KR102535212B1 - Battery pack - Google Patents

Abstract

Disclosed herein is a battery pack having improved work efficiency by simultaneously connecting a current collector plate and a protection circuit unit in a process of connecting the current collector plate to cells through an automatic welding device.
According to one embodiment of the content disclosed herein, a battery pack includes a battery unit having a plurality of cells having electrodes formed on upper and lower portions, first and second holders covering and combining lower and upper portions of the cells, and the first and second holders. and an electrode unit provided with a current collector plate coupled to each of the second holders, wherein the current collector plate passes through the first and second holders to face the electrode, and a plurality of electrode plates having edges extending outwardly; A connection member connecting the edges of the electrode plate to each other is included.

Description

Battery Pack {BATTERY PACK}

The content disclosed herein relates to a battery pack, and relates to a battery pack that stores or supplies power.

Unless otherwise indicated herein, material described in this section is not prior art to the claims in this application, and it is not admitted that the material described in this section is prior art.

In general, a battery pack is composed of a battery cell, a protection circuit module connected to the battery cell, and conductive members connecting electrodes of the cell, and the protection circuit module controls charging and discharging of the battery cell.

The protection circuit module is equipped with protection elements such as a PTC element and a thermal fuse to block the current flow to the outside when the battery cell rises to a high temperature or an abnormality in the set voltage due to excessive charging and discharging occurs.

The current collector plate, which is a conductive member that electrically connects battery cells, is coupled to the external holder through screws and short circuits occur or work time increases during the process of coupling with the protective circuit module, so to improve the convenience and safety of battery pack assembly. It takes skill.

In this regard, Korean Patent Publication No. 10-2019-0032887 discloses a battery module including a guide coupling structure and a battery pack including the same, and Korean Patent Registration No. 10-0983012 discloses a secondary battery pack based on a mechanical connection method. is starting

However, the existing inventions do not disclose technology for improving assembly efficiency and safety of the current collector plate and the protective circuit module.

An object of the present invention is to provide a battery pack with improved work efficiency by simultaneously connecting a current collector plate and a protection circuit unit in a process of connecting the current collector plate to the cells through an automatic welding device.

In addition, it is not limited to the technical problems as described above, and it is obvious that other technical problems may be derived from the following description.

According to an embodiment of the present disclosure, a battery pack includes a battery unit having a plurality of cells having electrodes formed on upper and lower portions, first and second holders coupled to cover lower and upper portions of the cells, and the first and second holders. An electrode unit having a plurality of current collector plates respectively coupled to a second holder and a plurality of protection circuit units mounted on the first and second holders and welded to portions of the plurality of current collector plates, respectively; The current collector plate may include a plurality of electrode plates passing through the first and second holders, interviewed by the electrodes, and a plurality of electrode plates having edges extending outwardly, and a plurality of connecting members connecting the edges of the plurality of electrode plates to each other, and one end Each of the plurality of connection members is connected, and the other end includes a plurality of connection members each extending toward the plurality of protection circuit parts, and in the process of welding the plurality of electrode plates with the plurality of cells, respectively. Other ends of the plurality of connecting members are welded to the plurality of protection circuit parts, respectively.

In addition, the current collector plate may further include an inclined member in which portions of the edge of the electrode plate obliquely extend upward or downward to be connected to the connection member.

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In addition, portions of bottom and top surfaces of each of the first and second holders corresponding to the periphery of the electrode plate may be depressed to form a groove into which the connection member is inserted.

According to one embodiment disclosed in the present specification, the battery pack can simultaneously couple the conductive members connecting the battery cells and the protective circuit module to the holder covering the battery cells through an automatic welding device, thereby improving work convenience.

In the battery pack, the portion corresponding to the electrode plate of the conductive members is formed in an embossed shape, penetrates the holder covering the battery cells, and adheres to the electrodes of the battery cells to improve the bonding force, and the connector formed on the front and rear sides and parts of the current collector plate They have the advantage of being able to connect with each other.

