JP2832948B2 - Battery holder - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to a battery holder suitable for holding a large number of cylindrical batteries aligned in the diameter direction.

[Summary of the Invention]

According to the present invention, a large number of cylindrical batteries can be housed in multiple layers while being aligned in the diameter direction, and by providing ribs in the gaps between the multiple layers of batteries, the large number of batteries can be either single-layer or multiple-layer. It is a battery holder that can be aligned and stored reliably and easily even in a state.

[Conventional technology]

Portable VTRs integrated with video cameras have become so-called cordless with the reduction in power consumption.

Conventionally, nickel cadmium rechargeable batteries (hereinafter abbreviated as Ni-Cd batteries) are mainly used as the power source because of the capability of discharging a large current and the voltage during the discharge is substantially constant. I was

For example, if a 6 V, 1 AH Ni-Cd battery pack is used, a camera-integrated VTR consuming about 5 W can be operated continuously for about one hour.

On the other hand, among the primary batteries, an alkaline manganese dry battery (hereinafter abbreviated as an alkaline battery) can discharge a large amount of current, has a large capacity, and is very easily available.
Recently, several small alkaline batteries have been loaded into the battery case,
It has been used as a power source for small VTRs.

As shown in FIG. 6, this battery case (10) is a cylindrical (so-called AA) alkaline battery (1) having a diameter of 14 mm and a height of 50 mm, and a case body (11) made of synthetic resin.
Then, for example, six batteries are arranged in the diameter direction, and each alkaline battery is connected in series by a connecting piece (not shown) to be used as a pack. (12) is a lid, which is rotatably connected to one end of the case body (11).

Thus, similarly to the above-described Ni-Cd battery pack, a VTR consuming approximately 5 W of power can be continuously operated for approximately one hour.

It should be noted that both the alkaline battery pack and the Ni-Cd battery pack are used by being mounted on the back of the camera-integrated VTR.

[Problems to be solved by the invention]

By the way, in the case of a camera-integrated VTR, it is desirable that the operation time be long in order not to miss a shooting opportunity, and a long-time Ni-Cd battery pack having twice the capacity as described above is also prepared.

On the other hand, in order to increase the capacity of the above-mentioned alkaline battery pack, six alkaline batteries are changed from AA size to 25 mm in diameter,
There are a method of increasing the size of the battery to a single AA type having a height of 50 mm, and a method of adding six AA alkaline batteries.

However, according to the former method, there is a problem that the battery pack becomes too large, and when mounted on the back of the VTR, the usability of the camera-integrated VTR deteriorates.

According to the latter method, the size of the battery case is VT
Although it can be suppressed to the extent that it can be mounted on the back of the R, there is a problem that the number of batteries becomes large and it becomes difficult to load it into the battery case.

In view of such a point, an object of the present invention is to provide a battery holder which can reliably and easily arrange and store a large number of cylindrical batteries and can easily load the battery case.

[Means for Solving the Problems] The present invention is a battery holder for storing a plurality of cylindrical batteries in an assembled state by facing a plurality of layers arranged in parallel to form a battery holder, Consists of a half holder having a holder wall for accommodating the assembled batteries from both end sides in a united manner, and the bottom surfaces of both half holders that are opened are connected bands to prevent the batteries from coming off and to expose the electrodes. And a partition rib for positioning and holding the batteries in the parallel direction and the layer direction on the inner wall surfaces of both half holders.

[Action]

According to this configuration, a large number of batteries can be reliably and easily aligned and stored in the holder without being displaced in the parallel direction or the layer direction.

〔Example〕

Hereinafter, an embodiment of the battery holder according to the present invention will be described with reference to FIGS. 1 to 5.

1 to 3 show the configuration of an embodiment of the present invention, and FIGS. 4 and 5 show the configuration of a battery case according to the present invention.

 In FIGS. 1 to 3, (20_A) And (20_B) Is the same
Shaped half holder, capable of high precision molding,
So-called engineered plastics, such as
Iron 6 Is molded to a thickness of about 0.5 mm.

