KR20220096620A - Battery with circuit board unit and method of manufacturing the circuit board unit - Google Patents

Abstract

According to an embodiment of the present invention, a battery supplies power by electrically connecting a plurality of cylindrical battery cells. The battery comprises a circuit board unit which electrically connects the plurality of cylindrical battery cells and senses voltage of each cylindrical battery cell at the same time. The circuit board unit includes: a circuit board which includes a circuit unit for measuring the voltage of each cylindrical battery cell; a cell terminal which is formed in one side of the circuit board, and is electrically connected to each cylindrical battery cell; and a conductive hole which penetrates the circuit unit and the cell terminal at the same time, and forms a conductive layer inside. The present invention electrically connects each cylindrical battery cell and the circuit unit. Therefore, the present invention remarkably reduces work man-hours and improves quality of the battery at the same time.

Description

TECHNICAL FIELD [0002] Battery with circuit board unit and method of manufacturing the circuit board unit

The present invention relates to a battery having a circuit board unit and a method of manufacturing the same, and more particularly, to a battery having a circuit board unit connected to a battery in a vehicle to sense a voltage, and manufacturing the circuit board unit it's about how

Secondary batteries are widely used in mobile devices, auxiliary power devices, and the like. In addition, it is attracting attention as a main power source for electric vehicles, hybrid electric vehicles, plug-in hybrid electric vehicles, etc., which have been proposed as alternatives to solve various problems such as air pollution of conventional gasoline or diesel vehicles.

Therefore, a high-output, large-capacity battery that provides a high voltage by arranging a plurality of battery cells in an electric vehicle or the like and electrically connecting them in a series or parallel manner is used.

1 is a view showing an electrical connection structure of a conventional cylindrical battery cell.

Referring to FIG. 1 , in a conventional battery, after a plurality of cylindrical battery cells 1 are uniformly arranged, each cylindrical battery cell 1 is electrically connected to each other through a plate 3 made of metal. At this time, each cylindrical battery cell 1 and the plate 3 are electrically connected to one side of the cylindrical battery cell 1 and the wire lead 4 respectively in contact with the plate 3 .

Therefore, the conventional battery has a problem in that the wire lead 4 is formed as a separate material and connected to the cylindrical battery cell 1 and the plate 3, respectively, which greatly increases the time required for production and the fatigue of the operator, and the cylindrical battery cell There was a problem in that productivity and quality were significantly reduced due to defects and damage that may occur during the connection process between (1) and the wire lead (4).

The embodiment of the present invention has been devised to solve the above problems, and a battery having a circuit board unit having improved workability and quality by integrally forming a cell terminal on a circuit board and manufacturing the circuit board unit The purpose is to provide a method.

In one embodiment of the present invention, a battery to which a plurality of cylindrical battery cells are electrically connected to supply power is electrically connected to the plurality of cylindrical battery cells and a circuit board unit for sensing the voltage of each cylindrical battery cell; and provided, wherein the circuit board unit comprises: a circuit board in which a circuit unit for measuring the voltage of each of the cylindrical battery cells is embedded; a cell terminal formed on one side of the circuit board and electrically connected to the cylindrical battery cell; and a conducting hole passing through the circuit unit and the cell terminal at the same time and having a conducting layer formed therein, wherein the cylindrical battery cell and the circuit unit are electrically connected to each other.

The circuit board may have a plurality of connection holes formed to correspond to positions of the plurality of cylindrical battery cells, and the cell terminals extend in one direction to be disposed in the different connection holes to electrically connect the different cylindrical battery cells. can be connected to

The energizing hole may be formed between the different connection holes in which the one cell terminal is disposed to electrically connect the different cylindrical battery cells and the circuit unit to each other.

Preferably, the conducting hole is formed of a plurality of holes penetrating the single cell terminal and the circuit unit, and an inner conducting layer formed inside the conducting hole, and connected to the inner conducting layer, the other side of the circuit unit and the cell It is preferably formed of an external conducting layer formed on the outside of the terminal.

