KR20150092703A - Method for electrically connecting rechargeable battery cells to a circuit board by welding - Google Patents

Abstract

A method for electrically connecting a rechargeable battery cell to a circuit board by welding comprises: a step of providing the circuit board; a step of manufacturing a conductive member and the rechargeable battery cell; a step of defining an opening and a working area of the conductive member; and a welding step. The circuit board improves welding accuracy and makes welding work easier since a plurality of openings capable of defining the working area (welding position) on the conductive member is included.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a method for electrically connecting a rechargeable battery cell to a circuit board by welding,

The present invention relates to an electrical connection method for a battery pack, and more particularly to a method for electrically connecting a rechargeable battery cell to a circuit board by welding.

Since the battery pack includes a plurality of cylindrical or rectangular battery cells, which are generally connected in series or in parallel, and the nickel connector is electrically fixed to the positive and negative terminals by dot welding or screwing, And is electrically connected. When a circuit protection component (commonly known as a fuse) needs to be provided on each battery cell, it is necessary to use a connecting member for electrically connecting the circuit protection component in a suspending manner, As well as reducing the connection stability of the circuit protection component.

In order to improve the connection stability, the circuit protection component is connected to the circuit board through the connecting pin, and then the circuit board is connected to the battery cell. 1 shows a battery pack using a circuit board as an electrical connection of a battery cell in which a plurality of conductive pieces 111 are provided on one surface of the circuit board 11, And the other surface of the circuit board 11 is connected to the battery cell 12 through the conductive piece 111 by a welding device (A). However, since the operation of welding the battery cell 12 to the circuit board 11 is performed on the other surface of the circuit board 11, not on the surface on which the conductive piece 111 is disposed, the position of the battery cell 12 from this side I can not see. Thus, a special tool for identifying the position of the battery cell 12 during the welding operation is required.

2 shows another connection structure between the circuit board 21 and the battery cell 22 in which a plurality of metal pieces 23 are first connected to the conductive terminals at both ends of the battery cell 22, The circuit board 21 provided with the circuit board 211 is electrically connected to the metal piece 23. Each of the fastening portions 211 has an elastic inner arc-shaped inner surface 213 that contacts one of the corresponding metal pieces 23 when the metal piece 23 is inserted into the connection hole 212. [ And the welding apparatus A is then used to effect welding on a relatively small surface of the fastening portion 211 as shown in FIG. The circuit board 21 must remain firm during the welding operation, which makes the welding more difficult. In addition, the conductive terminals of the battery cell and the circuit board 21 are connected by the metal piece 23 and the elastic inner surface 213, and the multilayered connection structure also causes current loss, making the welding more difficult.

4 shows another connection structure between the circuit board 31 and the battery cell 32 in which a plurality of metal pieces 33 are first connected to the conductive terminals at both ends of the battery cell 32, Is inserted into the positioning slot 311 of the circuit board 31. The position of the metal piece 33 can not be determined from the outer surface of the circuit board 31 because the circuit board 31 covers the metal piece 33. [ Thus, this connection structure requires a positioning device 34 provided with a welding-position indicator 341 for indicating the welding position. Once the order of the battery cells 32 is changed once again, a new positioning device and circuit board for determining the position of the metal piece 33 and indicating its position must be used, which not only increases the manufacturing cost, It makes it complicated.

The present invention is for reducing and / or eliminating the aforementioned drawbacks.

A primary object of the present invention is to provide a method for electrically connecting a rechargeable battery cell to a circuit board by welding, which does not have the drawbacks of the conventional battery pack described above.

In order to achieve the above object, a method for electrically connecting a rechargeable battery cell to a circuit board by welding includes the steps of providing a circuit board and manufacturing a conductive member and a rechargeable battery cell, Includes providing a circuit board with a top surface, a bottom surface, and a plurality of openings through the top and bottom surfaces. Each opening has an inner peripheral surface that is connected between the top and bottom surfaces to define an opening. Wherein the step of fabricating the conductive member and the rechargeable battery cell comprises the steps of placing a conductive member corresponding to the amount of opening in the opening and allowing each conductive terminal of the rechargeable battery cell to contact one surface of the corresponding one conductive member And placing the one rechargeable battery cell described above in each of the conductive members. The method is characterized by:

Wherein defining the work area by the opening and the conductive member is performed after the step of manufacturing the conductive member and the rechargeable battery cell and the corresponding one of the conductive members surrounded by the corresponding one of the openings Defining an area on the other surface of said work area as said working area; In addition

The welding step is carried out by inserting the welding device from the upper surface of the circuit board through the opening into the corresponding one working area of the conductive member so as to carry out the welding operation so that the corresponding one of the conductive members and the corresponding one conductive terminal of the rechargeable battery cell To form an electrical connection therebetween.

