In the accompanying drawings of the present invention, the battery cells 101 are mounted ten by ten to proceed with the assembly work. However, the present invention is not limited thereto, and the assembly work may be performed by appropriately adjusting the number according to the work quantity and the work environment. have.

3) After the clad metal (+) terminal 104 side of the battery cell 101 located in the battery cell fixing jig 10 seated in the fixing jig guide groove 61 of the battery pack assembly device 50 ( 121) and the clad metal mounting step (S03) for mounting the nickel plate 123 on the (-) terminal 105 side.

4) Further, the terminal welding step (S04) of spot welding the (+) terminal 104, the clad metal 121, the (-) terminal 105 and the nickel plate 123 of the battery cell 101 is carried out, respectively. do.

5) And the middle mold seating step (S05) for seating the middle mold 131 to the top of the battery cell 101 proceeds.

6) Next, the negative electrode plate seating step S06 of spot welding is performed by placing the negative electrode plate 143 toward the nickel plate 123.

7) In the next step, the cathode nickel plate seating step (S07) of spot welding is performed by placing the cathode nickel plate 141 toward the clad metal 121.

8) In the next step, the circuit connection step S08 of coupling the PCB circuit board assembly 151 to the upper portion of the middle mold 131 is performed.

9) Next, the middle mold adhesive step (S09) of applying and pressing an adhesive to the lower end of the middle mold 131 is performed.

10) And the upper case coupling to place the upper case 161 to the upper portion of the battery cell 101 to press the upper case to the lower to combine the lower case 110, the battery cell 101 and the upper case 161. Proceed to step S10.

11) performs a functional test step (S11) of checking the electrical state of each terminal of the battery cell 101 in the assembled state as described above.

12) In addition, a label attaching step (S12) of attaching a test point label 171 to the battery cell 101 is performed.

13) Finally, the battery cell 101 is removed from the battery cell fixing jig 10 separated from the battery pack assembly device 50, and then the outer case 181 is assembled to complete the battery pack 100 assembly. In the final step (S13) for the appearance inspection and packaging, the assembly work of the battery pack 100 is completed.

It is configured to complete the battery pack assembly method using a battery pack assembly device equipped with a battery cell fixing jig for assembling the battery pack 100 by the above steps with the battery pack assembly device 50 as described above, According to the type of the battery pack of the above configuration step, some of the configuration step may be changed and added, it is natural that such a change in configuration step is within the scope of the present invention.

Then, the battery case fixing jig 10 having the lower case 110 and the battery cell 101 mounted thereon is seated in the fixing jig guide groove 61 of the battery pack assembling apparatus 50, and the clad metal seating step (S03). ), The terminal welding step (S04), the middle mold seating step (S05), the negative nickel plate seating step (S06), the positive nickel plate seating step (S07), the circuit connection step (S08), the middle mold Fixing jig guide groove 61 of the battery pack assembly device 50 for the adhesion step (S09), the upper case coupling step (S10), the function test step (S11) and the label attachment step (S12), and the like. The vertical projections 31 of the battery cell fixing jig 10 moving laterally move one by one with respect to the vertical grooves 72 of the step wall surface 71 of the battery pack assembly device 50. The clad metal seating step (S03), for each individual battery cell 101 while proceeding every step Self-welding step (S04), the middle mold seating step (S05), the negative nickel plate seating step (S06), the positive nickel plate seating step (S07), the circuit connection step (S08), the middle mold bonding step ( S09), the upper case coupling step (S10), the functional inspection step (S11) and the label attachment step (S12), etc. are configured to proceed with the assembly work.

That is, in the state of FIG. 5 in which the vertical protrusions 31 of the battery cell fixing jig 10 are inserted into the vertical grooves 72 of the step wall 71, respectively, the battery cell fixing jig 10 is pushed laterally. As such, the curved surface of the vertical protrusion 31 is provided to be coupled with the next vertical groove by going over the mountain portion of the vertical groove 72, and it is possible to proceed with the assembly work without being stably shaken.

In each step of the assembly operation, the assembly operation of the battery pack 100 while moving the battery cell 101 along the fixing jig guide groove 61 for each step, it is configured to proceed with the assembly work, even if the battery The cell 101 and the component parts are advantageous in that they can be assembled while maintaining a stable state without being disturbed.

The embodiments of the present invention have been described in detail above, but since the embodiments have been described so that those skilled in the art to which the present invention pertains can easily carry out the present invention, The technical spirit of the present invention should not be interpreted limitedly.

The battery cell fixing jig and battery pack assembling apparatus of the present invention provided as described above can perform the assembly work stably because the battery cells and the parts are not rocked even when the battery pack assembly work is performed, and thus the defect rate is reduced. The performance of the battery pack is excellent.

In addition, since the battery cell fixing jig equipped with a plurality of battery cells are moved while moving laterally at regular intervals, the work process is simplified and the quality can be uniformly produced.

