JP2002117820A - Battery holder - Google Patents

Abstract

PROBLEM TO BE SOLVED: To achieve down-sizing, light-weight and thin-type of a battery holder, and further provide the inexpensive battery holder. SOLUTION: The battery holder is constituted so that it comprises the first electrode 4 to receive an electrode of a lower face 9a of a button-cell 9, a substrate 2 having the second electrodes 3 separately installed from the electrode 4, and a battery holder terminal 1 which is formed by an elastic electroconductive plate, in which leg parts 1b to 1d and a locking part 1e are extended from the central part 1a to every direction, in which respective leg parts are folded in one side in nearly right angle at a position surrounding the button-cell 9 and a lower end is connected with and fixed to the electrode 3 of the substrate 2, and in which the central part 1a is abutted on an electrode of an upper face 9b of the button-cell, and in which an locking part 1e locks a peripheral part 9c of the button-cell by means of a claw 1i being extended in parallel with the central part and being installed at the tip end.

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 detachably holding a disc-shaped button battery.

[0002]

2. Description of the Related Art Disc-shaped button batteries are used in portable small electronic devices such as portable telephones, electronic organizers, game machines, and the like, and are housed in battery holders mounted on substrates. The battery holder needs to be easily exchanged with the battery and housed in such a manner that the battery does not easily come off even if the device is dropped or an impact is applied.

[0003]

By the way, the portable electronic equipment has been greatly reduced in size, weight, and thickness, and accordingly, the battery holder has also been required to be smaller, lighter, and thinner, and further, lower cost has been required. Have been. The present invention has been made in view of the above points, and has as its object to provide a battery holder that is small, light, thin, and inexpensive.

[0004]

In order to achieve the above object, according to the first aspect of the present invention, a first electrode for receiving an electrode on a lower surface of a button battery and a first electrode provided apart from the first electrode are provided. It is formed of a substrate having two electrodes and a conductive plate having elasticity. Three legs and one locking portion extend from the center in four directions, and each of the legs surrounds the button battery. In the position, it is bent at a substantially right angle to one side, and the lower end is connected and fixed to the second electrode, and the central portion contacts the electrode on the upper surface of the button battery, and the locking portion is parallel to the central portion. And a battery holder terminal for locking the peripheral portion of the button battery by a locking claw provided at the extending tip.

[0005] In the invention of claim 2, the second electrode is
It is characterized by being arranged around the first electrode. According to the third aspect of the present invention, the lower end of each of the legs penetrates a hole provided around the first electrode, and the second electrode is formed with the first electrode of each of the holes. And a lower end of each of the legs is connected to and fixed to the second electrode.

When the button battery is mounted on the battery holder, when the button battery is inserted from the locking claw at the tip of the locking portion, the locking portion is pushed up by the upper surface of the button battery, so that the button battery can be inserted. Become. When the button battery is inserted, the center portion contacts the top surface of the button battery,
The locking portion returns to its original state by elasticity, and the locking claw locks the peripheral surface of the button battery. Thereby, the button battery is prevented from deviating by the three legs and the locking portion. In the button battery, an electrode on a lower surface is in contact with a first electrode on the substrate, and an electrode on the upper surface is connected to a second electrode on the substrate via a central portion and a leg of a battery holder terminal. When removing the button battery from the battery holder, the locking portion is lifted to release the locking by the locking claw, and the button battery is pushed out from the locking portion side. Thus, the button battery can be easily attached to and detached from the battery holder.

[0007]

Embodiments of the present invention will be described below in detail with reference to the drawings. (First Embodiment) FIG. 1 is an assembled perspective view showing a first embodiment of a battery holder according to the present invention. In FIG. 1, the battery holder terminal 1 has a substantially cross shape in a plan view, and three legs 1b to 1d and one locking portion 1e are radially formed in four directions from a central portion 1a. The central part 1a
It is formed smaller than the outer shape of the lower surface (-pole) 9a of the button battery 9 to be accommodated (FIGS. 3 and 4). Legs 1b-1
d and the locking portion 1e are bent upward in the drawing into a gentle crank shape (a so-called “gull type”) at the base of the center portion 1a, and the leg portions 1b to 1d are
At a predetermined position from the center of “a”, specifically, at a position slightly larger than the outer diameter of the button battery 9, it is bent downward in a substantially L-shape, and the lower ends 1 f to 1 h project outward and the locking portion 1 e
At the position slightly extending beyond the outer diameter of the button battery 9, the tip is bent inwardly into a hook shape at a position slightly extending beyond the outer diameter of the button battery 9 to form a locking claw 1 i. The battery holder terminal 1 is integrally formed of a conductive thin plate having a spring property.

