JPH0145085Y2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to an improvement in a device for housing a power source battery of an electronic device.

Conventionally, as shown in FIG. 1, a battery storage device has been known in which two batteries 1 are stored in a battery case 2, and then the battery case 2 is inserted through a case storage opening 4 of an electronic device cabinet 3. ing.
The battery case 2 is provided with a pair of restraining coil springs 5 that also serve as electrodes. Therefore, when storing the battery 1 in the case 2, it is necessary to force the battery 1 in while compressing the spring 5 with the battery 1, which makes it very difficult to insert the battery 1. Furthermore, when taking out the battery 1, it is not easy to insert a finger into the narrow case 2 and take out the battery 1, which is held down by the spring 5.
When the case 2 is stored in the cabinet 3 through the storage opening 4, it is locked by an appropriately provided locking means (not shown). When the case 2 is to be taken out, the lock is first released, and then the case 2 is pulled out by hooking the concave and convex portion 6 formed on the case 2 with a finger. Therefore, case 2
It is not possible to put in and take out with one touch.

The present invention can eliminate the above-mentioned drawbacks, and embodiments of the present invention will be described below with reference to the drawings.

In FIG. 2, a cabinet 10 of an electronic device is shown.
A battery storage chamber 11 is provided in the cabinet 10, and a storage opening 12 provided on the side of the cabinet 10 allows access to the battery storage chamber 11.
A battery case 24 containing two batteries 13 is inserted and stored in the storage chamber 11. A pair of coil springs 14 are attached to the rear wall 11a of the storage chamber 11.

FIG. 3 shows a mounting structure for the spring 14, in which a pair of elongated holes 15 and 16 are provided in the rear wall 11a with an intermediate portion 17 in between. Along with this, a pair of hook-shaped protrusions 18 and 19 are integrally provided on both sides of the elongated holes 15 and 16, and the intermediate portion 1
A protrusion 20 is formed below 7. spring 14
As shown in the figure, the terminal 14a is led out from one end, and this one end is inserted between the protrusions 18 and 19 and is attached by being locked by the protrusion 20.

In this installed state, the spring 14 is attached to the protrusions 18, 1
9, the intermediate portion 17, and the protrusion 20. Note that an adhesive may be used to reinforce the attachment strength of the spring 14.

There is a recess 21 near the opening 12 at the bottom of the storage chamber 11.
A recess 22 communicating with the recess 21 is formed in the side surface 10a of the cabinet 10. A long hole 23 is provided at the bottom of the recess 21 .

A pair of holes 2 are provided on the rear surface 24a of the battery case 24.
5 is provided at a position corresponding to the spring 14, and a pair of Mt. Fuji-shaped guide pieces 26 are provided at the bottom. The guide piece 26 positions the two batteries 13 when they are housed in the case 24.

An operating piece 27 is provided at the front of the bottom surface of the case 24. As shown in FIG. 4, the operating piece 27 is integrally projected from the bottom surface and extends substantially horizontally, and a triangular locking protrusion 28 is provided on the lower surface of the operating piece 27. Note that the battery case 24 is made of, for example, ABS resin,
Alternatively, it is integrally molded from resin such as high impact styrene.

Next, the operation of the battery storage device having the above configuration when storing and removing batteries will be described.

First, two batteries 13 are housed in the case 24. In this case, the two batteries 13 can be easily stored by simply placing them in parallel and dropping them into the case 24. The housed battery 13 is positioned by a guide piece 26. Next, case 2 containing battery 13
4 through the opening 12 and push the front surface 24b of the case 24 in the direction of arrow A with your finger.
4 is pushed into the storage chamber 11 while sliding. At this time, the operation piece 27 fits into the recess 21 and slides within the recess 21, and the tip of the spring 14 is inserted into the case 24 through the hole 25, and the battery 13 is inserted into the case 24 through the hole 25.
contact with the electrode. If the case 24 is pushed in further, the case 24 will slide while compressing the spring 14 with the battery 13, and then the locking protrusion 28 will slide into the recess 2.
1, and then falls into the elongated hole 23. At this time, when the finger is released from the case 24 to release the pressure, the case 24 is completely stored in the storage chamber 11 as shown in FIG. In this state, while the spring 14 is compressed, its tip end is inserted into the hole 2.
It is pressed into contact with the electrode of the battery 13 via the electrode 5. Therefore, the voltage of the battery 13 is applied to the terminal 1 through this spring 14.
4a to the internal circuit. Also spring 14
Due to the above compression, a force in the direction of arrow B is applied to the case 24, but since the locking protrusion 28 is locked at the end of the elongated hole 23, the case 24 remains in the state shown in FIG. is retained.