The opening of the circuit board defines a working area (welding position) on the conductive member to improve the welding accuracy.

1 shows a conventional battery pack using a circuit board as an electrical connection of a battery cell;
2 shows another conventional battery pack using a circuit board as an electrical connection of a battery cell;
Figure 3 is a cross-sectional view of part of Figure 2;
4 shows another conventional battery pack using a circuit board as an electrical connection of a battery cell;
5 is a flowchart of a method for electrically connecting a rechargeable battery cell according to a preferred embodiment of the present invention to a circuit board by welding;
6 is an explanatory view showing a step of manufacturing a rechargeable battery cell and a conductive member of a method for electrically connecting a rechargeable battery cell to a circuit board by welding according to the present invention;
7 is an explanatory view showing a state after manufacturing a conductive member and a rechargeable battery cell of a method for electrically connecting a rechargeable battery cell to a circuit board by welding according to the present invention;
8 is an explanatory view showing a welding step of a method for electrically connecting a rechargeable battery cell to a circuit board by welding according to the present invention;
9 is an explanatory diagram showing a step of manufacturing a rechargeable battery cell and a conductive member of a method for electrically connecting a rechargeable battery cell to a circuit board by welding in accordance with another embodiment of the present invention;
10 is an explanatory view showing a state after manufacturing a conductive member and a rechargeable battery cell of a method for electrically connecting a rechargeable battery cell to a circuit board by welding according to another embodiment of the present invention;
11 is an explanatory view showing a welding step of a method for electrically connecting a rechargeable battery cell to a circuit board by welding in accordance with another embodiment of the present invention;
12 is an explanatory view showing a step of manufacturing a rechargeable battery cell and a conductive member of a method for electrically connecting a rechargeable battery cell to a circuit board by welding according to another embodiment of the present invention;
13 is an explanatory diagram showing a state after manufacturing a conductive member and a rechargeable battery cell of a method for electrically connecting a rechargeable battery cell to a circuit board by welding in accordance with another embodiment of the present invention;
14 is an explanatory view showing a welding step of a method for electrically connecting a rechargeable battery cell to a circuit board by welding in accordance with another embodiment of the present invention;
15 is an explanatory diagram showing a step of manufacturing a rechargeable battery cell and a conductive member of a method for electrically connecting a rechargeable battery cell to a circuit board by welding according to another embodiment of the present invention; And
16 is an explanatory view showing a state after manufacturing a conductive member and a rechargeable battery cell of a method for electrically connecting a rechargeable battery cell to a circuit board by welding according to another embodiment of the present invention;

The present invention will become more apparent from the following description taken in conjunction with the accompanying drawings, which illustrate, by way of example only, preferred embodiments of the invention.

5 to 16, a method for electrically connecting a rechargeable battery cell according to a preferred embodiment of the present invention to a circuit board by welding includes the following steps:

Step I of providing a circuit board includes providing a circuit board 40 with an upper surface 41, a bottom surface 42 and a plurality of openings 43 penetrating the upper and lower surfaces 41, 42. Each opening 43 has an inner peripheral surface 431 that is connected between the top and bottom surfaces 41, 42 to define an opening 43.

The step II of manufacturing the conductive member and the rechargeable battery cell places the conductive member 50 corresponding to the amount of opening 43 in the opening 43 and the conductive member 61 of each of the rechargeable battery cells 60 ) To the respective conductive member (50) such that the battery cell (60) is in contact with a corresponding one of the one surface of the conductive member (50).

Step III, which defines the working area by the opening and the conductive member, includes defining an area on the other surface of each conductive member 50 surrounded by a corresponding one of the openings 43 as the working area.

The welding step IV is carried out by inserting the welding apparatus A from the upper surface of the circuit board through the opening 43 into the corresponding one working area of the conductive member to carry out the welding operation so that the conductive member and the conductive terminals of the rechargeable battery cell Lt; / RTI >

The present invention defines a particular working area by using the circuit board 40 and the conductive member 50 and allows the user to simply place the welding device A in the opening 43 without having to struggle to align or calculate the welding position By inserting the welding apparatus A, the welding apparatus A can be easily inserted into the work area to perform the welding work, thereby improving the welding quality while facilitating the welding.