According to an embodiment of the present invention, the method for manufacturing a circuit board unit for electrically connecting a plurality of the cylindrical battery cells while sensing the voltage of each battery cell corresponds to the positions of the plurality of cylindrical battery cells inside the circuit board. A first forming step of forming a connection hole in the first plate forming the circuit portion; an arrangement step of disposing cell terminals connecting the different cylindrical battery cells to be exposed through the different connection holes; a second forming step of forming a conducting hole passing through the cell terminal and the circuit part between the different connection holes; and a third forming step of forming a conducting layer electrically connecting the cell terminal and the circuit unit to the inside of the conducting hole, wherein the circuit board and the cell terminal are integrally formed.

The method may further include a preparation step of preparing the first plate by laminating an insulating layer on only one side of the conductor plate forming the circuit part before the first forming step, wherein the arranging step includes the insulating layer and the cell terminal By forming a second adhesive layer therebetween, the cell terminal may be fixed so as to be exposed to the other side of the first plate through two different adjacent connection holes.

Preferably, in the second forming step, a plurality of the conducting holes are formed between the two different connecting holes exposed of one battery cell, and the third forming step is an internal conduction formed inside the conducting hole. It is preferable that the electroplating step of forming a layer and an external conducting layer formed on the other side of the first plate and on the outside of the cell terminal.

After the third molding step, an attachment step of attaching an insulating layer to the other side of the first plate and to the outside of the cell terminal; may further include.

As described above, according to the problem solving means of the present invention, various effects including the following items can be expected. However, the present invention is not established only when exhibiting all of the following effects.

The battery having the circuit board unit of the present invention is integrally formed with a cell terminal for electrically connecting the cylindrical battery cells to one side of the circuit board, thereby significantly reducing the number of work hours, thereby improving worker fatigue and product productivity.

In addition, it fundamentally prevents defects and damage that may occur when connecting circuit boards and cell terminals, thereby maximizing the effect of improving product productivity and improving product reliability.

In addition, the conducting layer is formed of a plurality of holes, an inner conducting layer formed inside the hole, and an outer conducting layer formed on the other side of the circuit unit and the outer side of the cell terminal to measure the voltage of the cylindrical battery cell circuit board and cell Improve the electrical connection stability of the terminal.

1 is a view showing an electrical connection structure of a conventional cylindrical battery cell.
2 is a perspective view of a battery provided with a circuit board unit according to an embodiment of the present invention;
Figure 3 is an exploded perspective view of Figure 2;
4 is an exploded perspective view of the circuit board unit of FIG. 3 ;
5 is a cross-sectional view taken in the V-V direction of the circuit board unit of FIG. 3;
6 is a cross-sectional view of the circuit board unit of FIG. 3 in a direction VI-VI.
7(a) is a perspective view of the cell terminal of FIG. 4, and FIG. 7(b) is a perspective view of a cell terminal according to another embodiment.
8 is a flowchart of a method of manufacturing a circuit board unit according to an embodiment of the present invention.
9 is a view showing the manufacturing method of FIG.

Hereinafter, specific embodiments of the present invention will be described in detail with reference to the drawings. However, detailed descriptions of known functions or configurations in the detailed description are omitted so as not to obscure the gist of the present invention.

In addition, the first plate used below is for convenience of description of the method of manufacturing the circuit board unit, and the circuit part is defined as a state in which an insulating layer is laminated on only one side of the conductor plate.

2 is a perspective view of a battery provided with a circuit board unit according to an embodiment of the present invention, FIG. 3 is an exploded perspective view of FIG. 2 , FIG. 4 is an exploded perspective view of the circuit board unit of FIG. 3 , and FIG. 5 is FIG. It is a cross-sectional view in the V-V direction of the circuit board unit, FIG. 6 is a cross-sectional view in the VI-VI direction of the circuit board unit of FIG. 3, and FIG. 7(a) is a perspective view of the cell terminal of FIG. 4, FIG. 7(b) is a perspective view of a cell terminal according to another embodiment.

