JPH1074498A - Pack battery - Google Patents

Abstract

PROBLEM TO BE SOLVED: To prevent dislocation of an electrode terminal fixed to a printed circuit board even when pressed by terminals of instruments while holding the printed circuit board and a battery at a fixed location in a simple structure and to provide a space for electronic parts to install electronic components of the printed circuit board by using the structure to hold the printed circuit board at a fixed location. SOLUTION: A pack battery incorporates a battery 4, a printed circuit board 2 and a spacer 3 in a case 1. The spacer 3 installed between the battery 4 and the printed circuit board 2 has a recessed part 11 to fit the battery 4 at the surface facing to the battery 4 and has a positioning projection 9 making the printed circuit board 2 installed to a fixed location and a supporting projection 14 supporting an electrode terminal 7 of the printed circuit board 2 at the surface facing to the printed circuit board 2. The positioning projection 9 has a space for electronic parts 13 between the spacer 3 and the printed circuit board 2.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a battery pack containing a printed circuit board.

[0002]

2. Description of the Related Art A battery pack containing a lithium ion secondary battery has a built-in printed circuit board on which an electronic circuit for protecting the battery is mounted. This is to prevent the battery from being overcharged or overdischarged and to use the battery in a more ideal state. Not only the lithium ion secondary battery, but also a battery pack containing a nickel-cadmium battery, a nickel-hydrogen battery, or the like can protect the battery by incorporating a protection circuit or the like.

[0003] Further, in a battery pack, it is necessary to expose electrode terminals for connection to electric equipment outside the case. The electrode terminals need to be arranged at the correct positions on the case. If the position shifts, when attached to electrical equipment,
This is because it causes poor contact. The electrode terminals are fixed to a terminal holder or a printed circuit board incorporated in the case. The battery pack that fixes the electrode terminals to the terminal holder
Although electrode terminals can be arranged in fixed positions with terminal holders, special parts are required to support the electrode terminals. For this reason, there is a disadvantage that the number of parts used increases. It is difficult for a battery pack that fixes electrode terminals to a printed circuit board to accurately dispose the printed circuit board in a fixed position.

[0004]

In order to dispose the printed circuit board in a fixed position in the case, the printed circuit board is connected to a battery via a lead wire, or the case is formed into a special shape and printed. Devices that hold the substrate in place have been developed. The structure to fix the printed circuit board to the battery
If the battery moves in the case, the printed circuit board cannot be arranged in a fixed position. Further, the structure for molding the case into a special shape has a drawback that the structure of the mold for molding the case and the die cutting are complicated, and the cost of the case is increased.

Further, when the battery pack is mounted on an electric device, the electrode terminals are pressed against the terminals of the device. This is for electrically connecting the terminals of the electric device to the electrode terminals of the battery pack. If the position of the electrode terminal of the battery pack shifts when pressed by the terminal of the electric device, it causes a contact failure. For this reason, it is also very important that the electrode terminals arranged at fixed positions do not shift even when pressed by the terminals of the electric device. In particular, a battery pack containing a rechargeable battery may be frequently attached to and detached from an electric device for charging. When detaching, the electrode terminal slides on the terminal of the electrical equipment, and a force that is elastically pressed acts, so even in this state, make sure that the electrode terminal does not displace It is extremely important to arrange them in place.

A battery pack for fixing electrode terminals to a printed circuit board has a fixed position so that the printed circuit board is not exactly displaced even if the electrode terminals are pressed by the terminals of the equipment, in addition to the arrangement of the printed circuit board accurately at a fixed position. It is important to arrange them. In order to dispose the electrode terminals in a fixed position without displacement, it is necessary to use a strong printed circuit board. Further, it is necessary to reduce the size of the printed circuit board to reduce deformation.

According to the present invention, a printed circuit board is held in a fixed position with a simple structure, electrode terminals fixed to the printed circuit board are arranged so as not to move to an accurate position, and furthermore, the printed circuit board is fixed in a fixed position. With the aim of providing a battery pack in which electronic parts gaps for disposing electronic parts of a printed circuit board are provided by utilizing a structure for holding, and furthermore, both the battery and the printed circuit board can be arranged at accurate positions. It was developed.

[0008]

The battery pack of the present invention comprises:
A battery 4 and a printed circuit board 2 are built in a case 1.
A plastic spacer 3 is provided between the battery 4 and the printed circuit board 2. The spacer 3 has a concave portion 11 in which the battery 4 is fitted on a surface facing the battery 4.
A positioning protrusion 9 for disposing the printed circuit board 2 at a fixed position is integrally formed on the surface facing the printed circuit board 2. The printed board 2 is connected to the spacer 3 via the positioning protrusion 9, and an electronic part gap 13 is provided between the spacer 3 and the printed board 2. The electronic component 16 mounted on the printed board 2 is disposed in the electronic component gap 13. Further, the printed circuit board 2 is provided with an electrode terminal 7 exposed to the outside through an electrode window 8 of the case 1. A supporting projection 14 for supporting the printed circuit board 2 is formed integrally with the spacer 3 on the back surface of the electrode terminal 7.