Claims (10)

The body 11, which is open at the top and is formed in a rectangular box shape in its entire shape, The inside of the body 11 is open to the upper battery cell coupling space 12 formed in a rectangular space, A plurality of long grooves are formed on the inner wall surface 13 of the long side facing each other of the battery cell coupling space 12 from the top to the bottom thereof, and the long side edges of the plurality of battery cells are respectively inserted in the battery cell coupler ( Battery cell fixing jig, characterized in that 14) is formed. The method of claim 1, The body 11, One wall surface on which the battery cell coupler 14 of the body 11 is formed is provided with a separation wall 20 formed to be separated and coupled, such that the battery cell 100 is inserted into the battery cell coupler 14. And a battery cell fixing jig configured to be easily separated. The method of claim 2, The body 11, Battery cell fixing jig, characterized in that the induction groove 15 of the long groove in the vertical direction in the center of the battery cell coupler (14). The method according to any one of claims 1 to 3, The body 11, Battery cell fixing jig, characterized in that one or a plurality of vertical projections (31) protruding upward and downward long outwardly formed on the outer wall surface 32 of the opposite wall of the separation wall (20). The method of claim 4, wherein The vertical protrusion 31, Battery cell fixing jig, characterized in that the outwardly projecting projection surface is formed in a semi-circular round surface. The base body 51 is mounted to the battery cell fixing jig 10 of claim 4 so that the battery cell 101 is mounted on the battery cell fixing jig 10 so that the battery pack 100 can be assembled. A battery equipped with a battery cell fixing jig, characterized in that the fixing jig guide groove 61 for allowing the battery cell fixing jig 10 to be mounted and moved inside the upper portion of the base 51 opened. Pack assembly unit. The method of claim 6, The base body 51, One side wall of the fixing jig guide groove 61 is a step wall surface 71 in which a plurality of vertical grooves 72, each of which is a vertical groove, is formed to be coupled to the plurality of vertical protrusions 31 of the battery cell fixing jig 10. Equipped, The other side wall is a support wall surface which is a vertical plate body which allows the battery cell fixing jig 10 to elastically support in the direction of the step wall surface 71 by allowing oscillation in a direction perpendicular to the moving direction of the battery cell fixing jig 10. Battery pack assembly jig equipped with a battery cell fixing jig characterized in that it is provided with (81). The method of claim 7, wherein The base body 51 forms a fixed wall surface 65 which is a vertical wall to the outside of the support wall surface 81, The support wall surface 81 is fixed to one side of the sliding bar (75) passing through the through hole of the fixed wall surface, The battery rod with the battery cell fixing jig is characterized in that the sliding rod 75 is embedded therein further comprises a support spring 91 provided between the support wall surface 81 and the fixed wall surface (65). Assembly device. A battery pack assembling method using a battery pack assembling apparatus equipped with a battery cell fixing jig, comprising assembling the battery pack 100 by the following steps with the battery pack assembling apparatus 50 of claim 8. 1) In the state where the battery cell fixing jig 10 is separated from the battery pack assembly device 50 and the separating wall 20 is separated from the battery cell fixing jig 10, A lower case seating step of seating the lower case 110 on the bottom (S01); 2) The battery cell 101 is mounted on the battery cell fixing jig 10 on which the lower case 110 is seated, and the separation wall 20 is fixedly coupled to the body 11 to fix the battery cell 101. Then, the battery cell mounting jig (10) is seated on the fixing jig guide groove 61 of the battery pack assembly device (50) mounting step (S02); 3) Clad metal 121 on the (+) terminal 104 side of the battery cell 101 located in the battery cell fixing jig 10 seated in the fixing jig guide groove 61 of the battery pack assembly device 50 ) And a clad metal seating step (S03) for seating the nickel plate 123 on the (-) terminal 105 side; 4) a terminal welding step (S04) of spot welding the (+) terminal 104, the clad metal 121, the (-) terminal 105 and the nickel plate 123 of the battery cell 101; 5) a middle mold seating step (S05) for seating the middle mold 131 to the upper portion of the battery cell (101); 6) a negative electrode plate seating step (S06) for spot welding by placing the negative electrode nickel plate 143 toward the nickel plate 123; 7) a positive electrode nickel plate seating step (S07) for spot welding by placing the positive electrode nickel plate 141 toward the clad metal 121; 8) a circuit connection step (S08) of coupling the PCB circuit board assembly (151) to the upper portion of the middle mold (131); 9) a middle mold adhesive step (S09) of applying and pressing an adhesive to the lower end of the middle mold (131); 10) the upper case coupling step of placing the upper case 161 to the upper portion of the battery cell 101 to press the upper case to the lower side so that the lower case 110, the battery cell 101 and the upper case 161 are combined; (S10); 11) a functional test step (S11) of checking the electrical state of each terminal of the assembled battery cell 101; 12) a label attaching step (S12) for attaching a test point label 171 to the top of the battery cell (101); 13) The battery cell 101 is separated from the battery cell fixing jig 10 separated from the battery pack assembly device 50 to assemble the outer case 181 to complete the assembly of the battery pack 100 and then inspect the appearance. Finishing and packaging (S13). The method of claim 9, The clad metal seating step in a state where the battery cell fixing jig 10 in which the lower case 110 and the battery cell 101 are mounted is seated in the fixing jig guide groove 61 of the battery pack assembly device 50 ( S03), the terminal welding step (S04), the middle mold seating step (S05), the negative nickel plate seating step (S06), the positive nickel plate seating step (S07), the circuit connection step (S08), the middle Mold bonding step (S09), the upper case coupling step (S10), the functional test step (S11) and the label attachment step (S12), The vertical projections 31 of the battery cell fixing jig 10 moving laterally along the fixing jig guide groove 61 of the battery pack assembling device 50 are step wall surfaces of the battery pack assembling device 50. The clad metal seating step (S03) and the terminal welding step (S04) for each individual battery cell 101 while proceeding every step by moving one by one with respect to the vertical groove 72 of 71). ), The middle mold seating step (S05), the negative nickel plate seating step (S06), the positive nickel plate seating step (S07), the circuit connection step (S08), the middle mold bonding step (S09), the upper Battery pack assembling method using a battery pack assembly device, characterized in that configured to proceed assembling step (S10), the functional inspection step (S11) and the label attachment step (S12).

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