JP3530401B2 - Battery pack - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a battery pack in which a printed board is mounted in a fixed position via a board holder.

[0002]

2. Description of the Related Art A printed circuit board incorporated in a battery pack is equipped with electronic parts for realizing a battery protection circuit and the like. The printed circuit board that realizes the protection circuit is equipped with, for example, a temperature sensor that detects the temperature of the battery and prevents the battery from being abnormally heated. The temperature sensor needs to be arranged at a fixed position of the battery, for example, in a valley between two batteries in order to accurately detect the battery temperature. The temperature sensor fixed to the printed circuit board is arranged at a predetermined position by disposing the printed circuit board at an accurate position. When the printed circuit board is displaced, the temperature sensor is also displaced, and the battery temperature cannot be accurately detected.

Further, an output terminal may be fixed on the printed circuit board. The output terminals of the printed circuit board must be fixed in place on the battery pack. Therefore, also in the battery pack having this structure, it is necessary to dispose the printed circuit board in a fixed position of the case and the output terminal in a fixed position. If the position of the printed circuit board shifts, the position of the output terminal shifts. When the battery pack with the shifted output terminals is attached to an electric device, contact failure occurs and it becomes impossible to reliably supply electric power.

Further, as the battery pack is required to be downsized, the space for arranging the printed circuit board is limited, and in some cases, the battery pack may be divided and arranged. For mounting a printed circuit board in a fixed position, for example, Japanese Patent Laid-Open No. 10-
The battery pack described in Japanese Patent No. 12201 is, as shown in FIG. 1, on eight cylindrical batteries 2 arranged in two rows,
Two printed circuit boards 3 are arranged. One printed circuit board 3 is fixed via a substrate holder 4, and the other printed circuit board 3 is provided as a flexible substrate in the gap between the battery 2 and the case 1.

[0005]

In the battery pack of this structure, one printed circuit board is mounted in a fixed position by the circuit board holder, and the flexible circuit board is connected to the printed circuit board and fitted to a part of the case. And then put it in place. The battery pack having this structure can be built into the case by dividing the printed circuit board into two. However, the battery pack with this structure is
It is difficult to achieve sufficient strength against drop impacts.
This is because the flexible substrate is easy to move and deform due to impact. In addition, the battery pack having this structure has a drawback that it takes time to mount the flexible substrate in a fixed position when assembling the case. This is because the flexible board is accurately connected to the printed board and is fitted to a part of the case to assemble the case.

The present invention was developed with the object of solving this drawback. An important object of the present invention is to provide a pack battery in which two printed circuit boards are mounted in a fixed position by a single circuit board holder and yet excellent impact strength can be realized. Another important object of the present invention is to provide a battery pack in which two printed circuit boards are arranged in a fixed position and the case can be assembled easily, easily and efficiently.

[0007]

The battery pack of the present invention comprises:
The battery 2 is provided with a printed circuit board 3 on which an electronic circuit connected to the battery 2 is mounted, and a substrate holder 4 for mounting the printed circuit board 3 in a fixed position. Printed circuit board 3
Is divided into two pieces. The two printed circuit boards 3 are arranged in an L shape. The board holder 4 on which the two printed boards 3 are mounted has an L shape along the surface of the battery 2 and has a positioning surface 8 for mounting the battery 2 in a fixed position inside, On the outside, 2 is arranged in an L shape
It has an L-shaped fitting portion 9 for mounting the printed circuit boards 3 in a fixed position.

The battery pack according to claim 2 of the present invention is characterized in that the positioning surface 8 provided inside the substrate holder 4 has the cylindrical battery 2
It is curved and shaped so as to conform to. Electronic components to be mounted on the printed circuit board 3 are arranged in a space formed between the curved positioning surface 8 and the planar printed circuit board 3.

According to the third aspect of the battery pack of the present invention, a plurality of cylindrical batteries 2 are horizontally arranged side by side and fixed. The substrate holder 4 is mounted outside the battery 2 at the end.