As shown in FIGS. 1 and 2, the substrate 2 has holes 2a, 2b to 2d, and 2e corresponding to the central portion 1a of the battery holder terminal 1, the legs 1b to 1d, and the locking portion 1e. Holes 2b-2 which are inserted from one side of the substrate 2 to the other side so that the lower ends 1f-1h of the legs 1b-1d correspond to the corresponding holes 2b-2.
e can be locked to the end face. An electrode pattern (second electrode) 3 is provided on the front surface 2A of the substrate 2 corresponding to the lower ends 1f to 1h of the legs 1b to 1d, respectively.
In B, an electrode pattern (first electrode) 4 is provided on the periphery of the hole 2a so as to correspond to the periphery of the lower surface 9a of the battery 9. Each electrode pattern 3 is a (+) electrode and is connected to a power supply line, and each electrode pattern 4 is a (-) electrode and is connected to a power supply line and is a predetermined electronic component mounted on the substrate 2. (Not shown).

As shown in FIG. 1, the battery holder terminal 1 is inserted from the front surface 2A side of the substrate 2, and has a central portion 1a and leg portions 1b.
1d projecting toward the back surface 2B of the substrate 2 and the lower ends 1f to 1h of the legs 1b to 1d are soldered to the corresponding electrode patterns 3 and connected and fixed to the substrate 2. (FIG. 3). In this state, in the battery holder terminal 1, the distance from the lower surface of the central portion 1 a to the electrode pattern 4 on the substrate back surface 2 </ b> B is set slightly smaller than the thickness of the button battery 9.

The central portion 1a and the root portions of the leg portions 1b to 1d are bent in a gentle crank shape (gull type), so that these bent portions have spring properties, and the central portion 1a It can be displaced upward against the spring property. The central portion 1a can be pressed against the upper surface (+ electrode) 9b of the button battery 9 with a spring property, and the locking portion 1e is provided.
Of the peripheral surface 9c connected to the upper surface 9b. The legs 1b to 1d can be opposed to the peripheral surface 9c of the battery 9 with a slight gap. Thereby, the button battery 9 is provided inside the legs 1b to 1d.
Can be reliably accommodated. In this way,
A battery holder 5 is constituted by the battery holder terminal 1 and the substrate 2. Thereby, the number of parts of the battery holder 5 can be reduced, and the battery holder 5 can be reduced in size, weight, and thickness.

The battery holder terminal 1 has legs 1b to 1d inserted into corresponding holes 2b to 2d of the substrate 2, and has tips 1f to 1f.
h is brought into contact with the opening end surfaces of these holes to be locked, so that the battery holder terminal 1 can be temporarily locked to the substrate 2 and, like other electronic components, can be automatically inserted by the automatic insertion machine. It can be easily mounted. In this case, the battery holder terminal 1
Are mounted on a substrate while the central portion 1a is suction-held by an automatic insertion machine. Thereby, the assembling work is significantly improved.

The operation will be described below. As shown in FIG. 3, when the button battery 5 is inserted from the locking portion 1 e side of the battery holder terminal 1, the locking claw 1 i of the locking portion 1 e is pushed up by the upper surface 9 b of the button battery 9. The stop 1e curves upward against the spring property. As the button battery 9 is inserted, it enters between the leg portions 1b and 1d on both sides, and the upper surface 9b pushes up the central portion 1a. When the button battery 9 is further inserted and the locking claw 1i of the locking portion 1e comes off the outer peripheral end of the upper surface 9b, the locking portion 1e returns to the original state by the spring force, and the locking claw 1i is moved to the peripheral surface 9c. Lock the upper part of.

In this state, the button battery 9 is located substantially at the center of the battery holder terminal 1, the upper surface (+ electrode) 9 b is on the lower surface of the central portion 1 a, and the peripheral edge of the lower surface (− electrode) 9 a is on the substrate 2. The leg portions 1b to 1d are in pressure contact with the respective electrode patterns 4, and face the peripheral surface 9c at a slight interval. Then, the button battery 5 is connected to the predetermined electronic component. Thus, the button battery 9 can be easily mounted on the battery holder 5. The button battery 9 is prevented from moving in three directions by the three legs 1b to 1d, and the locking claw 1i of the locking portion 1e.
Accordingly, movement toward the insertion side is prevented, and deviation from the battery holder 5 is prevented.