As shown in FIGS. 2 and 3, both half holders (20
_In ( _A ) and ( _20B ), twelve AA alkaline batteries (1) are aligned and housed in two layers and six rows vertically and horizontally and combined to form a battery holder (20). Twelve alkaline batteries are easily loaded in a battery case (10D) as shown in FIG. 4 in a state of being stored in the battery holder (20).

When twelve alkaline batteries are arranged in a staggered arrangement, there are disadvantages such as unnecessary spaces at both ends and the need for two half-case molds.

In Figure 1, the width direction of the side wall of the half-holder (20 _A) and (20 _B) (21) and (22), as previously described two-layer 6
To accommodate the alkaline battery of the column, mainly composed of six cylindrical portions each (21 ₁₎ to (21 ₆₎ and (22 ₁₎ to (22 _6). The cylindrical portion of the end (21 ₁₎ and (22 ₁₎ of the recess (23 ₁₎ while being connected by a cylindrical portion of the other end (2
1 ₆₎ and (22 ₆₎ is connected by a recess (24 _6), the depth direction of the side wall (23) and (24) are formed. The six cylindrical portions (21 ₁ ) to (21 ₆ ) on one side are concave portions (25 ₁ ), respectively.
~ Linked via (25 _5), six of the cylindrical portion of the other side (22 ₁₎ to (22 ₆₎ are connected via a recess (26 ₁₎ to (26 _5), respectively.

The bottom surface (27) of the half holder (20 _A) and (20 _B) is
The cylindrical parts (21 ₁ ), (2) at each end of the side walls (21) and (22)
1 _6), (over 22 ₁₎ and (22 _6), the notch (28 _1),
(28 _6), (29 ₁₎ and (29 ₆₎ with is provided, four sets of the cylindrical portion corresponding respective sides (21 _2), (22 _2);
(21 _3), (22 _3); (21 _4), (22 ₄₎ and (21 _5), (2
2 ₅₎ notches over (28 _2), (28 _3), (28 ₄₎ and (2
8 ₅ ) is provided.

As a result, the concave portions (25 ₂ ) and (26 ₂ ) on both sides;
5 ₃ ), (26 ₃ ) and (25 ₄ ), (26 ₄ ) are formed with “I” -shaped connecting bands (27 ₂ ), (27 ₃ ) and (27 ₄ ), respectively. "T" -shaped connecting bands (27 ₁ ) and (27 ₅ )
There the three recesses at both ends (23 _1), (25 _1), (26 ₁₎ and (24 _6), is formed between the (25 _5), (26 _5).

The outermost recesses (25 ₁ ), (2) of the side walls (21) and (22)
5 _5); (26 _1), (continuous with 26 _5), two pairs of coupling pins (31) and receiving hole (32) is provided.

Each recess (23 _1), (24 _6), (25 ₁₎ to (25 ₅₎ and (26
Inside the ₁₎ ~ (26 _5), substantially over the entire length, the ribs (33 _1), (34 _6), (35 ₁₎ to (35 ₅₎ and (36 ₁₎ to (3
6 ₅₎ with are provided, each connecting band (27 ₁₎ to (27 ₅₎ of the ribs (37 ₁ in the central portion of the inner side) - (37 ₅₎ is provided.

Twelve alkaline batteries having the same polarity can be easily inserted into one half holder ( _20B ) having such a configuration. Thereafter, if the other half holder (20 _A ) is connected, the alignment is not disturbed by being held by the cylindrical portions of the side walls and the ribs provided in the concave portion and the connecting band.

The anode (1p) and the cathode (1n) each notch of each half holder (20 _A) and _{(20 B) (28 1)} ~ (28 6) of each alkaline battery (1), (29 _1), ( 29 ₆₎ are exposed respectively from, when loaded into a battery case (10D), respectively abut on the connecting piece.

In the case where six alkaline batteries are arranged and stored in a single layer in the battery holder of the present embodiment, the alignment of the batteries is not disturbed in the same manner as described above. , VTR can be operated.

Next, the battery case according to the present invention will be described with reference to FIG. 4 and FIG.