2 to 7 , in one embodiment of the present invention, a plurality of cylindrical battery cells 1 are electrically connected to a battery to supply power while electrically connecting the plurality of cylindrical battery cells 1 . A circuit board unit (10) for sensing the voltage of each of the cylindrical battery cells (1) is provided, wherein the circuit board unit (10) has a circuit unit (101) for measuring the voltage of each of the cylindrical battery cells (1) is embedded circuit board 100, a cell terminal 200 formed on one side of the circuit board 100 and electrically connected to the cylindrical battery cell 1, and the circuit unit 101 and the cell terminal 200 It is characterized in that the cylindrical battery cell (1) and the circuit part (101) are electrically connected to each other by including a conductive hole (300) passing through at the same time and having a conductive layer (320) formed therein.

The battery is used in automobiles and the like, and a plurality of cylindrical battery cells 1 are electrically connected to provide a high voltage. At this time, the battery is provided with a circuit board unit 10 for connecting a plurality of cylindrical battery cells 1 in parallel or in series to provide a required high voltage and at the same time measure the overvoltage and overcurrent of each cylindrical battery cell 1 . .

The circuit board unit 10 is formed on both sides of a plurality of cylindrical battery cells 1 that are arranged with a certain pattern, and is electrically connected to each cylindrical battery cell 1 to connect the plurality of cylindrical battery cells 1 in series. Or connect in parallel. At this time, a circuit for measuring the state of overcurrent and overvoltage of each cylindrical battery cell 1 is formed and transmitted to an external device.

To this end, the circuit board unit 10 provided in the battery of the present invention includes a circuit board 100 having a circuit part 101 embedded therein, and a cylindrical battery cell 1 formed on one side of the circuit board 100 and It includes a cell terminal 200 electrically connected to each other, and a conductive hole 300 penetrating through the circuit unit 101 and the cell terminal 200 and having a conductive layer 320 formed therein.

The circuit board 100 includes a circuit part 101 for measuring the state of the cylindrical battery cell 1, and insulating layers 102 on both sides of the circuit part 101, and the circuit part 101 and the insulating layer 102 are laminated. A first adhesive layer 103 is formed therebetween to reinforce physical rigidity, protect the circuit unit 101 from the outside, and prevent corrosion of the circuit unit 101 .

In addition, the circuit board 100 has a connection hole 110 through which the cell terminal 200 is exposed corresponding to the position of each cylindrical battery cell 1 , so that the cell terminal 200 and the cylindrical battery cell 1 are connected. This is possible, and the first guide 120 for guiding the arrangement position of the cell terminals 200 is formed to protrude outward, so that the plurality of cell terminals 200 are stably arranged.

Accordingly, the connection hole 110 is formed through the circuit part 101 and the insulating layer 102 at a position where the plurality of cylindrical battery cells 1 are disposed according to the design, and thus the cell terminal is passed through the connection hole 110 . The cell connection part 220 of 200 is exposed.

At this time, the circuit unit 101 extends from each energizing hole 300 so as to measure the state of the voltage of each cylindrical battery cell 1 , and preferably a cylindrical battery measured by an external device in each energizing hole 300 . Each of the connectors for transmitting the state of the cell 1 as an electrical signal is extended to a position where it is installed.

At this time, it is preferable that the connector connection part 130 connected to the circuit part 101 is formed corresponding to the connector installation position. The connector connection part 130 is formed through the circuit board 100 so that the circuit part 101 is exposed from the inside, so that an electrical connection is possible easily only by inserting the terminal element of the connector.

The cell terminal 200 is formed of a circuit connection part 210 electrically connected to the circuit part 101 and a cell connection part 220 that extends from the circuit connection part 210 and is electrically connected to the cylindrical battery cell 1 and is adjacent to each other. The plurality of cylindrical battery cells 1 are electrically connected and at the same time connected to the circuit unit 101 to form a part of a closed circuit for measuring the state of the cylindrical battery cell 1 .