Further, in the battery pack of the present invention, the printed circuit board 2 and the battery 4 are connected by a lead member, and the printed circuit board 2 and the battery 4 are sandwiched between the printed circuit board 2 and the battery 4, and the spacer 3 is disposed at a fixed position. ing.

[0010]

Embodiments of the present invention will be described below with reference to the drawings. However, the following examples illustrate the battery pack for embodying the technical idea of the present invention, and the present invention does not specify the battery pack as follows.

Further, in this specification, in order to make it easy to understand the claims, the numbers corresponding to the members shown in the embodiments will be referred to as “claims” and “ In the column of “means”.
However, the members described in the claims are not limited to the members of the embodiments.

The battery pack shown in the exploded perspective view of FIG. 1 and the sectional view of FIG. 2 has a case 1 in which two secondary batteries 4, a printed circuit board 2, and a spacer 3 are incorporated. Case 1
The upper case 1A and the lower case 1B are made of plastic and are connected to form a closed box. In the figure, the upper case 1A is formed in a box shape opening downward, and the lower case 1B is formed in a box shape opening upward. The upper case 1A and the lower case 1B are connected in a closed box shape by connecting the peripheral walls.

The battery 4 is housed in the case 1 with two batteries arranged in parallel. The two batteries 4 have an insulator 5 sandwiched between them. The insulator 5 has concave portions on both sides into which the cylindrical battery 4 can be fitted. Battery 4 is a lithium ion secondary battery. However, as the battery 4, a secondary battery such as a nickel-cadmium battery or a nickel-hydrogen battery can be used instead of the lithium ion secondary battery.

The printed circuit board 2 is connected to the battery 4 via a lead member such as a lead plate 6.
A spacer 3 is sandwiched between the battery and the battery 4. The printed circuit board 2 is provided with an electronic component 16 such as a protection circuit for protecting the battery 4 from overcharging or overdischarging, or a protection circuit for forcibly preventing charging or discharging when the temperature of the battery 4 becomes abnormally high. I have. The printed board 2 has a width substantially equal to the thickness of the battery 4 and a length substantially equal to the length of the battery 4.

The printed circuit board 2 has four electrode terminals 7 arranged on the surface. The electronic component 16 constituting the protection circuit and the like is provided on the back surface facing the spacer 3. The electrode terminal 7 is fixed to the printed circuit board 2 so as to be located at the electrode window 8 provided in the case 1. When the printed circuit board 2 is fixed at a fixed position on the case 1, the electrode terminals 7 are exposed outside the case 1 through the electrode windows 8.

The printed circuit board 2 shown in FIG. 1 is provided with a notch 10 into which the tip of a positioning protrusion 9 provided on the spacer 3 is fitted so that the spacer 3 can be connected to a fixed position. The notches 10 are provided on both sides of the printed circuit board 2. In the figure, the upper edge of the printed circuit board 2 is at both ends,
The lower edge is provided at the center and right end.

The spacer 3 is made of plastic, and is formed in substantially the same shape as the outer shape of the printed circuit board 2. The spacer 3 is used to hold the battery 4 in place.
A concave portion 11 into which the battery 4 is to be fitted is formed on the surface opposite to the above. The recess 11 is formed in a shape that is in close contact with the surface of the cylindrical battery. Further, the spacer 3 is a printed circuit board 2
A positioning protrusion 9 for arranging the printed circuit board 2 at a fixed position is integrally formed on the surface facing the substrate. In the illustrated spacer 3, four positioning projections 9 are integrally formed on the upper edge and three positioning projections 9 are formed on the lower edge.

The positioning protrusion 9 is formed by a support rod 9A which comes into contact with the back surface of the printed circuit board 2 and a notch 10 of the printed circuit board 2.
And a fitting protrusion 9B having a convex portion 12 fitted into the fitting. The fitting protrusion 9 </ b> B protrudes the protrusion 12 from the surface supporting the back surface of the printed circuit board 2. Spacer 3 shown
Has a protrusion 9B fitted at both ends of the upper edge, and two support rods 9A in the middle of the protrusion 9B. Further, a fitting protrusion 9B is formed integrally with the lower edge of the spacer 3 at the center and the right end, and a support rod 9A is formed in the middle thereof. Support rod 9A
The height of the portion where the fitting protrusion 9B supports the printed board 2 is designed to be the height at which the electronic part gap 13 is provided between the printed board 2 and the spacer 3.