The shape of the conductive member 50 used in the method for electrically connecting the rechargeable battery cell to the circuit board by welding according to the present invention is not limited and may be a flat structure as shown in Figs. 6 to 8 . Each conductive member 50 is located at a corresponding one of the openings 43 of the circuit board 40 and during the step II of manufacturing the conductive member and the rechargeable battery cell, 50 are recharged with the bottom surface 42 of the circuit board 40 so as to have two surfaces in contact with the bottom surface 42 of the circuit board 40 and the corresponding one of the conductive terminals 61 of the rechargeable battery cell 60, Is located between the corresponding one of the possible battery cells (60). In the welding step IV, the welding apparatus A is easily inserted into the working area defined by the opening 43 and the conductive member 50, so that the conductive member 50 and the rechargeable battery 50, The welding operation can be carried out by simply inserting the cell 60 into the opening 43 so as to form an electrical connection through accurate welding.

9-11, each conductive member 50 also includes a first conductive region 51, a second conductive region 53, and first and second conductive regions 51 and 53, And may have a stepped structure with intermediate regions 52 that are connected and perpendicular to each other. The first and second conductive areas (51, 53) extend in opposite directions. Each of the conductive members 50 includes a first conductive region 51 electrically connected to the top surface 41 of the circuit board 40 and a second conductive region 51 electrically connected to the upper surface 41 of the circuit board 40 during the step II of manufacturing the conductive member and the rechargeable battery cell. An intermediate region 52 adjacent one inner peripheral surface 431 that extends through the opening 43 and a second conductive region 53 extending through the opening 43 and extending beyond the bottom surface 42. Compared with the planar conductive member 50, the step conductive member 50 has the first conductive region 51 adjacent to the upper surface 41 of the circuit board 40, so that the conductive member and the rechargeable battery cell are manufactured During step II the conductive member 50 can be positioned, which facilitates the subsequent welding step IV implementation. In addition, the second conductive area 53 may have a slot 531 to prevent warp or distortion of the second conductive area 53 during the welding step IV. During step III, which defines the working area, the working area is defined on one surface of the second conductive area 53 by a corresponding one of the openings 43 and the other surface of the second conductive area 53 And is electrically connected to one corresponding one of the conductive terminals 61 of the rechargeable battery cell 60, as shown in Fig. In the welding step IV, the welding apparatus A can be easily inserted into the working area defined by the opening 43 and the conductive member 50, so that, as shown in Fig. 11, The welding operation can be carried out by simply inserting the opening 43 into the opening 43 to form an electrical connection between the battery 50 and the rechargeable battery cell 60.

Each of the conductive members 50 includes a cavity 54 and a conductive annular flange 55 formed around the cavity 54, as shown in Figs. 12-14. The cavity 54 includes a hole 541 and a conductive bottom 542. The conductive annular flange 55 is located around the hole 541 and is connected to the hole 541. Each opening 43 of the circuit board 40 is formed in the form of a cavity 54. The conductive annular flange 55 of the conductive member 50 is electrically connected to the upper surface 41 of the circuit board 40 to form the upper surface 41 of the circuit board 40 41 and the outer surface of the cavity 54 has a corresponding inner peripheral surface 431 of the opening 43 so that each cavity 54 is aligned with a corresponding one of the openings 43. [ Respectively. During step III, which defines the working area, the working area is defined on one surface of the conductive bottom 542 of the cavity 54 by a corresponding opening 43 and the other surface of the conductive bottom 542, And is electrically connected to the corresponding one of the conductive terminals 61 of the rechargeable battery cell 60 as shown in Fig. In the welding step IV, the welding apparatus A can be easily inserted into the working area defined by the opening 43 and the conductive member 50, so that, as shown in FIG. 14, The welding operation can be carried out by simply inserting the opening 43 into the opening 43 to form an electrical connection between the battery 50 and the rechargeable battery cell 60. In this embodiment, the cavity 54 and the opening 43 are rectangular in shape.

15-16, another embodiment of the conductive member 50 is similar to the previous embodiment, except that the cavity 54 and the opening 43 are circular in shape.