In addition, since the effects of the present invention described as described above are naturally exhibited by the configuration of the described contents regardless of whether the inventor recognizes them, the above-described effects are only a few effects according to the described contents, and all the effects that the inventor grasps or realizes should not be accepted as written.

In addition, the effect of the present invention should be additionally grasped by the overall description of the specification, and even if it is not described in an explicit sentence, those skilled in the art to which the described contents belong will have such an effect through this specification. If the effect can be recognized as such, it should be regarded as the effect described in this specification.

1 is a diagram illustrating a state of use of a battery pack according to an embodiment disclosed herein.
2 and 3 are exploded perspective views of the battery pack of FIG. 1;
Figure 4 is a perspective view of the second holder of Figure 1;
5 is a cross-sectional view taken along line II′ of FIG. 1;

Hereinafter, with reference to the accompanying drawings, a look at the configuration, operation and effect of the battery pack according to the preferred embodiment. For reference, in the following drawings, each component is omitted or schematically illustrated for convenience and clarity, the size of each component does not reflect the actual size, and the same reference numerals refer to the same components throughout the specification. , and reference numerals for the same components in the individual drawings will be omitted.

1 to 5 , the battery pack 100 includes a first battery unit 200, a second battery unit 210, a first holder 300, a second holder 350, and a first electrode. It includes the part 400, the second electrode part 450, the first protection circuit part 500, the second protection circuit part 550, the lower cover 600 and the upper cover 610.

The first battery unit 200 includes cells 205 , and the second battery unit 210 includes cells 215 .

The first battery unit 200 is disposed in the first direction 1 corresponding to one side of the battery pack 100, and the cylindrical cells 205 extending upward or downward are in close contact with each other. The electrodes 211 are formed on the top and bottom of each of the cells 205, and are arranged in the form of a square grid.

The second battery unit 210 is spaced apart on the second direction 2 side of the first battery unit 200, and the cylindrical cells 215 extending long toward the top or bottom are in a state in which the sides are in close contact with each other. Arranged in the form of a square lattice system, it is formed in the shape of a rectangular parallelepiped as a whole, and electrodes 211 are formed on the top and bottom of each of the cells 215.

The first holder 300 includes a holder body 310, a socket 320, and a coupling member 330, and the second holder 350 includes a holder body 360, a socket 370, and a coupling member 380. includes

The first holder 300 is formed in a rectangular parallelepiped shape by being arranged in a square lattice form and coupled to each other in a state in which cylindrical sockets 320 having internal spaces open to the upper and lower portions are in close contact with each other, and the first and second It is coupled to the first and second battery units 200 and 210 through sockets 320 at the bottom of the battery units 200 and 210 so as to be detachable or attached.

Specifically, the holder body 310 is formed in the form of a square container in which an inner space in the form of a rectangular parallelepiped plate extending toward the first or second directions (1, 2) is opened toward the top, and extends forward and backward at the center of the bottom surface. A portion of the rectangle is recessed upward to form a lower groove 315 at the lower portion.

A portion of the holder body 310 corresponding to the upper portion of the lower groove 315 of the holder body 310 is formed as a connecting plate 313 extending forward or rearward to form a square plate shape.

The cells 205 and 215 spaced apart with the connection plate 313 interposed therebetween are the cells 205 or a partial fire or explosion that may occur in either one of the cells 215 is connected to the connection plate 313 and Since it is blocked by the lower groove 315, there is an advantage in that the damage range of the cells 205 and 215 due to fire or explosion is reduced.

The first reinforcing member 314 is formed in the form of a vertical plate extending in the first or second directions 1 and 2, and the sockets 320 in the first direction 1 side extend from the top of the connecting plate 313. and the sockets 320 in the second direction (2) are connected to each other, and the lower surface is coupled to the upper part of the connection plate 313.