Further, the spacer 3 shown in the figure is formed on the back surface of the electrode terminal 7 of the printed board 2 to be mounted, and integrally formed with a supporting projection 14 for supporting the printed board 2.
The support protrusion 14 has its tip end surface in contact with the back surface of the electrode terminal 7 portion of the printed circuit board 2 to prevent the electrode terminal 7 from being displaced. For this reason, the height of the support protrusion 14 is designed to be equal to the height at which the support rod 9A and the fitting protrusion 9B support the printed circuit board 2. The support projection 14 is formed in a rib shape extending in the longitudinal direction of the electrode terminal 7 so as to reliably support the plurality of electrode terminals 7, and furthermore, the reinforcing rib 14A is integrally formed in a direction perpendicular to the rib. Molding.

The battery pack shown in FIG. 1 is assembled in the following steps. Electronic components 1 constituting a protection circuit on printed circuit board 2
6 is attached. The spacer 3 is sandwiched between the printed board 2 and the battery 4, and the printed board 2 is connected to the battery 4 by the lead plate 6. In this state, the printed circuit board 2, the spacer 3, and the battery 4 are integrally connected. In the battery pack shown in the figure, the right end of the printed circuit board 2 is connected to the battery 4 by a lead plate 6, and the left end is connected to the battery 4 by a polyswitch 15. The battery 4, the spacer 3, and the printed circuit board 2 are put into fixed positions of the lower case 1B, and the lower case 1B and the upper case 1A are placed.
And concatenate. In this state, the electrode terminal 7 is exposed to the outside through the electrode window 8 of the case 1.

[0021]

According to the present invention, the battery pack is a spacer which is sandwiched between the battery and the printed circuit board. An electronic part gap is provided between the printed circuit board and the spacer to hold the printed circuit board and the battery in place. In addition, there is a feature that the electrode terminal fixed to the printed circuit board can be supported so as not to be displaced even when pressed by the terminal of the electric device. That is, the battery pack of the present invention is provided with a recess for inserting the battery on the surface of the spacer facing the battery, and integrated with a positioning protrusion for disposing the printed circuit board in a fixed position on the surface facing the printed circuit board. Molding, connecting the printed board to the spacer via this positioning protrusion, between the spacer and the printed board,
There is a space for electronic parts, and this spacer has
This is because the supporting projections for supporting the printed board are integrally formed at the back of the electrode terminals of the printed board.

Further, in the battery pack of the present invention, the battery can be connected to the recess of the spacer and the printed circuit board can be connected to the positioning protrusion, so that both the battery and the printed circuit board can be connected so as not to be relatively displaced. . The battery, the printed circuit board, and the spacer, which are connected so as not to be displaced from each other, are arranged at fixed positions housed in the case. With this structure, the battery pack of the present invention, in which the battery, the printed circuit board, and the spacer are housed in fixed positions, does not require the case to be formed into a specially complicated structure, and uses a case that can be easily and inexpensively mass-produced. Also, the feature that the built-in parts can be stored in the correct position is realized.

[Brief description of the drawings]

FIG. 1 is an exploded perspective view showing a battery pack according to an embodiment of the present invention.

FIG. 2 is a longitudinal sectional view of the battery pack shown in FIG. 1;

[Explanation of symbols]

1: Case 1A: Upper case 1B:
Lower case 2 Printed circuit board 3 Spacer 4 Battery 5 Insulator 6 Lead plate 7 Electrode terminal 8 Electrode window 9 Positioning protrusion 9A Support rod 9B
Fitting protrusion 10 ... Notch 11 ... Concave part 12 ... Convex part 13 ... Electronic part gap 14 ... Support convex part 14A ... Reinforcement rib 15 ... Poly switch 16 ... Electronic part

Claims (2)

[Claims] A case (1) includes a battery (4) and a printed circuit board.
In the battery pack containing (2), a plastic spacer (3) is disposed between the battery (4) and the printed circuit board (2), and the spacer (3) is
A concave portion (11) for fitting the battery (4) is formed on the surface facing the battery (4), and the printed circuit board (2) is disposed in a fixed position on the surface facing the printed circuit board (2). The positioning protrusion (9) is integrally formed, and the printed board (2) is connected to the spacer (3) via the positioning protrusion (9), and the spacer (3) and the printed board (2) are In between, an electronic part gap (13) is provided, and an electronic component (16) mounted on the printed board (2) is arranged in the electronic part gap (13). In (2), the electrode window (8) of the case (1)
There is an electrode terminal (7) exposed to the outside from
A battery pack characterized in that a supporting projection (14) for supporting a printed circuit board (2) is formed integrally with a spacer (3), located on the back surface of the electrode terminal (7). 2. The printed circuit board (2) and the battery (4) are connected via a lead member, and the printed circuit board (2) and the battery (4) are connected.
The battery pack according to claim 1, wherein the spacer (3) is disposed at a fixed position between the battery packs.