According to a fourth aspect of the battery pack of the present invention, the two printed circuit boards 3 are arranged in an L shape with respect to each other.
It is composed of the printed circuit board 3A and the second printed circuit board 3B. The slit 1 in which the end edge of the first printed circuit board 3A is vertically inserted and fitted into the L-shaped fitting portion 9 of the board holder 4.
1 and the second printed circuit board 3B are the first printed circuit board 3
A hooking convex portion 12 for preventing the vertical protrusion of A is provided.

[0011]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of the present invention will be described below with reference to the drawings. However, the examples described below exemplify 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 the claims easy to understand, the numbers corresponding to the members shown in the embodiments are referred to as "claims column" and "to solve the problems." It is added to the members shown in "Means column".
However, the members shown in the claims are not limited to the members of the embodiment.

The battery pack shown in FIG. 2 is provided with a plastic case 1, a battery 2 and a printed circuit board 3 contained in the case 1, and a substrate holder 4 for mounting the printed circuit board 3 in a fixed position. There is. This figure is an exploded perspective view showing a state in which the case 1 is opened and the built-in unit 5 in which the battery 2 and the printed circuit board 3 are integrated is taken out. However, the case 1 shows only the lower case 1.
As the lower case 1, an upper case (not shown) is fixed, and an upper surface opening of the lower case 1 is closed by the upper case to form a battery pack. The lower case 1 and the upper case are fixed by a method such as screwing or welding. The case 1 has an opening of an electrode window 7 for exposing the electrode terminal 6 fixed to the built-in unit 5 to the outside.

A perspective view of the built-in unit 5 is shown in FIG. The built-in unit 5 has a plurality of cylindrical batteries 2 arranged side by side in parallel and connected to the same plane. The built-in unit 5 shown in the figure has nine batteries 2 arranged side by side in a row and connected to each other. Two printed circuit boards 3 are attached to the battery 2 at the right end via a substrate holder 4 in an L shape.

The two printed circuit boards 3 are connected to each other via lead wires so as not to separate from each other. These printed circuit boards 3 are mounted with electronic components that realize a protection circuit for the battery 2, a circuit for detecting the state of the battery 2, and the like. The two printed circuit boards 3 are divided into, for example, a board on which heat-generating components are mounted and a board on which electronic components having a small heat generation amount are mounted.

As shown in FIGS. 4 and 5, the substrate holder 4 is wholly integrally formed of plastic. The substrate holder 4 is formed into an L-shape along the surface of the battery 2 and has a positioning surface 8 for mounting the battery 2 in a fixed position on its inner surface. The substrate holder 4 is
An L-shaped fitting portion 9 for mounting the two printed circuit boards 3 arranged in an L shape at fixed positions is provided outside. L-shaped fitting portion 9
The first printed circuit board 3A and the second printed circuit board 3B, which are connected to each other by a lead wire, are arranged in an L-shape, and are fitted and fixed in place.

The substrate holder 4 has a length substantially equal to the entire length of the battery 2 and a width substantially equal to the thickness of the battery 2 so that the substrate holder 4 can be mounted on the battery 2 arranged at the end. . However, in FIGS. 4 and 5, the second printed circuit board 3
The portion to which B is attached has a width slightly larger than the thickness of the battery 2 and extends until it contacts the adjacent battery 2.

The positioning surface 8 of the substrate holder 4 is formed in a curved shape along the cylindrical battery 2. The positioning surface 8 is not formed in a shape that extends along 360 degrees of the entire circumference of the cylindrical battery. The positioning surface 8 of the substrate holder 4 shown in the figure is curved in a shape extending along about 135 degrees of the cylindrical battery 2. In FIG. 4 and FIG. 5, the positioning surface 8 facing the vertically supported printed circuit board 3 is curved along the surface of the cylindrical battery 2, and the curved positioning surface 8 and the planar printed circuit board. A space for housing electronic components to be mounted on the printed circuit board 3 is provided between the printed circuit board 3 and the electronic component 3. This void is provided in the valley of the cylindrical battery 2. Therefore, there is a feature that electronic parts can be arranged by effectively utilizing the space formed in the valley.