The opening 43 of the circuit board 40 defines a working area (welding position) on the conductive member 50 to improve welding accuracy. Each of the conductive members 50 has a first conductive area 51 or conductive annular flange 55 adjacent the top surface 41 of the circuit board 40 and also has an inner peripheral surface 431 , The conductive member 50 can be firmly positioned prior to the welding process and can be used to facilitate subsequent welding operations do. During the welding step IV, the intermediate surface 52 or the outer surface of the cavity 54 may be inserted into the opening 43 to improve the convenience and stability of the welding operation. Each conductive member 50 includes a first conductive region 51 and an intermediate region 52 adjacent to a corresponding one of the inner peripheral surfaces 431 of the upper surface 41 and the opening 43 of the circuit board 40. [ The conductive member 50 is defined at the opening 43 to improve the connection stability.

While the present inventors have shown and described various embodiments in accordance with the present invention, those skilled in the art will recognize that other embodiments may be practiced without departing from the scope of the present invention.

Claims (5)

A method for electrically connecting a rechargeable battery cell to a circuit board by welding, the method comprising: providing a circuit board; and fabricating a conductive member and a rechargeable battery cell,
The step of providing the circuit board includes providing a circuit board with a top surface, a bottom surface, and a plurality of openings through the top and bottom surfaces, each opening being connected between the top and bottom surfaces to define respective openings Has an inner peripheral surface,
Wherein the step of fabricating the conductive member and the rechargeable battery cell includes positioning the conductive member corresponding to the amount of opening in the opening and causing each conductive terminal of the rechargeable battery cell to contact one surface of the corresponding one conductive member The method comprising: positioning a rechargeable battery cell in each of the conductive members in a manner such that,
The step of defining the working area by the opening and the electroconductive member is carried out after the step of manufacturing the electroconductive member and the rechargeable battery cell and the step of forming the area on the corresponding one of the other side of the electroconductive member surrounded by the corresponding one of the openings And defining the work area as the work area,
The welding step is carried out by inserting the welding device from the upper surface of the circuit board through the opening into the corresponding one working area of the conductive member so as to carry out the welding operation so that the corresponding one of the conductive members and the corresponding one conductive terminal of the rechargeable battery cell To form an electrical connection therebetween. ≪ RTI ID = 0.0 >
A method for electrically connecting a rechargeable battery cell to a circuit board by welding. 2. The method of claim 1, wherein each conductive member is a flat structure, and during the step of manufacturing the conductive member and the rechargeable battery cell, each conductive member is located at a corresponding one of the openings of the circuit board, And a corresponding one of the rechargeable battery cells so as to have two surfaces contacting the corresponding one of the conductive terminals of the rechargeable battery cell, and during the welding step, the welding device is inserted into the working area Wherein the welding operation can be performed by inserting the battery cell into a corresponding one of the openings by welding to the circuit board by welding. The method of claim 1, wherein each conductive member is a stepped structure having a first conductive region, a second conductive region, and a middle region connected between and perpendicular to the first and second conductive regions, 1 and the second conductive region extend in opposite directions, and during the step of manufacturing the conductive member and the rechargeable battery cell, each conductive member has a first conductive region electrically connected to the upper surface of the circuit board, And a second conductive area inserted through the opening and extending out of the bottom surface, wherein during the step of defining the working area, the working area is defined by a first conductive area of the second conductive area The other surface of the second conductive area defined on one surface is electrically connected to the corresponding one of the conductive terminals of the rechargeable battery cell, For welding the rechargeable battery cell to the circuit board by welding, wherein the rechargeable battery cell is capable of performing a welding operation by being inserted into a corresponding one of the openings by inserting into the working area during the welding step Way. 4. The method of claim 3, wherein the second electrically conductive zone comprises a slot, wherein the welding operation is performed in a second electrically conductive zone. 2. The device of claim 1, wherein each conductive member comprises a cavity and a conductive annular flange formed around the cavity, the cavity comprising a hole and a conductive bottom, the conductive annular flange being located about the hole, Wherein the conductive annular flange of the conductive member is electrically connected to the upper surface of the circuit board and is electrically connected to the upper surface of the circuit board during the step of manufacturing the conductive member and the rechargeable battery cell, And the outer surface of the cavity is adjacent to a corresponding one inner peripheral surface of the opening so that each cavity is aligned with a corresponding one of the openings and during the step of defining the working area, Is defined on one surface of the conductive bottom of the cavity by the conductive bottom Wherein the other surface is electrically connected to a corresponding one of the conductive terminals of the rechargeable battery cell and wherein during the welding step the welding device is inserted into a corresponding one of the openings, A method for electrically connecting a rechargeable battery cell to a circuit board by welding.

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