Specifically, the cell connection unit 220 extends to both sides of the circuit connection unit 210 and is respectively connected to two cylindrical battery cells 1 adjacent to each other, and connects the two cylindrical battery cells 1 through the circuit connection unit 210 . At the same time electrically connected to the circuit unit 101, the electrical connection state of the two cylindrical battery cells 1 is measured, and the result is transmitted to an external device.

At this time, since the cell terminal 200 is fixed to one side of the circuit board 100 before being electrically connected to the cylindrical battery cell 1 , a plurality of cylindrical cells is used for the connection process between the cell connection part 220 and the cylindrical battery cell 1 . A connection hole 110 is formed corresponding to each position of the battery cell 1 , and the cell connection part 220 is exposed through the connection hole 110 to enable a process such as soldering.

Accordingly, as shown in FIGS. 7 ( a ) and 7 ( b ), the circuit connection part 210 protrudes from one side of the circuit board 100 in order to provide a more improved fixing force with the circuit board 100 . A reinforcing protrusion 211 that is pressed to the other side of the circuit board 100 by deformation after passing through may be further formed, and the second guide 213 is seated on the first guide 120 formed on the circuit board 100 . ) is formed so that a plurality of cell terminals 200 are stably disposed, and at the same time, the cell connection unit 220 can be disposed in response to the location of the connection hole 110 , thereby improving workability.

At this time, an adhesive layer 212 is further formed on one side of the circuit connection part 210 , that is, on the surface opposite to the circuit board, to increase the fixing force improvement effect and at the same time to prevent the cell terminal 200 from moving in the energization hole 300 forming process. By preventing the formation of the conductive layer 320 more stably, ultimately, product reliability is improved.

At this time, it is preferable that the second guide 213 has the same shape as the first guide 120 , and is formed to be complementary to each other by protruding or concave in the same direction.

In addition, a bending part 221 is formed on one side of the cell connection part 220 to prevent the cell connection part 220 from protruding to the outside of the connection hole 110 and to be stably connected to the cylindrical battery cell 1 at the same time.

Therefore, the bending part 221 is continuously curved at one side of each cell connection part 220 so that the cell connection part 220 is flat, and when connected (fixed) to the circuit board 100 , the circuit board rather than the circuit connection part 210 . (100) to be spaced away from one side.

At this time, when the arrangement position of the cylindrical battery cell 1 is considered for battery miniaturization, the two cylindrical battery cells 1 connected by one cell terminal 200 form a diagonal line to any one cylindrical battery cell 1 . and it is preferably formed of any one of the cylindrical battery cells 1 disposed diagonally adjacent thereto. However, this is an example, and the positions of the adjacent cylindrical battery cells 1 that are electrically connected may be changed according to the design.

In other words, in the cell terminal 200 , the circuit connection part 210 is disposed between different connection holes 110 to be electrically connected to the circuit part 101 through the energization hole 300 , and the cell connection part 220 is a circuit connection part It is formed on both sides of the 210 and is exposed to the outside through different connection holes 110 adjacent to the position where the circuit connection part 210 is connected.

Accordingly, the battery having the circuit board unit 10 of the present invention forms the circuit board unit 10 on both sides of the plurality of cylindrical battery cells 1 arranged in a predetermined pattern, and the cell connection unit 220 and the cylindrical battery A plurality of cylindrical battery cells 1 are electrically connected through the electrical connection of the cells 1 to provide a high voltage and at the same time connected to the circuit unit 101 to significantly reduce the work man-hours, thereby improving workability and product productivity. to provide.

The conductive hole 300 is formed of a hole 310 passing through the circuit board 100 and the circuit connection part 210 and a conductive layer 320 stacked on the inside of the hole 310 to form the circuit part 101 and the cell terminal. (200) is electrically connected. Specifically, in the hole 310 , the insulating layer 102 is laminated on only one side of the circuit unit 101 , and the cell terminal 200 is connected (fixed) to one side of the insulating layer 102 to the circuit connection unit 210 . , is formed through the insulating layer 102 and the circuit unit 101 at the same time, and a conducting layer 320 for electrically connecting the circuit unit 101 and the circuit connection unit 210 to the inside is formed.