Next, in the state shown in FIG. 5, if you put your finger into the recess 22 and press the operating piece 27 in the direction of arrow C against its elasticity, the locking protrusion 28 will come off upward from the elongated hole 23 and the lock will be released. Ru. At that moment, the case 24 pops out in the direction B due to the force of the spring 14, and a part of the case 24 protrudes outside from the opening 12. Then, by picking up the case 24 with your fingers and pulling it out from the storage chamber 11, and then turning the case 24 upside down, the battery 24 will fall and be taken out.

As described above, according to the present invention, the length in the insertion direction of the battery storage space existing between the electrode plate provided on the front side of the battery case 24 and the rear side is longer than the length of the battery 13. The battery case 24 is also large and is configured so that when the battery 13 is housed in the battery case 24, a sufficient gap is created in the length direction. Therefore, when storing the battery 13 in the battery case 24, there is no need to force the battery 13 against the spring that urges it in the longitudinal direction, and when removing the battery 13, there is no need to force the battery 13 against the spring. Since there is no need to take out the battery 13, it is extremely easy to put the battery 13 in and out of the battery case 24.

Further, the rear side surface 11a of the battery storage chamber 11 has a tip thereof that protrudes into the battery storage space through the hole 25 of the battery case 24 and presses against the electrode of the battery 13, so that the battery 13 can be moved toward the front side of the battery storage space. When the operating piece 27 is operated to disengage the engaging claw 28 from the engaging portion, the pressing force of the spring 14 against the battery 13 causes the battery case 24 to be pressed against the battery 13. It is configured to protrude outward from the opening 12 of the storage chamber 11.
Therefore, just by operating the operation piece 27, the battery case 24 pops out from the battery storage chamber 11, so that the battery case 24 can be moved out with a very simple operation with a good feeling.
4 can be taken out from the battery storage chamber 11, and the operation of storing the battery case 24 in the battery storage chamber 11 is also easy.

[Brief explanation of the drawing]

Fig. 1 is a perspective view showing a conventional example, Figs. 2 to 5 show an embodiment of the present invention, Fig. 2 is an overall perspective view, Fig. 3 is an enlarged perspective view of main parts, and Fig. 4 is an enlarged perspective view of the main part. FIG. 5 is a perspective view of the main parts, and a cross-sectional side view showing the stored state. In addition, in the symbols used in the drawings, 11...battery storage chamber, 12...opening, 13...battery, 14...
Coil spring, 23...long hole, 24...battery case, 25...hole, 27...operating piece, 28...locking protrusion (engaging claw).

Claims (1)

[Scope of Claim for Utility Model Registration] In an electronic device that includes a battery storage chamber 11 and a battery case 24 that is removably housed in the battery storage chamber 11, the battery case 24 is used for inserting and removing the battery 13. The battery case 24 has a box-like shape integrally molded from synthetic resin with an opening at the top, and the rear side 24a of the battery case 24 has a hole 25 through which the electrodes of the stored batteries 13 are exposed to the outside. The battery case 24 is provided with a
An operating piece 27 is provided which extends along the insertion direction into the battery storage chamber 11 and has elasticity, and the operating piece 27 is provided with an engaging claw 28, which is provided on the front side of the battery case 24. The length of the battery storage space existing between the electrode plate and the rear side surface in the insertion direction is larger than the length of the battery 13, and when the battery 13 is stored in the battery case 24, The front side surface 10a of the battery storage chamber 11 is provided with an opening 12 for inserting and removing the battery case 24, and the battery storage chamber 11 includes: This battery storage compartment 11
An engaging portion that engages with the engaging claw 28 is provided in order to lock the battery case 24 housed in the battery case 24, and the tip thereof is located on the rear side surface 11a of the battery storage chamber 11. A spring 14 is provided that protrudes into the battery storage space through the hole 25 and presses against the electrode of the battery 13 to press the battery 13 against the front side of the battery storage space, and when the operating piece 27 is operated. When the engagement claw 28 and the engagement portion are disengaged, the battery case 24 is pushed out of the opening 12 of the battery storage chamber 11 by the pressing force of the spring 14 against the battery 13. An electronic device that is configured to protrude in the opposite direction.