JP3086398B2 - Battery holder - 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 holder for storing a battery.

[0002]

2. Description of the Related Art Generally, a battery box for accommodating a battery has terminals of a positive pole and a negative pole at one end and the other end of a housing forming a concave portion of a storage portion formed according to the outer shape of the battery. Provided. In addition, a conductive material is used for both of these terminals, and particularly, the negative terminal is formed of an elastically deformable member such as a spring. Then, the battery housed in such a battery box is pressed toward the plus terminal side by the minus terminal, and is fixed in a normal position by this pressing force so that both terminals of the battery and the battery box come into contact with each other. Is provided. Therefore, the battery housed in the battery box is fixed in the plus and minus directions, and is regulated by the side wall of the battery box,
It does not come off to the side.

However, in the mounting direction of the battery in the battery box, the housing generally has a concave shape, and since there is no member for preventing the battery from popping out, the battery may pop out of the battery box due to impact or the like. is there. If a lid for closing the entrance of the battery box is provided to prevent this, a detachable structure of the lid and a member for attaching and detaching the lid are required, and the number of parts increases.

[0004] Conventionally, as an example in which the above-mentioned lid is not provided, for example, as shown in FIG.
In the battery box 21 provided with the negative terminal 23 in the storage portion 24, the positive terminal a of the battery A is stopped by the retaining portion 25 protruding from the upper end of the positive terminal 22, and FIG. As shown in (a), the retaining portion 25 is formed of a non-conducting material forming the storage portion 24 of the battery box 21 (for example, the actual opening 54).
-79930, and Japanese Utility Model Application Laid-Open No. 54-79932).

[0005]

However, according to the conventional battery box 21 as shown in FIG. 8A, the battery itself can be prevented from coming off, but as shown in FIG. When the user mistakenly inserts the battery box 21 in the plus / minus insertion direction and inserts the battery in the reverse direction, the retaining portion 24 protruding from the plus terminal 22 comes into contact with the flat minus terminal b of the battery. Because of conduction, there is a disadvantage that a current of opposite polarity flows.

That is, an overcurrent may flow in a circuit to which current is supplied from the battery box 21. Further, when an IC is used in the circuit, the IC may be damaged. The circuit may break down.
In addition, the heat generated by such a short circuit may cause injuries such as burns of the user, and the possibility of an electric fire. In addition, in order to prevent such conduction due to reverse insertion of the battery, by providing a projecting portion having a predetermined thickness around the positive terminal, at the time of reverse insertion, the projecting portion and the flat negative terminal side of the battery are connected. Abutting to prevent the contact between the negative terminal and the positive electrode plate (for example, actual
No. 07) is known.

Further, according to the conventional battery box 21 as shown in FIG. 9A, when the battery is inserted in the reverse direction, the retaining portion 24 made of a non-conductive material is used. Since the flat minus terminal b of the battery abuts and does not contact the plus terminal 22 of the battery box 21, the above-described inconvenience can be avoided. However, since the retaining portion 25 is formed of a non-conductive material,
When the battery A is pulled out and fixed as shown in FIG. 9B while the battery A is being removed, there is a disadvantage that conduction failure occurs.

FIG. 8A and FIG.
In both battery boxes 21 as shown in FIG.
Since the positive terminal a of the battery A comes into contact with the battery A, there is an inconvenience that smooth replacement is difficult. Further, the more the retaining portion 25 is projected, the more reliably the battery A is prevented from being detached. However, the more the retaining portion 25 is projected, the more easily the battery A can be caught. Is more difficult.

The present invention is intended to prevent the battery from being pulled out and to prevent the current of the opposite polarity from being supplied due to the reverse insertion of the battery, and to ensure the conduction even when the battery is inclined at some time. It aims to provide a possible battery holder.

[0010]

According to the present invention, there is provided a battery holder provided with a plus / minus pole plate at both ends of a housing of a storage section . Than the front wall
Provided on the opposite side of the battery and the positive terminal of the battery is inserted
Form a notch, and place a plus electrode plate in this notch.
Was set, b: the positive electrode plate, the elastically deformable retaining member
Formed on the top of the positive electrode plate, projecting in the direction of the battery
A conductive projection, and the upper part of the positive electrode plate
Inclined away from the battery and held in the notch
It is intended to, c: the positive terminal of the battery is fitted into the notch,
The positive electrode plate is pressed by the positive terminal and rises,
The protrusion of the positive electrode plate is located above the positive terminal
And, d: and conductive positive terminal of the battery is fitted into the notch
If the pond is at an angle, the positive electrode plate
E: provided when the battery is housed in the housing part in the opposite direction,
The negative terminal of the pond contacts the front wall of the housing
The negative terminal and the positive electrode plate are in a non-contact state.
It is a battery holder that keeps the condition .

