JPH06333547A - Battery pack - Google Patents

Abstract

PURPOSE:To mass-produce battery packs at low cost without increasing the number of part items, and surely insulate the lead wire of an electronic part. CONSTITUTION:A battery pack has a facing member 3; a battery cell 4; a terminal holder 6 having an external connecting terminal 1 connected to the electrode of the battery cell 4 and exposed to the outside of the facing member 3; and an electronic part 7. The terminal holder 6 has a wiring guide 9 for the lead wire 8 of the electronic part 7. The lead wire 8 of the electronic part 7 is guided to the wiring guide 9, and the terminal holder 6 is used also as the insulating wiring member of the lead wire 8. Since the terminal holder is used also as the insulating wiring member for the lead wire of the electronic part, the lead wire can be insulated and neatly wired without providing a special part.

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 plurality of battery cells, and more particularly to a battery pack containing an electronic component such as a temperature sensor inside an exterior member.

[0002]

2. Description of the Related Art In a battery pack in which a plurality of battery cells are built in a plastic molded outer member or a plastic film outer member, the capacity and voltage can be adjusted by changing the number of built-in battery cells. This type of battery pack includes an external connection terminal for connecting to a power supply circuit of an electric device to be set. The external connection terminal must be fixed to the battery pack so that it will not move loosely. This is because if the external connection terminal moves, it will not be able to reliably contact the contact of the electric device, which may cause contact failure. Therefore, the external connection terminal is fixed to the casing of the battery pack or the terminal holder.

A battery pack for fixing external connection terminals to a casing is described in, for example, Japanese Patent Publication No. 56-9789. In the battery pack described in this publication, as shown in FIG. 1, a fixing portion 2 that fixes the external connection terminal 1 is integrally formed with a casing that is an exterior member 3. The external connection terminal 1 is fixed with the fixing portion 2 inserted.
In order to prevent the external connection terminal 1 from short-circuiting with the electrode of the battery cell 4, the external connection terminal 1 and the electrode of the battery cell 4 are partitioned by the partition wall 5. The partition wall 5 acts as an insulating spacer and prevents the external connection terminal 1 from coming into contact with the electrodes.

[0004]

By the way, in order to use the battery pack in an ideal state, a temperature sensor, a breaker, a charge control element and the like are built therein. The temperature sensor detects the temperature of the battery cell and stops charging and discharging when the battery cell reaches an abnormally high temperature. The breaker shuts off the current and protects the battery cells and electrical equipment when an excessive current flows. Further, the charge control element controls the charging current of the battery cell, or counts the number of times of charging / discharging, that is, the number of times of using the battery, and outputs the signal to the charger or the electric device. A battery pack containing such electronic components can be conveniently used. However, in a battery pack containing these electronic components, it is important to ensure that the lead wires of the electronic components are insulated. When the lead wires come into contact,
The battery pack is shorted and cannot be used. Alternatively, there is a risk that the Joule heat will generate heat, resulting in an abnormally high temperature, and a dangerous state. In order to avoid this adverse effect, it is important that the lead wire of the electronic component is arranged so as to be insulated surely. However, in order to increase the capacity of the battery pack by designing the outer shape as small as possible, the gap inside the exterior member is extremely small. Since the lead wire is wired by packing the electronic parts in the narrow gap, it is difficult to reliably insulate the lead wire.

A battery having no electronic component like the battery pack shown in FIG. 1 can insulate the exterior member 3 from the electrode by the partition wall 5 having a simple structure. However, in a battery pack in which electronic components are built in a narrow space and lead wires are wired in a complicated manner, the lead wires cannot be reliably insulated by the partition walls 5 that partition the exterior member 3 and the electrodes. In particular, as shown in FIG. 1, in the structure in which the partition wall 5 divides the both surfaces to perform insulation treatment, a large number of lead wires cannot be reliably insulated.

The present inventors have succeeded in reliably insulating the lead wire of an electronic component by improving the structure of the terminal holder for fixing the external connection terminal and using the terminal holder together with the insulating wiring member. . Therefore, an important object of the present invention is to provide a battery pack that can be mass-produced at low cost and reliably insulates lead wires of electronic components without increasing the number of components.

[0007]

The battery pack of the present invention comprises:
In order to achieve the above-mentioned object, the following configurations are provided. The battery pack has a plurality of battery cells 4 housed in the exterior member 3 and a terminal holder 6 having external connection terminals 1 connected to the electrodes of the battery cells 4 and exposed to the outside of the exterior member 3.
And an electronic component 7 built in the casing.

Further, in the battery pack of the present invention, the terminal holder 6 is provided with the wiring guide 9 for the lead wire 8 of the electronic component 7. The electronic component 7 is attached to the wiring guide 9 of the terminal holder 6.
By guiding the lead wire 8 of the terminal holder 6
Is also used as the insulated wiring member of the lead wire 8, and the terminal holder 6
The lead wire 8 is securely insulated for wiring.