In order to remove the button battery 9 from the battery holder 5, the locking claw 1i is lifted to release the lock with the upper part of the peripheral surface 9c, and the button battery 9 is pushed out from the leg 1c side, so that the button battery 9 can be easily removed. Can be removed. (Second Embodiment) FIG. 5 is an assembled perspective view showing a second embodiment of the battery holder according to the present invention. The first in the figure
The same or corresponding members as those of the embodiment are denoted by the same or corresponding reference numerals, and detailed description thereof will be omitted. In FIG.
A circular electrode pattern (−electrode) 4 ′ on the back surface 2 B of the substrate 2
The electrode pattern (+ electrode) 3 'is provided around the electrode pattern 4' corresponding to the lower ends 1f to 1h of the legs 1b to 1d of the battery holder terminal 1. The battery holder terminal 1 has the lower ends 1f to 1h of the legs 1b to 1d mounted on the corresponding electrode patterns 3 'of the substrate 2 and fixed by soldering. Thus, the battery holder 6
Are formed. The attaching / detaching operation of the button battery is the same as that of the first embodiment. (Third Embodiment) FIG. 6 is an assembled perspective view showing a third embodiment of the battery holder according to the present invention. The first in the figure
The same or corresponding members as those of the embodiment are denoted by the same or corresponding reference numerals, and detailed description is omitted. In FIG.
Lower end 1 of each leg 1b'-1d 'of battery holder terminal 1'
f 'to 1h' are slightly narrowed with a step. A circular electrode pattern (-electrode) 4 'is provided on the back surface 2B of the substrate 2 and around the electrode pattern 4', corresponding to the lower ends 1f 'to 1h' of the legs of the battery holder terminal 1 '. Holes 2b 'to 2d' are provided. An electrode pattern (+ electrode) (not shown) is provided on the surface 2A of the substrate 2 at the positions of the holes 2b 'to 2d'.

The battery holder terminal 1 'is connected to each leg 1b'-1.
The lower ends 1f 'to 1h' of d 'are inserted into the corresponding holes 2c' to 2d 'from the back surface 2B side of the substrate 2, and are soldered and fixed to the electrode pattern (+ electrode) (not shown). Thus, the battery holder 7 is formed. The attaching / detaching operation of the button battery is the same as that of the first embodiment. According to the second and third embodiments, the configuration of the substrate 2 is simplified.

[0016]

As described above, according to the present invention,
Receive one electrode of the button battery with the electrode pattern of the board,
Since the other electrode is received by the battery holder terminal, it is not necessary to assemble the battery holder alone, and it is possible to reduce the number of parts and the cost. In addition, the structure is extremely simple, and it is possible to reduce the size, weight, and thickness, and it is also possible to perform automatic mounting, thereby improving the productivity.

[Brief description of the drawings]

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

FIG. 2 is a perspective view showing a back surface of the substrate of FIG. 1;

FIG. 3 is a perspective view of a state where the battery holder of FIG. 1 is assembled.

FIG. 4 is a sectional view showing a state where a battery is mounted on the battery holder of FIG. 3;

FIG. 5 is an assembled perspective view of a battery holder according to a second embodiment of the present invention.

FIG. 6 is an assembled perspective view of a third embodiment of the battery holder according to the present invention.

[Explanation of symbols]

 1, 1 'Battery holder terminal 1a, 1a' Central portion 1b-1d, 1b'-1c 'Leg 1e, 1e' Locking portion 2 Substrate 2a-2e, 2b'-2d 'Hole 3,3' Electrode (+ Electrode) 4, 4 'Electrode (-electrode) 5, 6, 7 Battery holder 9 Button battery

Claims (3)

[Claims] 1. A substrate having a first electrode for receiving an electrode on a lower surface of a button battery, a second electrode provided separately from the first electrode, and a conductive plate having elasticity, Three legs and one locking portion extend in four directions from the center, and each leg is bent at a substantially right angle to one side at a position surrounding the button battery, and the lower end is the second electrode. And the central portion abuts on the electrode on the top surface of the button battery, and the locking portion extends in parallel with the central portion and engages the peripheral portion of the button battery with a locking claw provided at the tip. And a battery holder terminal for stopping. 2. The battery holder according to claim 1, wherein the second electrode is disposed around the first electrode. 3. A lower end of each leg penetrates a hole provided around the first electrode, and the second electrode has the first electrode of each hole formed therein. 2. The method according to claim 1, wherein the lower end of each of the legs is connected to and fixed to the second electrode.
The battery holder according to item 1.