The second reinforcing member 316 extends in a forward or rearward direction and is formed in a vertical plate shape with both sides of a large surface area facing in the first and second directions (1, 2), and is formed in the center of the first reinforcing members 314. The bottom surface is coupled to the upper portion of the connecting plate 313 in a state of being coupled with the first reinforcing members 314 through the .

Referring to FIG. 3, on the bottom surface of the holder body 310 corresponding to both sides of the connecting plate 313, a portion of the circular bottom surface spaced apart in a square lattice form is recessed upward to form an upper space of the holder body 310 and a holder. Circular electrode grooves 311 connecting the lower space of the main body 310 are formed.

A part of the lower surface of the holder body 310 in the form of a square at a position corresponding to the first and second directions (1, 2) and front and rear in the electrode groove 311 is depressed toward the top and connected to the adjacent electrode groove 311. Or grooves 312 connected to the outer space of the holder body 310 are formed.

Each of the sockets 320 extends upward or downward to form a cylindrical shape in which an internal space is open upwards and downwards, and a bottom rim surrounds each of the electrode grooves and is coupled to the bottom upper surface of the holder body 310. .

A lower portion of each of the cells 215 is inserted into each of the sockets 320, the lower outer surface of each of the cells 215 is in close contact with the inner surface of the socket 320, and the lower portion of each of the cells 215 The electrode is exposed to the lower space where the first electrode part 400 is located through the electrode groove 311 .

The sockets 320 arranged in a lattice form are spaced apart from each other in the first and second directions (1, 2) with the lower groove 315 and the connection plate 313 interposed therebetween, and adjacent to the connection plate 313. The sockets 320 are connected to each other through first and second reinforcing members 314 and 316 .

Accordingly, the connection plate 313 has an advantage of ensuring durability through the first and second reinforcing members 314 and 316 coupled to the connection plate 313 while connecting the sockets 320 that are spaced apart from each other.

One end of the coupling member 330 is formed in a cylindrical shape and is coupled to the bottom upper surface of the holder body 310 located in the inner space of the holder body 310 at a position corresponding to each of the sockets 320, and the other end extends from one end to the top of the socket 320.

The coupling members 330 extend upward between the cells 205 or the cells 215 in a state where the first holder 300 is coupled to the first and second battery units 200 and 210, The cells 205 and 215 are stably fixed by being bolted between the coupling member of the second holder 350 to be described later and the cells 205 and 215 .

The second holder 350 includes a holder body 360 , sockets 370 and coupling members 380 .

As shown in FIG. 4 , the second holder 350 is arranged in a square lattice form in a state in which the cylindrical sockets 370 with open upper and lower inner spaces are in close contact with each other and coupled to each other to form a rectangular parallelepiped. The first and second battery units 200 and 210 are detachably or attachably coupled to the first and second battery units 200 and 210 through the sockets 370 at the top of the first and second battery units 200 and 210 .

Specifically, the holder body 360 is formed in the form of a square container in which an internal space in the form of a rectangular parallelepiped plate extending toward the first or second directions 1 and 2 is opened toward the bottom, and extends forward and backward at the center of the upper surface. A portion of the rectangular shape is depressed downward to form an upper groove 365.

A portion of the holder body 360 corresponding to the lower part of the upper groove 365 of the holder body 360 is formed of a connecting plate 363 in the form of a square plate extending forward or rearward, and It is placed lower than the upper surface.

The first reinforcing member 364 is formed in the form of a vertical plate extending in the first or second directions 1 and 2, and the sockets 370 in the first direction 1 side from the top of the connecting plate 363. and the sockets 370 in the second direction 2 are connected to each other, and the bottom surface is coupled to the lower portion of the connecting plate 363.

The second reinforcing member 366 extends in a forward or rearward direction and is formed in a vertical plate shape with both sides of a large surface area facing in the first and second directions (1, 2), and is formed in the center of the first reinforcing members 364. The bottom surface is coupled to the lower portion of the connecting plate 363 while penetrating through and coupled to the first reinforcing members 364 .

