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JP5477613B2 - Battery storage device - Google Patents
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JP5477613B2 - Battery storage device - Google Patents

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JP5477613B2
JP5477613B2 JP2008127872A JP2008127872A JP5477613B2 JP 5477613 B2 JP5477613 B2 JP 5477613B2 JP 2008127872 A JP2008127872 A JP 2008127872A JP 2008127872 A JP2008127872 A JP 2008127872A JP 5477613 B2 JP5477613 B2 JP 5477613B2
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battery
contact
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JP2009277513A (en
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陽一 五十嵐
英伸 前田
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Yokogawa Electric Corp
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
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    • Y02E60/10Energy storage using batteries

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Description

本発明は、電池収納装置に関するものである。   The present invention relates to a battery storage device.

電池収納装置に関連する先行技術文献としては次のようなものがある。   Prior art documents related to the battery storage device include the following.

特開2004−199957号公報Japanese Patent Laid-Open No. 2004-199957 特開2007−329005号公報JP 2007-329005 A

図6は従来より一般に使用されている従来例の要部構成説明図、図7は図6の要部構成説明図で、図6の矢印A
より見た図である。
図において、電池収納ケース1は、ケース本体2とカバー3とを有する。
電池収納ケース1には、電池4,5が収納されている。
この場合は、単1電池が使用されている。
FIG. 6 is a diagram illustrating the configuration of the main part of a conventional example that is generally used, and FIG. 7 is a diagram illustrating the configuration of the main part of FIG.
FIG.
In the figure, the battery storage case 1 has a case body 2 and a cover 3.
Batteries 4 and 5 are stored in the battery storage case 1.
In this case, a single battery is used.

電池4と電池5とが、端子6と円錐コイルばね端子7を経由して直列に接続され、プレート端子8と円錐コイルばね端子9を有する回路基板11を介してコネクタ部12,13より電力供給を行う。
電池4,5のプラス極側の端子が、ばね性のない固定端子6,8であり、電池4,5のマイナス極側の端子が円錐コイルばね7,9で構成されている。
The battery 4 and the battery 5 are connected in series via the terminal 6 and the conical coil spring terminal 7, and power is supplied from the connector parts 12 and 13 via the circuit board 11 having the plate terminal 8 and the conical coil spring terminal 9. I do.
The terminals on the positive pole side of the batteries 4 and 5 are fixed terminals 6 and 8 having no spring property, and the terminals on the negative pole side of the batteries 4 and 5 are constituted by conical coil springs 7 and 9.

このような装置においては、以下の間題点がある。
電池4,5と端子間の瞬断時に、電気容量を確保するコンデンサを有することが防爆規格上許されない電池収納装置においては、振動のない静止状態では、電池4,5のマイナス極側の端子が円錐コイルばね7,9のため、ばね力により電池4,5と端子間の瞬断及び接触不良は起きない。
Such an apparatus has the following problems.
In a battery housing device that does not allow a capacitor to ensure electric capacity at the time of a momentary disconnection between the batteries 4 and 5 and the terminal, the terminal on the negative pole side of the batteries 4 and 5 in a stationary state without vibration However, the conical coil springs 7 and 9 do not cause a momentary disconnection or poor contact between the batteries 4 and 5 and the terminals due to the spring force.

しかし、振動状態では、電池4,5のプラス極側の端子が、ばね性のない固定端子6,8のため電池4,5と端子間の瞬断及び接触不良が振動加速度により発生し、振動状態での、例えば、無線通信機器等のエラーを引き起こしてしまう。   However, in the vibration state, since the terminals on the positive pole side of the batteries 4 and 5 are fixed terminals 6 and 8 having no spring property, instantaneous interruption and contact failure between the batteries 4 and 5 and the terminals occur due to vibration acceleration, and vibrations occur. For example, an error of a wireless communication device or the like is caused in the state.

図6において、振動状態での電池4,5と端子間の瞬断及び接触不良を解決するためには、電池単体質量約100(g)に対して、50倍のばね押さえ力50(N)が必要となるが、使用する電池の許容押さえ力は20(N)のため、その仕様を満たすことができない。また荷重が大きいためその組立作業性が問題となる。   In FIG. 6, in order to solve the instantaneous interruption and poor contact between the batteries 4 and 5 and the terminals in the vibration state, the spring pressing force 50 (N) 50 times the mass of the battery alone is about 100 (g). However, since the allowable holding force of the battery used is 20 (N), the specification cannot be satisfied. Moreover, since the load is large, the assembly workability becomes a problem.