[0011]

Therefore, according to the battery holder of the present invention, when inserting a battery, when the battery is pushed into the battery box from above, the protruding positive terminal of the battery is placed along the positive electrode plate of the battery holder. The plus electrode plate is raised vertically while sliding downward. Then, the upright positive electrode plate and the positive terminal surface of the battery are in surface contact with each other to be in a conductive state.

At this time, since the protrusion protruding from the upper end of the positive electrode plate is located above the positive terminal,
It serves as a retaining part for the battery, especially the positive terminal. That is, when some external force is applied, for example,
When the positive terminal of the battery moves in the direction of the protrusion when the battery is about to come out, the movement is usually fast in the case of an impact or the like, so the positive terminal of the battery protrudes from the upper end of the positive electrode plate. The part is caught and the escape is prevented. When the battery is replaced, the movement of the positive terminal of the battery in the direction of the protrusion is not instantaneous, so the positive electrode plate is urged by the holding member with the movement of the positive terminal of the battery, The upper end of the positive electrode plate moves in the direction opposite to the battery of the battery holder (so-called outward). Therefore, the protrusion protruding from the upper end of the positive electrode plate is retracted from the movement path of the positive terminal of the battery when the battery is taken out, so that the battery can be easily taken out.

If the user mistakenly inserts the battery into the battery holder with the plus / minus reversed, the flat minus terminal of the battery comes into contact with the side wall of the battery holder on the positive electrode plate side. The negative terminal does not come into contact with the positive electrode plate including the protrusion serving as a retaining portion in the cutout portion.

Further, even when the battery is fixed in an oblique state, the positive terminal of the battery and the protruding portion (retaining portion) protruding from the upper end of the positive electrode plate come into contact with the battery to maintain electrical conduction. be able to.

[0015]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described below with reference to the embodiments shown in FIGS.

As shown in FIGS. 1 to 4, the battery holder of the present embodiment includes a rectangular parallelepiped concave housing 1 whose upper part is opened in accordance with the outer shape of the battery A.
The front wall plate 2a, the rear wall plate 2b, the right side wall plate 2c, the left side wall plate 2d, and the bottom plate 2e which form the concave portion, the minus electrode plate 3 provided on the rear wall plate 2b, and the front wall plate 2a A cut-out portion 4 having a width into which the plus terminal a of the battery A provided can be inserted, and a cut-out portion 6 is provided in the cut-out portion 4 by being inclined by a holding member 5 at an upper end thereof. And a positive electrode plate 7.

That is, these walls 2a, 2b, 2
c, 2d, and 2e are formed using a non-conductive material such as a synthetic resin, and have dimensions corresponding to the outer shape of the battery A.

The negative electrode plate 3 is formed in a curved long plate shape using a conductive material that can be elastically deformed, such as a metal leaf spring, and is fixed to the rear wall plate 2b. Therefore, when the battery A is set in the housing 1, the flat minus terminal of the battery A comes into contact with and contacts the minus electrode plate 3, and sufficient electrical continuity can be secured.
At the same time, the negative electrode plate 3 is pressed against the rear wall plate 2b by the battery A, so that the battery A is pressed against the positive electrode plate 7 by the elastic force of the negative electrode plate 3. The negative electrode plate 3 is electrically connected to a circuit of the device by a connection cord (not shown).

The notch 4 is formed to have a width at which the plus terminal a of the battery A can be inserted, and forms a stepped portion.
The upper end of the positive electrode plate 7 can be stored in an inclined state in which the upper end of the positive electrode plate 7 is located outside the housing 1 (in the direction opposite to the battery).

That is, the vertical side wall 8a is set to have a depth corresponding to at least the amount of protrusion of the positive terminal a of the battery A.
And a second notch portion 9 having a predetermined depth provided above the first notch portion 8. The second notch portion 9 will be described later. The upper side of the inclined positive electrode plate 7 is accommodated, and the lower side of the inclined positive electrode plate 7 is accommodated in the first notch 8.

Therefore, when the battery is not stored in the housing 1 and the positive electrode plate 7 is inclined, the entire positive electrode plate 7 including the protrusion 6 serving as a retaining portion described later is notched. The positive electrode plate 7 is provided in the portion 4 so as not to protrude inward (toward the battery) from the front wall plate 2a. When the battery A is housed in the housing 1, the plus terminal a of the battery A slides from the middle of the plus electrode plate 7 of the housing 1 to the lower side, and the plus electrode plate 7 is By pressing against the vertical side wall 8a of the first notch 8, the positive electrode plate 7 is vertically erected along the side wall 8a.
The side wall 9a of the second notch 9 for housing the upper side of the positive electrode plate 7 does not need to be vertical, and may be formed on an inclined surface along the upper side of the positive electrode plate 7 in this inclined state. Good.