On the upper surface of the holder body 360 corresponding to both sides of the connection plate 363, a portion of the circular upper surface spaced apart in the form of a square lattice is recessed to the lower part of the holder body 360 and the holder body 360 ) are formed with circular electrode grooves 361 connecting the upper space.

A portion of the rectangular shape of the upper surface of the holder body 360 at a position corresponding to the first and second directions (1, 2) and the front and rear of the electrode groove 361 is depressed toward the lower side, so that the adjacent electrode groove 361 and Grooves of the same shape as the grooves 312 formed in the holder body 310 connected to or connected to the outer space of the holder body 360 are formed.

Each of the sockets 370 extends upward or downward to form a cylindrical shape in which the inner space is open upwards and downwards, and the upper surface rim surrounds each of the electrode grooves 361 of the holder body 360 to form a holder body ( 360) is combined with the bottom surface of the lower part.

An upper part of each of the cells 205 and 215 is inserted into each of the sockets 370, the outer surface of each of the upper portions of the cells 205 and 215 is in close contact with the inner surface of the socket 370, and the cell 205, 215, each upper electrode is exposed to the upper space where the second electrode part 450 is located through the electrode groove 361.

The sockets 370 arranged in a lattice form are spaced apart from each other in the first and second directions (1, 2) with the upper groove 365 and the connection plate 363 interposed therebetween, and adjacent to the connection plate 363. The sockets 370 are connected to each other through first and second reinforcing members 364 and 366 .

Accordingly, the connection plate 363 has an advantage of ensuring durability through the first and second reinforcing members 364 and 366 coupled to the connection plate 363 while connecting the sockets 370 that are spaced apart from each other.

One end of the coupling member 380 is formed in a cylindrical shape and coupled to the lower surface of the holder body 360 at a position corresponding to each of the sockets 370, and the other end extends from one end to the lower portion of the socket 370. .

Coupling members 380 are lower portions between the cells 205 or cells 215 in a state where the first and second holders 300 and 350 are coupled to the first and second battery units 200 and 210. , and is coupled between the coupling member 330 of the first holder 300 and the cells 205 and 215 to stably fix the cells 205 and 215 .

The first electrode unit 400 includes current collector plates 410 and 420 .

The first electrode part 400 is an electrode formed on the lower part of the holder body 310 in a state of being spaced apart from each other in the first and second directions (1, 2) with the lower groove 315 and the connection plate 313 interposed therebetween. It is inserted into the grooves 311 and 312 and coupled to the holder body 310 to be connected to the electrodes located below the cells 205 and 215.

Specifically, the current collecting plate 410 includes an electrode plate 412 and a connection member 414 .

The current collector plate 410 is inserted into each of the electrode grooves 311 and interviewed to each of the cells 205 and 215, and two rows of electrode plates are spaced apart at equal intervals in the first or second direction (1, 2). It is formed in the form of connecting the (412) in the form of a ladder through the connecting member (414).

The central portion of the electrode plate 412 is formed in a circular plate shape, and is interviewed with the electrode 211 located below the cells 205 and 215 in the electrode groove 311, and the center is in the first or second direction (1, A portion of the bottom surface extending in a straight line shape extending in 2) is depressed toward the top to form an opening 413 connecting the upper space and the lower space of the electrode plate 412 .

The central portion of the electrode plate 412 is coupled to any one of the cells 205 and 215 through welding in a state where the lower electrode of any one of the cells 205 and 215 is interviewed, and the outer portion is a portion of the rim of the central portion. Inclined members 415 extending in a stick shape toward the first direction (1), the second direction (2), front and rear, and coupled with adjacent connection members 414 are formed.

The electrode plate 412 is disposed above the inclined member 415 and is interviewed with the electrode 211, and the inclined member 415 extends obliquely downward from the electrode plate 412 and is connected to the connecting members 414. do.