The L-shaped fitting portion 9 is provided with a rib 10 integrally formed around the positioning surface 8. The L-shaped fitting portion 9 may have any structure capable of fitting the two printed circuit boards 3 in an L-shaped posture and fixing them in place. The board holder 4 shown in the figure has a slit 11 into which the L-shaped fitting portion 9 is fitted by vertically inserting the edge of the first printed board 3A, and the second printed board 3B is the first printed board. 3A and the catching convex portion 12 that prevents it from coming off in the vertical direction.

The slits 11 are formed by providing the ribs 10 provided along the edge of the positioning surface 8 with the ridges 13 which are parallel to each other at regular intervals, with a gap between the ridges 13. ing. The width of the slit 11 is substantially equal to the thickness of the printed board 3. The first printed circuit board 3 is provided in the slit 11.
Insert the edge of A to hold the printed circuit board 3 in place. In order to prevent lateral displacement of the printed board 3, side wall ribs 10A are integrally formed on both sides of the positioning surface 8. The side wall rib 10A is formed higher than the position of the printed circuit board 3 so that both sides of the printed circuit board 3 inserted into the slit 11 come into contact with each other. The board holder 4 shown in the figure
The rib 10 provided with and the side wall rib 10A have the same height.

Printed circuit board 3 inserted in slit 11
Can be attached and detached only in the direction parallel to both sides, but does not move in the other directions. Therefore, the printed circuit board 3 mounted here prevents movement in a direction parallel to the surface,
Can be installed so that it does not move.

The second printed circuit board 3B is provided so that the first printed circuit board 3A does not move in a direction parallel to both side surfaces.
It is attached to the L-shaped fitting portion 9. Second printed circuit board 3B
Is mounted at a fixed position by the hooking protrusion 12. Hook protrusion 12
Are provided so as to project inside the ribs 10 integrally formed around the positioning surface 8. In the substrate holder 4 shown in the figure, a part of the rib 10 is made to project higher, and a hooking protrusion 12 is provided inside this part. As shown in FIGS. 4 and 6, the hooking protrusion 12 has a slanting surface on which the printed circuit board 3 is pushed. The hooked protrusions 12 can be pushed in the printed circuit board 3 smoothly and can be mounted in a fixed position.

The catching protrusion 12 is formed on the second printed circuit board 3B.
It is arranged so that both sides and the three sides of the edge are locked.
The hooking protrusion 12 is mounted at a fixed position by locking one side of the printed circuit board 3 with the plurality of hooking protrusions 12. The substrate holder 4 having this structure has a feature that the second printed circuit board 3B can be accurately mounted in a fixed position.

Below the hooked convex portion 12, the printed circuit board 3 is provided.
Is provided with a support portion 14 for supporting the bottom surface of the. Support part 14
Are integrally formed on the positioning surface 8 at regular intervals. The printed circuit board 3 is sandwiched between the supporting portion 14 and the hooking convex portion 12 and is mounted at a fixed position.

The board holder 4 shown in the figure prevents the first printed board 3A from coming off from the second printed board 3B. To achieve this, the substrate holder 4 of FIG.
Makes the end surface of the first printed circuit board 3A abut on the inner side surface of the second printed circuit board 3B. In the structure in which the two printed circuit boards 3 are mounted on the substrate holder 4 in this state, the first printed circuit board 3A is prevented from coming off without connecting the first printed circuit board 3A and the second printed circuit board 3B with lead wires. Can be stopped. However, if the first and second printed circuit boards are connected by a lead wire, the end surface of the second printed circuit board is
Even if the inner surface of the first printed board is covered or the end surfaces of the first and second printed boards that are close to each other are slightly separated, it is possible to prevent the first printed board from coming off from the second printed board.