[0009]

In the battery pack of the present invention, the lead wire 8 of the electronic component 7 is guided to the wiring guide 9 of the terminal holder 6 and is wired in an insulated state. The lead wire 8 held by the terminal holder 6 in this state is held at a fixed position by the wiring guide 9 of the terminal holder 6 without moving. The plurality of lead wires 8 held in a fixed position are inserted into, for example, parallel wiring guides 9 to be insulated, or they intersect each other in a plan view, but the wiring guides 9 are displaced vertically so that they intersect. The wiring guides 9 are formed so that they are wired without contacting each other.

Further, in the battery pack of the present invention, the terminal holder 6 for fixing the external connection terminal 1 is also used as an insulating member without incorporating a member for insulating and arranging the lead wire 8. Then, the lead wire 8 is insulated. Since the terminal holder 6 insulates and holds the external connection terminal 1,
A material with excellent insulation performance is selected. In addition, the terminal holder 6 firmly fixes the external connection terminal 1,
A molded article made of a material having sufficient strength, for example, a plastic is used. These physical properties are exactly ideal as a material for insulating the lead wire 8 of the electronic component 7 and holding it in a fixed position. Therefore, when the wiring guide 9 is provided on the terminal holder 6 and is also used as the insulating arranging member for the lead wire 8, it is not necessary to store an extra member inside the battery pack, and the terminal holder which has been built in up to now is not necessary. By changing the structure of 6, it is possible to realize the feature that the lead wire 8 is reliably insulated and held in a fixed position.

[0011]

Embodiments of the present invention will be described below with reference to the drawings. However, the examples shown below exemplify a battery pack for embodying the technical idea of the present invention, the battery pack of the present invention, the type of components, material,
The shapes and arrangements are not specified below. The battery pack of the present invention can be modified without departing from the scope of the claims.

Further, in this specification, for easier understanding of the claims, the numbers corresponding to the members shown in the embodiments are referred to as "claims column", "action column", and "action column". It is added to the members shown in the section of "Means for Solving the Problems". However, the members shown in the claims are
It is by no means specific to the members of the examples.

The battery pack shown in the perspective view of FIG. 2, the exploded perspective view of FIG. 3, and the circuit diagram of FIG. 4 includes an exterior member 3, a battery cell 4, a terminal holder 6, and an electronic component 7. ing.

The exterior member 3 is a plastic casing and is formed into a shape capable of containing a plurality of battery cells 4. The exterior member 3 shown in the figure includes a casing body 3A and a lid 3B. The casing body 3A is
It is shaped like a box that can store five batteries in parallel. The lid 3B is a box-shaped casing body 3A.
Is shaped like a plate that can close the opening of the. The casing body 3A has four windows 10 opened to expose the external connection terminals 1 to the outside of the battery pack. The casing body 3A and the lid 3B are bonded to each other at their peripheral edges, and the battery cells 4 are housed inside.

The five battery cells 4 are bound together and housed in the exterior member 3. As shown in FIG. 4, the battery cells 4 are connected in series with each other via a breaker 7A. The electrodes of the battery cells 4 located on both sides in FIG.
It is connected to the external connection terminals 1 located on both sides via the lead plate 11.

The terminal holder 6 is made of plastic. The upper part of FIG. 3 shows the terminal holder 6 alone separated from the battery pack. As shown in this figure, the terminal holder 6 is provided with four protrusions 12 arranged at equal intervals for fixing the external connection terminal 1. A through hole 13 into which an end portion of the external connection terminal 1 which is a metal plate is inserted is provided on the protrusion 12. The external connection terminal 1 is fixed to the terminal holder 6 in a state of being wound around the protrusion 12 as shown in the cross-sectional view of the terminal holder 6 shown in FIG.

Further, the terminal holder 6 has a groove-shaped wiring guide 9 which is located above the protrusion 12 for fixing the external connection terminal 1 and which guides the lead wire 8 of the charge control element 7C which is the electronic component 7. It is provided. The lead wire 8 of the charge control element 7C arranged in the valley of the battery cell 4 is guided to the groove-shaped wiring guide 9. Therefore, the groove-shaped wiring guide 9
In the figure, the left end extends to the end of the terminal holder 6, and the right end extends to the recess 14 provided at the upper end. Recess 14
Is located above the second external connection terminal 1 from the right.
The lead wire 8 of the charge control element 7C inserted in the grooved wiring guide 9 is connected to the second external connection terminal 1 from the right.

Further, the terminal holder 6 is located on the left side of the recess 14 and is provided with a notched wiring guide 9 for wiring the lead wire 8 of the thermistor 7B. The cutout-shaped wiring guide 9 is the third and fourth external connection terminals 1 from the right.
Is disposed above. This is because the lead wire 8 of the thermistor 7B is connected to the third external connection terminal 1 and the fourth external connection terminal 1 from the right.

The terminal holder 6 shown in FIG. 3 is provided with a groove-shaped and notched wiring guide 9. The lead wire 8 of the electronic component 7 is guided and wired in the groove-shaped and notched wiring guides 9. The groove-shaped wiring guide 9 has a feature that the lead wire 8 can be held most reliably by designing the width into which the lead wire 8 can be fitted, that is, the width of the wiring guide 9 is substantially equal to the thickness of the lead wire 8. . However, the present invention does not specify the structure of the wiring guide 9 as a groove. The wiring guide 9 may have any structure capable of guiding the lead wire 8 to a predetermined position and wiring, for example, a structure in which a plurality of protrusions are provided and the lead wire 8 is sandwiched by the protrusions to be wired. it can.