The connection member 414 is formed in a square plate shape and is connected to the inclined members 415 of each of the plurality of electrode plates 412, connects the plurality of electrode plates 412, and has a groove ( 312) and coupled with the holder body 310.

A plurality of current collector plates 410 are disposed on the first and second directions (1, 2) sides of the connection plate 313, and are spaced apart in parallel to the front or rear, respectively, at the bottom of the holder body 310. coupled and connected to the cells 205 and 215.

The current collector plate 420 formed by connecting the electrode plates 412 arranged in a straight line through the connecting members 414 is coupled to the front or rear edge of the holder body 310 and is coupled to the front and rear sides of the holder body 310. Since the collector plate 410 is coupled to the holder body 310 in a narrow space where it is difficult to install according to the size change, the number of cells 205 and 215 coupled to the holder body 310 can be increased.

One end of the connecting member 416 is formed in the form of a vertical plate and is in close contact with the inner surface of the holder body 310 in the lower groove 315 of the connecting member 414 formed on each of the current collector plates 410 and 420. connected to the end

The other end of the connecting member 416 is vertically bent at one end and extends in parallel with the connecting plate 313 in the form of a square plate, and connects to the connecting terminal 510 of the first protection circuit unit 500 mounted in the lower groove 315. welded together

Therefore, since the current collector 410 is welded together with the cells 205 and 215 and the first protection circuit unit 500 through an automatic spot welding device, work convenience and work speed are improved.

The second electrode unit 450 includes current collector plates 460 , 470 , and 480 .

As shown in FIGS. 1 and 2, the second electrode unit 450 is spaced apart from each other in the first and second directions (1, 2) with the upper groove 365 and the connecting plate 363 interposed therebetween. It is inserted into the electrode grooves 361 and 362 formed on the upper part of the holder body 360 and coupled to the holder body 360 to be connected to the electrodes 211 located on the upper parts of the cells 205 and 215.

Specifically, the current collector 460 includes an electrode plate 462 and a connection member 464 .

The current collector plate 460 is inserted into each of the electrode grooves 361 and interviewed to each of the cells 205 and 215, and two rows of electrode plates spaced apart at equal intervals in the first or second direction (1, 2). 462 is formed in a form connected in a ladder form through a connecting member 464.

The central portion of the electrode plate 462 is formed in a circular plate shape, and the electrode groove 361 faces the upper electrodes of the cells 205 and 215, and the center portion extends in the first or second direction (1, 2). A portion of the straight bottom surface is depressed toward the top to form an opening 463 connecting the upper space and the lower space of the electrode plate 462 .

The central portion of the electrode plate 462 is coupled to any one of the cells 205 and 215 through welding in a state where the lower electrode of any one of the cells 205 and 215 is interviewed, and the outer portion is a portion of the rim of the central portion. Inclined members 465 extending in a stick shape toward the first direction (1), the second direction (2), forward and backward, and coupled with adjacent connection members 464 are formed.

The connection member 464 is formed in a square plate shape and is connected to the inclined members 465 of each of the plurality of electrode plates 462, connects the plurality of electrode plates 462, and has a groove ( 362) and coupled with the holder body 360.

A plurality of current collector plates 460 are disposed on the first and second directions 1 and 2 of the connection plate 363, and are spaced apart in parallel to the front or rear, respectively, on the top of the holder body 360. coupled and electrically connected to the cells 205 and 215.

The current collector plates 470 and 480 formed by connecting the electrode plates 462 spaced apart in a straight line through connection members 464 are coupled to the top of the front or rear edge of the holder body 360 to form the holder body 360. ), the number of cells 205 and 215 coupled to the holder body 360 can be increased because it is coupled to the holder body 360 in a narrow space where it is difficult to install the current collector plate 460 according to the front and rear size change.

One end of the connecting member 466 is formed in the shape of a vertical plate, and the upper groove 365 of each of the current collector plates 460, 470, and 480 is in close contact with the inner surface of the holder body 360 in the upper groove 365. It is connected to the end of the connecting member 464 adjacent to.