At this time, a plurality of holes 310 passing through the circuit connection portion 210 of one cell terminal 200 are formed, and the conducting layer 320 includes an inner conducting layer 321 stacked on the inner surface of the hole 310 and , it is preferably formed of an external conducting layer 322 stacked on the outside of the circuit unit 101 and the circuit connection unit 210 to secure the stability of the electrical connection between the circuit unit 101 and the cell terminal 200 .

In other words, the conducting hole 300 forms a conducting hole 300 having the same electrical conductivity in the hole 310 passing through the circuit unit 101 and the cell terminal 200 at the same time to form the cell terminal 200 and the cylindrical battery cell ( At the same time as the electrical connection of 1), the circuit unit 101 and the cylindrical battery cell 1 are electrically connected, thereby significantly reducing the man-hours.

At this time, the energization hole 300 is formed to penetrate only the insulating layer 102 stacked on one side of the circuit unit 101, and the electrical connection with external components is blocked by the insulating layer 102 stacked on the other side, and energization An insulating layer 102 is additionally stacked outside the circuit connection part 210 in which the hole 300 is formed to provide a more stable electrical connection.

Therefore, in the battery having the circuit board unit 10 of the present invention, two cylindrical battery cells 1 adjacent to one side of the circuit board 100 and the cell terminals 200 electrically connected to each other are integrally formed to work. It significantly reduces man-hours to improve workability, and at the same time reduces production time and significantly improves product productivity.

In addition, a plurality of holes 310 passing through one cell terminal 200 are formed, and an external conducting layer 322 connected to the inner conducting layer 321 is formed to secure the stability of electrical connection, and the circuit board ( 100) and the process of electrically connecting the cylindrical battery cell 1 can be excluded, thereby simplifying the production process and minimizing damage that may occur in the production process, thereby remarkably improving the reliability of the product.

Hereinafter, a method of manufacturing the circuit board unit 10 provided in the battery will be described in detail, and the above-described parts will be omitted to avoid duplication of description.

8 is a flowchart illustrating a method of manufacturing a circuit board unit according to an embodiment of the present invention, and FIG. 9 is a view illustrating the manufacturing method of FIG. 8 .

8 and 9 , the manufacturing method of the circuit board unit 10 for electrically connecting the plurality of cylindrical battery cells 1 and sensing the voltage of each battery cell according to an embodiment of the present invention is plural A first forming step (S20) of forming a connection hole 110 in a first plate forming the internal circuit part 101 of the circuit board 100 corresponding to the position of the cylindrical battery cell 1 of A disposing step (S30) of disposing the cell terminals 200 connecting the cylindrical battery cells 1 to be exposed through the different connection holes 110, the cell terminals (S30) between the different connection holes 110 200) and a second forming step (S40) of forming a conducting hole 300 penetrating through the circuit unit 101, and electrically connecting the cell terminal 200 and the circuit unit 101 to the inside of the conducting hole 300. It is characterized in that the circuit board 100 and the cell terminal 200 are integrally formed, including a third forming step (S50) of forming the conducting layer 320 connected to the ?

The preparation step (S10) is a step of forming the first plate by laminating the insulating layer 102 only on one side of the conductor plate forming the circuit part 101, and connecting the cell terminal 200 to one side of the first plate ( fixed), and it is a pre-step for the second forming step (S40) penetrating it.

The first forming step (S20) is a step of forming a connection hole 110 penetrating the first plate corresponding to the positions of the plurality of cylindrical battery cells 1, and a plurality of the plurality of cylindrical battery cells 1 through a punching process at one side of the first plate. A plurality of connection holes 110 in which the cylindrical battery cells 1 are respectively disposed are formed.