An insulating plate 15 is arranged between the terminal holder 6 and the battery cell 4 as shown in FIG. Insulating plate 15
Is an external connection terminal 1 provided on the back surface of the terminal holder 6,
Prevents short circuit due to contact with battery electrodes. Therefore, the insulating plate 15 is provided on almost the entire back surface of the terminal holder 6, or is provided at a portion where the terminal holder 6 and the electrode need to be insulated.

The battery pack shown in FIG. 4 includes, as electronic parts 7, a thermistor 7B for detecting the temperature of the battery cell 4, a breaker 7A for breaking the circuit due to an excessive current at the time of short circuit,
It has a built-in charge control element 7C that counts the number of times the battery pack is used and outputs a signal.

The thermistor 7B and the charge control element 7C are arranged in the valley of the battery cell 4, as shown in FIG.
In the battery pack of FIG. 3, the charge control element 7C is arranged in the valley of the leftmost battery cell 4, and the thermistor 7B is arranged in the valley next to it. Although not shown, the breaker 7A is arranged on the lower surface of the battery cell 4 or between the terminal holder 6 and the battery cell 4.

The charge control element 7C is a three-terminal electronic component 7 that counts the number of times the battery pack has been used and outputs a counted number signal. The three terminals of the charge control element 7C are
It is connected to the-side external connection terminal 1 of the battery pack, the + terminal of the battery cell 4 arranged at the left end in FIG. 3, and the second external connection terminal 1 from the right. The lead wire 8 connected to the negative side of the battery pack is connected to the upper end of the external connection terminal 1 fixed to the terminal holder 6. The lead wire 8 connected to the + side of the leftmost battery cell 4 is wired in the valley of the battery cell 4 and is connected to the leftmost battery cell 4 and the − side of the adjacent battery cell 4. The lead wire 8 connected to the second external connection terminal 1 from the right is a groove-shaped wiring guide 9 provided in the terminal holder 6 from the valley of the battery cell 4.
And is connected to the upper end of the external connection terminal 1 in the recess 14 of the terminal holder 6. The lead wire 8 of the thermistor 7B is guided by a notched wiring guide 9 provided at the upper end of the terminal holder 6 and connected to the third and fourth external connection terminals 1 from the right. In this way, the charge control element 7C and the lead wire 8 of the thermistor 7B arranged in the notched wiring guide 9 and the grooved wiring guide 9 are separated by the terminal holder 6 and arranged without contact. Set up.

[0024]

According to the battery pack of the present invention, the terminal holder is provided with the wiring guide, the lead wire of the electronic component is guided to the wiring guide, and the terminal holder is also used as the insulating wiring member. Therefore, the battery pack of the present invention has a feature that the lead wire of the electronic component can be surely insulated by the terminal holder and can be neatly wired without short circuit. Therefore, there is a feature that the reliability of the battery pack can be improved by minimizing the failure that the lead wire is short-circuited during use and becomes unusable. In particular, in the battery pack of the present invention, the terminal holder is also used as the insulating member, and the lead wires are arranged in an orderly manner. Therefore, in order to insulate the lead wires, it is necessary to store special parts inside the exterior member. Absent. Therefore,
By changing the shape to mold the terminal holder,
It has the feature that it can be mass-produced at low cost. In addition, since no special parts are housed to insulate the lead wires, there is no need to enlarge the outer shape of the exterior member, and it is possible to make it compact and have a large volume.

[Brief description of drawings]

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

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

FIG. 3 is an exploded perspective view of the battery pack shown in FIG.

FIG. 4 is a circuit diagram of the battery pack shown in FIG.

5 is a cross-sectional view of the terminal holder of the battery pack shown in FIG.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 ... External connection terminal 2 ... Fixed part 3 ... Exterior member 3A ... Casing body 3
B ... Lid 4 ... Battery cell 5 ... Partition wall 6 ... Terminal holder 7 ... Electronic component 7A ... Breaker 7B ... Thermistor 7C ... Charge control element 8 ... Lead wire 9 ... Wiring guide 10 ... Window 11 ... Lead plate 12 ... Projection 13 ... Through hole 14 ... Recessed portion 15 ... Insulation plate

Claims (1)

[Claims] 1. A plurality of battery cells (4) housed in an exterior member (3) and external connection terminals connected to electrodes of the battery cells (4) and exposed to the outside of the exterior member (3). A terminal holder (6) having (1) and an electronic component built in the exterior member (3)
In the battery pack including (7), the terminal holder (6) is provided with a wiring guide (9) for the lead wire (8) of the electronic component (7), and the wiring guide (9) includes an electronic component ( The lead wire (8) of 7) is guided, and the terminal holder (6)
Is also used as an insulating wiring member for the lead wire (8).