The other end of the connecting member 466 is bent vertically at one end and extends parallel to the connecting plate 363 in the form of a square plate, has a line-shaped opening formed in the center, and is mounted in the upper groove 365. The second protection circuit unit ( 550) is welded to the connection terminal.

Therefore, since the current collector plates 460 are simultaneously welded to the cells 205 and 215 and the second protection circuit unit 550 through an automatic spot welding device, work convenience and work speed are improved.

In addition, since gas generated during welding is discharged to the outside through the opening 463 formed in the electrode plate 462 and the connecting member 466 and the opening, rapid and safe welding of the automatic welding device is possible.

Each of the current collector plates 470 and 480 is spaced apart from each other in the first and second directions 1 and 2 with the upper groove 365 interposed therebetween, respectively, in the first and second directions 1 and 2 respectively. Side members 472 and 482 attached to the front of the holder body 360 are formed at the end of the ) side, respectively.

Each of the side members 472 and 482 is formed in a vertical plate shape with a wide surface facing forward and backward, and is surface-bonded to the front surface of the holder body 360, and upper edges are adjacent to each other at the current collector plates 470 and 480, respectively. It is connected to the connecting members 464 arranged to do so.

Therefore, since the plurality of battery packs 100 can be electrically connected to each other through the side members 472 and 482 in a state in which the respective front faces are in close contact with each other, the plurality of battery packs 100 can be conveniently connected. .

The first protection circuit unit 500 includes connection terminals 510 and a connector 520 , and the second protection circuit unit 550 includes connection terminals 560 and a connector 570 .

The first and second protection circuit units 500 and 550 are PCMs (Protection Circuit Modules) inserted into the lower and upper grooves 315 and 365 of the battery pack 100 to connect the connection plate 313, 363) are face-to-face bonded.

Each of the first and second protection circuit parts 500 and 550 is formed in the form of a square plate elongated forward or backward, and is electrically connected to the first and second electrode parts 400 and 450, respectively. Connectors 520 and 570 are formed at the front.

Specifically, the connection terminal 510 is formed in the shape of a square plate, and is formed in a zigzag form from the rear to the front by alternating the first and second direction (1, 2) side rims at the bottom of the first protection circuit unit 500. are spaced apart

Each of the connection terminals 510 is coupled to the holder body 310 while being surface-bonded with a connection member 416 formed at each end of the current collector plates 410 and 420 adjacent to the lower groove 315 through spot welding.

Therefore, the operator places the first protection circuit unit 500 in the lower groove 315 and inserts the plurality of current collector plates 410 and 420 into the holder body 310 through an automatic welding device to collect the current collector plate 410, 420) and the first protection circuit unit 500 can be coupled to the holder body 310 at the same time.

The connector 520 is formed at the front end of the first protection circuit unit 500, and the first protection circuit unit 500 is connected to a Section Battery Management System (SBMS) through the connector 520.

Specifically, referring to FIGS. 1 and 2 , the connection terminal 560 is formed in a rectangular plate shape, and the edges of the first and second directions (1, 2) are alternately formed at the bottom of the second protection circuit unit 550. They are spaced apart in a zigzag pattern from the rear to the front.

Each of the connection terminals 560 is coupled to the holder body 360 while being surface-coupled with a connection member 466 formed at the end of each of the current collector plates 460, 470, and 480 adjacent to the upper groove 365 through spot welding. do.

Therefore, the operator places the second protection circuit unit 550 in the upper groove 365 and inserts the plurality of current collector plates 460, 470, and 480 into the holder body 360, and the current collector plate ( 460, 470, 480 and the second protection circuit unit 550 can be coupled to the holder body 360 at the same time.

The connector 570 is formed at the front end of the second protection circuit unit 550, and the second protection circuit unit 550 is connected to a Section Battery Management System (SBMS) through the connector 570.