In this case, in the first forming step (S20), a first guide 120 for guiding the location of the soft wire of the cell terminal 200 is formed together between two adjacent connection holes 110 in which one cell terminal 200 is disposed. In this case, the first guide 120 is formed by being concave from one side of the first plate by pressing without penetrating the first plate, unlike the connection hole 110 .

In the disposing step (S30), the cell terminals 200 for electrically connecting the different cylindrical battery cells 1 are arranged in a pre-designed position of the insulating layer 102 stacked on one side of the first plate, and it is fixed. is a step

Specifically, the cell terminal 200 is arranged such that the cell connection part 220 is formed in the two connection holes 110 formed at the positions of the two adjacent cylindrical battery cells 1 that are electrically connected, and at this time, for accurate placement, It is preferable that the second guide 213 complementary to the first guide 120 is formed in the circuit connection part 210 .

Therefore, when any one of the first and second guides 120.213 is protruded, the other is concave, and when any one is concave, the other is protruded and has the same shape, but has the same shape as a polygon. It is preferable to have directionality.

An example of the first and second guides 120 and 213 has a rectangular shape, the first guide 120 is concave with respect to the opposite surfaces, the second guide 213 is protruded, and the first guide is concave. Adhesive is received in advance in 120 to improve the fixing force between the first plate and the cell terminal (200).

In other words, in the disposing step (S30), the plurality of cell terminals 200 to cross the two connection holes 110 in which two cylindrical battery cells 1 electrically connected to each other among the plurality of connection holes 110 are disposed. A plurality of cell terminals 200 are connected (fixed) to one side of the first plate in a step of arranging and fixing to be integrally formed.

The second forming step ( S40 ) is a step of forming the hole 310 through the first plate and the cell terminal 200 , so that the circuit part 101 and the circuit connection part 210 are exposed inside the hole 310 . do. This is a pre-step for electrically connecting the circuit unit 101 and the cell terminal 200 through the inside of the hole 310. For stability of the electrical connection, the hole 310 passing through one cell terminal 200 is It is preferable to be formed in plurality.

The third molding step ( S50 ) is a step of forming the conductive layer 320 inside the hole 310 , the conductive layer 320 is formed of a material having electrical conductivity, and is laminated on the inner surface of the hole 310 . to electrically connect the circuit unit 101 and the cell terminal 200 .

In this case, the conducting layer 320 includes internal conducting layers 321 and 320 formed inside the plurality of holes 310 and extending from each of the inner conducting layers 321 and 320 , the circuit part 101 and the circuit connection part. It is preferable that the external conductive layers 322 and 320 formed on the outside of the 210 are formed by a copper plating step.

In other words, the third forming step ( S50 ) is a step of electrically connecting the integrally formed first plate and the cell terminal 200 . Accordingly, the cell terminal 200 and the adjacent cylindrical battery cell 1 are electrically connected to each other. The two adjacent cylindrical battery cells 1 are electrically connected to each other and at the same time connected to the circuit unit 101, thereby remarkably reducing the man-hours in battery production.

In addition, after the third forming step (S50), the attaching step (S60) is further performed. The attaching step is a step of attaching the insulating layer 102 to the other side of the first plate and to the outside of the circuit connection part 210, preventing the circuit part 101 from entering moisture, etc. to prevent corrosion of the circuit part 101, and from the outside. It protects and prevents impurities from flowing into the conduction hole 300 to improve electrical connection stability.

At this time, a conductive hole 300 is formed in each of the insulating layers 102 stacked on the other side of the first plate and on the outside of the circuit connection part 210, so that the cell connection part 220 and the cylindrical battery cell 1 come into contact with each other. At the same time, the cell connection part 220 is exposed through the connection hole 110 to enable a process such as soldering to electrically connect the cylindrical battery cell 1 and the cell connection part 220 .

Therefore, in the manufacturing method of the circuit board unit 10 of the present invention, a plurality of cell terminals 200 are integrally formed on one side of the circuit board 100 , and a conductive hole 300 is formed to form the circuit unit 101 and the cell. Since the terminal 200 is electrically connected, the man-hours for manufacturing the battery are significantly reduced, thereby remarkably improving productivity.