In FIG. 4, reference numeral (10D) denotes a battery case, which is substantially equal in width, slightly larger in depth and approximately twice as high as the conventional battery case (10) in FIG. And
Normally, 12 AA alkaline batteries stored in the above-mentioned battery holder in two layers and six rows are loaded.

(13) is a display circuit storage part, the upper surface (13t)
For example, three light emitting diodes (14g), (14g) and (14g) having different emission colors, such as green, yellow, and red, respectively.
y) and (14r), and correspondingly, the lid (12
D) is provided with a through hole (12a).

Ribs (13r) are provided on the inner wall (13s) of the display circuit housing (13) at intervals smaller than the diameter of the cathode of the alkaline battery to prevent incorrect loading with the battery polarity reversed. Is done.

As shown in FIG. 5, in the battery case (10D), the loaded two-layer alkaline batteries are respectively connected in series to form two series (1Sa) and (1Sb), and the diode (16a) And (16b) are connected in parallel with each other. As a result, the capacities of both series alkaline batteries (1Sa) and (1Sb) are added to double the capacity of the pack. In addition, when a voltage difference occurs between the two lines (1Sa) and (1Sb) due to variations in individual batteries, current is prevented from flowing from one line to the other line.

The output current from both diodes (16a) and (16b) is
Reed relay (17) coil (17c) and output terminal (18
Through a), it is supplied to a camera-integrated VTR (2) as a load. When the VTR (2) is in operation, the reed switch (17) is set based on the current flowing through the coil (17c).
s) is closed, and the output voltages of the diodes (16a) and (16b) are supplied to the voltage display circuit (15).

Although not shown, the voltage display circuit (15) includes three voltage comparators, each of which detects a predetermined voltage as described later, and outputs the diodes (14g), (14y), and (14).
r) sequentially emits light, and the remaining capacity of the batteries (1Sa) and (1Sb) is displayed.

The characteristics of the voltage display circuit (15) are, for example, as shown in Table 1 below, and the user can recognize the remaining capacity of the alkaline battery by the lighting state of the light emitting diode.

In the above-described embodiment, the cylindrical battery is an alkaline manganese dry battery, but may be a cylindrical Ni-Cd secondary battery.

〔The invention's effect〕

As described above in detail, according to the present invention, the battery holder comprises a half holder for accommodating the assembled batteries from both ends in a united manner, and the opening for exposing the battery electrode on the bottom surface of each of the two half holders. And the partition ribs for positioning and holding the batteries in the parallel direction and the layer direction are formed on the inner wall surfaces of both half holders, so that a large number of batteries can be reliably and easily aligned and stored without being displaced in the holder. Can be.

[Brief description of the drawings]

FIG. 1 is a perspective view showing the configuration of an embodiment of a battery holder according to the present invention, FIGS. 2 and 3 are plan views and front views of an embodiment of the present invention, and FIGS. FIG. 6 is a perspective view and a connection diagram showing a configuration of a battery case according to the invention, and FIG. 6 is a perspective view showing a configuration example of a conventional battery case. (10D) is a battery case, (14g), (14y) and (14r) are light emitting diodes, (20) is a battery holder, (20 _A ) and (20 _B )
Half holder (33 _1), (34 _6), (35 ₁₎ to (3
5 _5), (36 ₁₎ to (36 _5), (37 ₁₎ to (37 ₅₎ are ribs.

Claims (2)

(57) [Claims] 1. A battery holder for accommodating a plurality of cylindrical batteries in an assembled state by opposing a plurality of layers arranged in parallel to form a plurality of layers, wherein the battery holder is a battery in the assembled state. , And a half-holder having a holder wall for accommodating the two ends from the both end sides. A battery rib, wherein a partition rib for positioning and holding the batteries in a parallel direction and a partition rib for positioning and holding the batteries in a layer direction are formed on inner wall surfaces of the two half holders. 2. A battery holder according to claim 1, wherein partition ribs for positioning and holding said batteries simultaneously in a parallel direction and a layer direction are formed on the back surface of a connecting band of said half holders.