[0026]

The battery pack of the present invention is characterized in that two printed circuit boards can be mounted in a fixed position by a single circuit board holder and yet excellent impact strength can be realized. This is because the battery pack of the present invention is provided with a board holder for mounting the printed boards, which are divided into two pieces and are arranged in an L shape, to each other in a fixed position. The substrate holder has an L-shaped shape along the surface of the battery as a whole, has a positioning surface for mounting the battery in a fixed position on the inside, and defines two printed circuit boards arranged in an L-shape. L to be installed in position
The fitting portion is provided outside. The board holder of this structure allows the battery to be accurately mounted at a fixed position on the positioning surface, and the printed board divided into two pieces on the L-shaped fitting surface,
Can be installed without shifting the position. Therefore, the battery pack of the present invention is characterized in that the two printed circuit boards can be reliably arranged at fixed positions, the case can be assembled easily and easily, and the efficiency can be improved.

Further, in the battery pack according to the second aspect of the present invention, the positioning surface provided inside the substrate holder is formed by curving so as to conform to the cylindrical battery. It has the feature that it can be installed in a fixed position. Further, this battery pack also has a feature that electronic components to be mounted on the printed circuit board can be efficiently arranged by effectively utilizing the space formed between the curved positioning surface and the flat printed circuit board.

Further, the battery pack according to claim 4 of the present invention has an extremely simple structure and is characterized in that the two printed circuit boards can be more firmly mounted in the fixed positions. This battery pack has a printed circuit board composed of a first printed circuit board and a second printed circuit board, which are arranged in an L shape with respect to each other. This is because there are provided a slit into which the edge of the printed circuit board is vertically inserted and fitted, and a hooking convex portion that prevents the second printed circuit board from coming off in the vertical direction of the first printed circuit board.

[Brief description of drawings]

FIG. 1 is an exploded perspective view of a conventional battery pack.

FIG. 2 is an exploded perspective view of a battery pack according to an embodiment of the present invention.

FIG. 3 is a perspective view of a built-in unit of the battery pack shown in FIG.

FIG. 4 is an exploded perspective view of a board holder and a printed circuit board of the battery pack shown in FIG.

5 is a perspective view of the substrate holder and the printed circuit board shown in FIG. 4 as seen from below.

FIG. 6 is an enlarged cross-sectional view showing a connection structure between a board holder and a printed board.

[Explanation of symbols]

1 ... Case 2 ... battery 3 ... Printed circuit board 3A ... 1st printed circuit board 3B ... second printed circuit board 4 ... Board holder 5 ... Built-in unit 6 ... Electrode terminal 7 ... Electrode window 8 ... Positioning surface 9 ... L-shaped fitting part 10 ... Rib 10A ... Sidewall rib 11 ... Slit 12 ... Hooked protrusion 13 ... 14 ... Supporting part

Claims (4)

(57) [Claims] 1. A battery (2), a printed board (3) for mounting an electronic circuit connected to the battery (2), and a board holder (4) for mounting the printed board (3) in a fixed position. In a battery pack including a printed circuit board (3), the printed circuit board (3) is divided into two, and the two printed circuit boards (3) are arranged in an L shape.
The board holder (4) for mounting (3) is
Two prints that are L-shaped along the surface of (2) and have a positioning surface (8) for mounting the battery (2) in a fixed position, and are arranged in an L-shape on the outside. A battery pack having an L-shaped fitting part (9) for mounting the substrate (3) in a fixed position. 2. The positioning surface (8) provided inside the substrate holder (4) is curved and shaped so as to follow the cylindrical battery (2), and the positioning surface (8) is curved. The battery pack according to claim 1, wherein an electronic component mounted on the printed board (3) is disposed in a space formed between the printed board (3) and the printed board (3). 3. The cylindrical battery (2) according to claim 1, wherein a plurality of cylindrical batteries (2) are arranged side by side in parallel and fixed, and the substrate holder (4) is mounted outside the battery (2) at the end. Packed battery. 4. A substrate holder (4) comprising a first printed circuit board (3A) and a second printed circuit board (3B), wherein two printed circuit boards (3) are arranged in an L shape with respect to each other. ), The slit (11) into which the edge of the first printed circuit board (3A) is vertically inserted and fitted, and the second printed circuit board (3B).
The battery pack according to claim 1, further comprising: a hooking convex portion (12) for preventing the first printed circuit board (3A) from coming off in the vertical direction.