In addition, by excluding the process of connecting the cylindrical battery cell 1 and the circuit part 101, electrical connection stability is secured, and defects and damage that may occur in the connection process are fundamentally blocked, thereby significantly improving the reliability of the battery.

In the above, preferred embodiments of the present invention have been exemplarily described, but the scope of the present invention is not limited to such specific embodiments, and it is within the protection scope of the present invention that can be appropriately changed within the scope described in the claims. corresponds to

1 Cylindrical battery cell
10 circuit board unit
100 circuit board 101 circuit part
102 insulating layer 103 first adhesive layer
110 Connection hole 120 First guide
130 connector connection
200 cell terminal
210 Circuit connection part 211 Reinforcement protrusion
212 Second Adhesive Layer 213 Second Guide
220 Cell connection part 221 Bending part
300 energized hole 310 hole
320 Conductive layer 321 Inner conductive layer
322 External Conductive Layer

Claims (10)

A battery in which a plurality of cylindrical battery cells are electrically connected to supply power,
A circuit board unit configured to electrically connect a plurality of the cylindrical battery cells while simultaneously sensing the voltage of each of the cylindrical battery cells.
The circuit board unit
a circuit board having a circuit part embedded therein for measuring the voltage of each of the cylindrical battery cells;
a cell terminal formed on one side of the circuit board and electrically connected to the cylindrical battery cell; and
A battery provided with a circuit board unit, characterized in that the cylindrical battery cell and the circuit unit are electrically connected to each other;
According to claim 1,
The circuit board is
A plurality of connection holes are formed corresponding to the positions of the plurality of cylindrical battery cells,
The cell terminal is
A battery provided with a circuit board unit, characterized in that it extends in one direction to be disposed in the different connection holes to electrically connect the different cylindrical battery cells.
3. The method of claim 2,
The power hole is
A battery provided with a circuit board unit, characterized in that the different cylindrical battery cells are formed between the different connection holes in which the one cell terminal is disposed and are electrically connected to each other and the circuit unit.
4. The method of claim 3,
The power hole is
A battery provided with a circuit board unit, characterized in that the cell terminal and a plurality of holes penetrating the circuit unit are formed.
According to claim 1,
The conducting layer is
A battery provided with a circuit board unit, characterized in that it is formed of an inner conducting layer formed inside the conducting hole, and an outer conducting layer connected to the inner conducting layer and formed on the other side of the circuit unit and outside the cell terminal. .
In the manufacturing method of a circuit board unit which electrically connects a plurality of cylindrical battery cells and senses the voltage of each battery cell at the same time,
a first forming step of forming a connection hole in a first plate that forms an internal circuit portion of the circuit board corresponding to the positions of the plurality of cylindrical battery cells;
disposing the cell terminals connecting the different cylindrical battery cells to be exposed through the different connection holes;
a second forming step of forming a conductive hole passing through the cell terminal and the circuit part between the different connection holes; and
A third forming step of forming a conducting layer electrically connecting the cell terminal and the circuit unit to the inside of the conducting hole, wherein the circuit board and the cell terminal are integrally formed.
7. The method of claim 6,
A preparation step of preparing the first plate by laminating an insulating layer on only one side of the conductor plate forming the circuit part before the first forming step;
The arrangement step is
A second adhesive layer is formed between the insulating layer and the cell terminal, and the cell terminal is fixed so as to be exposed to the other side of the first plate through two adjacent connection holes.
8. The method of claim 7,
The second forming step is
A manufacturing method, characterized in that the plurality of energizing holes are formed between the two different connecting holes exposed of one of the battery cells.
8. The method of claim 7,
The third forming step is
and a copper plating step of forming an inner conducting layer formed inside the conducting hole and an outer conducting layer formed on the other side of the first plate and outside the cell terminal.
8. The method of claim 7,
After the third forming step, an attachment step of attaching an insulating layer to the other side of the first plate and to the outside of the cell terminal; manufacturing method further comprising a.

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