The positive electrode plate 7 is narrower than the notch 4 and is formed in a long plate shape using a conductive material such as metal. The positive electrode plate 7 is electrically connected to the circuit of the device, similarly to the negative electrode plate 3.

At the upper end of the positive electrode plate 7, a plate-shaped projection 6 is provided using the same conductive material so as to protrude inward. In the case of this embodiment, the protrusion 6 is formed integrally with the upper end of the positive electrode plate 7. The protrusion 6 constitutes a retaining portion described later.

Further, below the middle of the positive electrode plate 7, one end of a holding member 5 using an elastically deformable conductive or non-conductive material is provided at an angle, and the other end of the holding member 5 is Are fixed to the bottom plate 2e of the housing 1 in an inclined manner. Therefore, when the battery A is not stored in the housing 1, the positive electrode plate 7 is held in an inclined state by the holding member 5. When the battery A is stored, the holding member 5 is elastically deformed to hold the positive electrode plate 7 in a predetermined vertical state, and when the battery A is removed, the positive electrode plate 7 is inclined. It returns to the state. In the case of the present embodiment, the holding member 5 is formed by cutting off the lower end of the positive electrode plate 7 and projecting the lower part thereof to the side wall 8a.

Therefore, as shown in FIG. 5, when the battery A is stored in the housing 1, the plus terminal a of the battery A is connected to the housing 1
The positive electrode plate 7 is pressed against the vertical side wall 8a of the first notch portion 8 of the notch portion 4 while abutting from the middle to the lower side of the positive electrode plate 7 so as to be positive along the side wall 8a. The electrode plate 7 is erected vertically. And this standing plus electrode plate 7
And the positive terminal a of the battery A are in surface contact with each other, and sufficient electrical continuity is ensured. At the same time, the protrusion 6 of the positive electrode plate 7 is located above the positive terminal a, and the protrusion 6 sufficiently secures the battery A from coming out of the housing 1.

When the user mistakenly inserts the battery A into the battery holder 1 with the plus / minus reversed, as shown in FIG. 6, the minus terminal b of the battery A, which is a flat bottom, Abuts against the front wall plate 1a and does not contact the positive electrode plate 7 including the protrusion 6 disposed in the notch portion 4 and thus does not conduct, so that the current whose polarity has been reversed may damage the circuit. This does not occur, and the circuit to which the current is supplied from the housing 1 can be sufficiently protected.

Further, even when the device provided with the battery holder 1 is dropped and the battery A is displaced and fixed in a state in which the battery A is pulled out of the battery holder 1, as shown in FIG. Since the tip of the protrusion 6 of the plate 7 comes into contact with the positive terminal a of the battery A to ensure conduction, the current can continue to flow through the circuit and the operation of the device can be maintained.

The protruding portion 6 of the positive electrode plate 7 may be formed in a curved arc shape in accordance with the protruding positive terminal a of the battery A. Further, by setting the inclination angle to be larger and making the protrusion 6 larger, the separation of the battery A can be more reliably prevented. Further, the battery A itself may be pressed down from above, instead of the positive terminal a of the battery A.

As described above, according to the battery holder of the present embodiment, the elastically deformable holding member inserts the intermediate portion into the cutout portion having a width in which the plus terminal of the battery can be inserted. When the battery is inserted, the battery is inserted into the battery box from above by disposing the positive electrode plate holding the part, and projecting the retaining part with the same conductive material at the upper end of this positive electrode plate. When the battery is pushed in, the protruding positive terminal of the battery slides vertically from the middle of the positive electrode plate of the battery holder, and erects the positive electrode plate vertically. Then, the raised positive electrode plate comes into surface contact with the positive terminal surface of the battery, and a sufficient conduction state is ensured. At the same time, since the protrusion serving as the retaining portion of the positive electrode plate is located above the positive terminal, it is possible to sufficiently prevent the battery from being detached from the battery holder.

If the user mistakenly inserts the battery into the battery holder with the plus / minus reversed, the flat negative terminal of the battery comes into contact with the side wall of the battery holder on the positive electrode plate side. The current is supplied from the battery holder without contacting the positive electrode plate including the retaining portion disposed in the notch portion, without causing the circuit to be damaged by the reversed current. The circuit can be sufficiently protected.

Further, even when the battery is fixed in an oblique state in the middle of removal, the positive terminal of the battery and the retaining portion protruding from the upper end of the positive electrode plate are kept in contact to maintain electrical continuity. It is ideal for electrical equipment that requires earthquake resistance and shock resistance.