The lower cover 600 is formed in the shape of a square plate and covers the lower part of the first electrode unit 400 while being coupled to the lower portion of the first holder 300, and the upper cover 610 is formed in the shape of a square plate and 2 is coupled to the upper part of the holder 350 and covers the upper part of the second electrode part 450 .

Therefore, the electrode plates 412 and 462 of the battery pack 100 are formed in an embossed shape with openings 413 and 462 to prevent short circuits, and a bridge-shaped inclined member connected to the connection members 414 and 464. (415, 465) are formed, stable welding is possible, and there is an advantage in that allowable current is improved.

In addition, in the battery pack 100, in the process of welding the electrode plates 412 and 462 with the cells 205 and 215, the connection members 416 and 466 can be welded to the connection terminals 510 and 560, respectively. Thus, the manufacturing convenience is improved.

In addition, the connection of the battery packs 100 or the connection of the bus bar is easy through the side members 472 and 482 formed on the current collector plates 470 and 480, and the first and second holders 300 and 350 respectively There is an advantage in that it can be conveniently assembled by inserting the first and second protection circuit units 500 and 550 into each of the lower groove 315 and the upper groove 365 formed therein.

In addition, the battery pack 100 uses a welding method different from the conventional screw coupling method in the process of connecting the connecting members 416 and 466 to the first and second protection circuit portions 500 and 550, respectively. This has the advantage of preventing short circuits.

Although the preferred embodiments of the present invention have been described with reference to the accompanying drawings, the embodiments described in this specification and the configurations shown in the drawings are only the most preferred embodiments of the present invention and represent all the technical ideas of the present invention. Since it is not, it should be understood that there may be various equivalents and modifications that can replace them at the time of this application. Therefore, the embodiments described above should be understood as illustrative and not restrictive in all respects, and the scope of the present invention is indicated by the claims to be described later rather than the detailed description, and the meaning and scope of the claims and their All changes or modified forms derived from equivalent concepts should be construed as being included in the scope of the present invention.

100: battery pack 200: first battery unit
210: second battery unit 300: first holder
350: second holder 400 first electrode part
450: second electrode unit 500: first protection circuit unit
550: second protection circuit unit 600: lower cover
610: upper cover

Claims (5)

a battery unit having a plurality of cells having electrodes formed on upper and lower portions;
first and second holders coupled to cover lower and upper portions of the plurality of cells;
an electrode unit provided with a plurality of current collector plates respectively coupled to the first and second holders; and
A plurality of protection circuit units mounted on the first and second holders and welded to portions of the plurality of current collector plates, respectively;
The battery part,
A first battery unit disposed on one side of the battery unit; and
A second battery unit disposed on the other side of the battery unit and spaced apart from the first battery unit in the direction of the other side;
A plurality of the current collector plates,
a plurality of electrode plates that pass through the first and second holders and are interviewed with the electrodes, and portions of rims extend outward;
a plurality of connection members connecting edges of the plurality of electrode plates to each other; and
Each includes a plurality of connecting members having one end connected to the plurality of connection members and the other end extending toward the plurality of protection circuit units, respectively;
The first holder,
A lower groove into which the first protection circuit unit is inserted; and
A portion of the bottom surface corresponding to the periphery of the electrode plate is recessed to include a groove into which the connecting member is inserted;
The second holder,
An upper groove into which the second protection circuit unit is inserted; and
A portion of an upper surface corresponding to the periphery of the electrode plate is recessed to include a groove into which the connecting member is inserted;
A plurality of the current collector plates,
are spaced apart from each other with the lower and upper grooves interposed therebetween,
Each of the plurality of cells and the first protection circuit portion are welded together at the same time,
A battery pack, characterized in that each of the plurality of cells and the second protection circuit unit are simultaneously welded together.
The method of claim 1, wherein the current collector,
The battery pack further comprises an inclined member connected to the connecting member by extending portions of the edge of the electrode plate obliquely toward an outer upper or lower portion.
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