Further, when replacing the battery, the positive electrode plate is inclined by the holding member so that the upper end of the positive electrode plate moves outside the battery holder. Since the stopper is retracted from the movement path of the battery, the battery can be smoothly taken in and out.

[0033]

As described above, the battery holder of the present invention is constructed as described above. When a battery is inserted, when the battery is pushed into the battery box from above, the protruding positive terminal of the battery becomes The plus electrode plate is erected vertically while sliding downward along the plus electrode plate of the battery holder. Then, the raised positive electrode plate comes into surface contact with the positive terminal surface of the battery, and a sufficient conduction state is ensured. At the same time, since the protrusion serving as the retaining portion of the positive electrode plate is located above the positive terminal, it is possible to sufficiently prevent the battery from being detached from the battery holder.

If the user mistakenly inserts the battery into the battery holder with the plus / minus reversed, the flat minus terminal of the battery comes into contact with the side wall of the battery holder on the positive electrode plate side. The current is supplied from the battery holder without contacting the positive electrode plate including the retaining portion disposed in the notch portion, without causing the circuit to be damaged by the reversed current. The circuit can be sufficiently protected.

Further, even when the battery is fixed in an oblique state while the battery is being pulled out, the positive terminal of the battery and the protrusion protruding from the upper end of the positive electrode plate are brought into contact with each other to maintain electrical conduction. Because it can be used, it is most suitable for electrical equipment that requires earthquake resistance and impact resistance.

Further, at the time of battery replacement, the positive electrode plate is inclined by the holding member so that the upper end of the positive electrode plate moves to the outside of the battery holder. When the battery is removed,
Since the battery is retracted from the movement path of the positive terminal of the battery, the battery can be easily taken out.

[Brief description of the drawings]

FIG. 1 is a plan view of a battery holder according to an embodiment of the present invention.

FIG. 2 is a longitudinal sectional view of the battery holder of the present embodiment, taken along the line II-II in FIG.

FIG. 3 is a cross-sectional view of the positive terminal of the battery holder according to the present embodiment taken along line III-III in FIG.

FIG. 4 is an exploded perspective view showing the structure of the battery holder of the present embodiment on the positive electrode plate side.

FIG. 5 is a schematic longitudinal sectional view showing a use state of the present embodiment and showing a case where the battery is normally stored.

FIG. 6 is a schematic longitudinal sectional view showing a use state of the present embodiment and showing a case where batteries are housed in plus and minus directions in opposite directions.

FIG. 7 is a schematic longitudinal sectional view showing a use state of the present embodiment and showing a case where the battery is fixed in a state in which the battery is being removed from the battery holder.

8A is a schematic vertical cross-sectional view illustrating a conventional battery box, and FIG. 8B is a schematic vertical cross-sectional view illustrating a case where batteries are housed in plus and minus directions in opposite directions. FIG. .

9A is a schematic longitudinal sectional view illustrating a conventional battery box, and FIG. 9A is a schematic longitudinal sectional view illustrating an entire configuration, and FIG. 9B is a schematic longitudinal sectional view illustrating a case where the battery is fixed in a state in which the battery is being removed from the battery box. Area view.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Housing 2a Front wall plate 2b Rear wall plate 2c Right side wall plate 2d Left side wall plate 2e Bottom plate 3 Minus electrode plate 4 Notch part 5 Holding member 6 Projection part 7 Plus electrode plate 8 First notch part 8a First notch part Side wall 9 of the second notch 9a side wall of the second notch A battery a positive terminal protruding from the battery b flat negative terminal of the battery

Claims (1)

(57) [Claims] 1. Plus and minus ends of a housing of a storage unit
In the battery holder provided with the electrode plate,The following requirements a-
e. A battery holder comprising: Record a: On the positive electrode plate side of the housing, more than the front wall plate of the housing
Provided on the opposite side of the battery and the positive terminal of the battery is inserted
Form a notch, and place a plus electrode plate in this notch.
To set up. b: The positive electrode plate is formed by an elastically deformable holding member.
Formed on the top of the positive electrode plate, projecting in the direction of the battery
A conductive projection, and the upper part of the positive electrode plate
Inclined away from the battery and held in the notch
To do. c: When the positive terminal of the battery is inserted into the notch,
The positive electrode plate is pressed by the positive terminal and rises,
The protrusion of the positive electrode plate is located above the positive terminal
To do. d: The positive terminal of the battery is inserted into the
If the pond is at an angle, the positive electrode plate
Be provided so that it can contact the positive terminal.
When. e: If the battery is stored in the storage unit in the opposite direction,
The negative terminal of the pond contacts the front wall of the housing
The negative terminal and the positive electrode plate are in a non-contact state.
To be kept in shape.