電池4,5を誤挿入(逆挿し)した状態で、たとえば、無線通信形差圧伝送器に使用すると、電池4,5のプラス極と端子のマイナス極7,9の接触(通電)と電池のマイナス極と端子のプラス極6,8の接触(通電)のため、電池に過電流が発生し、電池の異常発熱や液洩れが生じる故障を引き起こしてしまう。   When the batteries 4 and 5 are erroneously inserted (reversely inserted), for example, when used in a wireless communication type differential pressure transmitter, the contact (energization) between the positive poles of the batteries 4 and 5 and the negative poles 7 and 9 of the terminals and the battery As a result of contact (energization) between the negative pole of the terminal and the positive poles 6 and 8 of the terminal, an overcurrent is generated in the battery, resulting in a malfunction that causes abnormal heat generation and leakage of the battery.

本発明の目的は、上記の課題を解決するもので、振動状態においても、瞬断及び接触不良を起こさない、電池収納装置を提供することにある。
また、電池の許容押さえ力を満たし、その組立作業性も良好な電池収納装置を提供することにある。
また、電池を誤挿入しても、電池に過電流が発生せず、電池の異常発熱や液洩れが生じない電池収納装置を提供することにある。
An object of the present invention is to solve the above-described problems, and to provide a battery storage device that does not cause instantaneous interruption and contact failure even in a vibration state.
Another object of the present invention is to provide a battery storage device that satisfies the allowable holding force of the battery and has good assembly workability.
It is another object of the present invention to provide a battery storage device that does not cause overcurrent in the battery even if the battery is erroneously inserted, and does not cause abnormal heat generation or leakage of the battery.

このような課題を達成するために、本発明では、請求項1の電池収納装置においては、
プラス端子とマイナス端子とを有し電池が収納される電池収納装置において、
開口部分から第1,第2の2個の前記電池の一方部分が前記電池の中心軸方向に挿入され前記開口部分に設けられた雌ねじ部を有するケース本体と
前記プラス端子とマイナス端子とが設けられ前記電池の他方部分を覆い開口部分に設けられた雌ねじ部を有し前記雌ねじ部に前記雄ねじ部が固定されてケース本体の前記開口部分に開口部分が固定されるカバーと
を有する電池収納ケースと、
前記カバーに設けられ前記プラス端子に一端が接続され他端が前記第1の電池のプラス極に接する第1のプラス極コイルスプリングと、
前記カバーに設けられ前記マイナス端子に一端が接続され他端が前記第2の電池のマイナス極に接し前記電池のプラス極の凸部との誤接触を回避できるように前記凸部より大きな内径を有する第1のマイナス極コイルスプリングと、
前記ケース本体に設けられ一端が前記第2の電池のプラス極に接する第2のプラス極コイルスプリングと、
前記ケース本体に設けられ一端が前記第2のプラス極コイルスプリングに接続され他端が前記第1の電池のマイナス極に接し前記電池のプラス極の凸部との誤接触を回避できるように前記凸部より大きな内径を有する第2のマイナス極コイルスプリングと、
を具備したことを特徴とする電池収納装置。
In order to achieve such a subject, in the present invention, in the battery storage device of claim 1,
In a battery storage device that has a positive terminal and a negative terminal and stores a battery,
From the opening portion first, and a second two of said one portion the case main body that having a female screw portion provided in the inserted the opening portion in the central axis direction of the battery positive and negative terminals of the battery And a cover that covers the other part of the battery and has an internal thread part provided in the opening part, the male thread part being fixed to the internal thread part, and the opening part being fixed to the opening part of the case body. A storage case,
A first positive electrode coil spring provided on the cover and having one end connected to the positive terminal and the other end in contact with the positive electrode of the first battery;
An inner diameter larger than the convex portion is provided so that one end of the negative terminal is connected to the negative terminal of the cover and the other end is in contact with the negative pole of the second battery so as to avoid erroneous contact with the positive pole convex portion of the battery. A first negative pole coil spring having;
A second positive electrode coil spring provided on the case body and having one end in contact with the positive electrode of the second battery;
The case body has one end connected to the second positive electrode coil spring and the other end in contact with the negative electrode of the first battery so as to avoid erroneous contact with the positive electrode protrusion of the battery. A second negative pole coil spring having an inner diameter larger than the convex portion;
A battery storage device comprising:

本発明の請求項2の電池収納装置においては、
プラス端子とマイナス端子とを有し電池が収納される電池収納装置において、
開口部分から第1,第2の2個の前記電池の一方部分が前記電池の中心軸方向に挿入され前記開口部分に設けられた雌ねじ部を有するケース本体と
前記プラス端子とマイナス端子とが設けられ前記電池の他方部分を覆い開口部分に設けられた雄ねじ部を有し前記雌ねじ部に前記雄ねじ部が固定されてケース本体の前記開口部分に開口部分が固定されるカバーと
を有する電池収納ケースと、
前記カバーに設けられ前記プラス端子に一端が接続され他端が前記第1の電池のプラス極に接する第1のプラス極板ばねと、
前記カバーに設けられ前記マイナス端子に一端が接続され他端が前記第2の電池のマイナス極に接する第1のマイナス極板ばねと、
この第1のマイナス極板ばねに設けられ前記電池のプラス極の凸部との誤接触を回避できるように前記凸部より大きな直径を有する第1の凸部回避穴と、
前記ケース本体に設けられ一端が前記第2の電池のプラス極に接する第2のプラス極板ばねと、
前記ケース本体に設けられ一端が前記第2のプラス極板ばねに接続され他端が前記第1の電池のマイナス極に接する第2のマイナス極板ばねと、
この第2のマイナス極板ばねに設けられ前記電池のプラス極の凸部との誤接触を回避できるように前記凸部より大きな直径を有する第2の凸部回避穴と、
を具備したことを特徴とする電池収納装置。

In the battery storage device of claim 2 of the present invention,
In a battery storage device that has a positive terminal and a negative terminal and stores a battery,
From the opening portion first, and a second two of said one portion the case main body that having a female screw portion provided in the inserted the opening portion in the central axis direction of the battery positive and negative terminals of the battery And a cover having an external thread portion that covers the other portion of the battery and is provided in an opening portion, the external thread portion being fixed to the internal thread portion, and an opening portion being fixed to the open portion of the case body. A storage case,
A first positive electrode leaf spring provided on the cover and having one end connected to the positive terminal and the other end in contact with the positive electrode of the first battery;
A first negative electrode leaf spring provided on the cover and having one end connected to the negative terminal and the other end in contact with the negative electrode of the second battery;
A first protrusion avoiding hole provided in the first negative electrode leaf spring and having a larger diameter than the protrusion so as to avoid erroneous contact with the positive electrode protrusion of the battery;
A second positive electrode leaf spring provided on the case body and having one end in contact with the positive electrode of the second battery;
A second negative electrode leaf spring provided on the case body, having one end connected to the second positive electrode leaf spring and the other end in contact with the negative electrode of the first battery;
A second protrusion avoiding hole provided in the second negative electrode leaf spring and having a diameter larger than the protrusion so as to avoid erroneous contact with the positive electrode protrusion of the battery;
A battery storage device comprising:

本発明によれば、次のような効果がある。
電池と端子間の瞬断時に電気容量を確保するコンデンサを有することが防爆規格上許されない電池収納装置において、電池両極側の端子をコイルばね端子にすることによって、静止状態だけでなく振動状態でも振動加速度で発生する電池の動きにコイルばね端子が追従し、常に接触を保つことができる。
したがって電池と端子間の瞬断及び接触不良を起こさず、振動状態での接触エラーを防止することができる電池収納装置が得られる。
The present invention has the following effects.
In battery storage devices that are not permitted by explosion-proof standards to have a capacitor that secures electric capacity at the moment of instantaneous disconnection between the battery and the terminal, by making the terminal on both sides of the battery a coil spring terminal, not only in a stationary state but also in a vibrating state The coil spring terminal follows the movement of the battery generated by the vibration acceleration and can always keep contact.
Therefore, a battery storage device capable of preventing a contact error in a vibration state without causing a momentary disconnection or contact failure between the battery and the terminal can be obtained.

電池両極側の端子をコイルばね端子にすることによって、振動状態に対して大きな荷重で電池を押さえなくてもよいので、使用する電池の許容押さえ力の仕様を満たすことができる。
また、大きな荷重にはならないのでその組立作業性が改善される電池収納装置が得られる。
By using a coil spring terminal as the terminal on both sides of the battery, it is not necessary to hold the battery with a large load against the vibration state, so that the specification of the allowable holding force of the battery to be used can be satisfied.
In addition, since the load is not large, a battery storage device with improved assembly workability can be obtained.

製品に使用する電池を誤挿入(逆挿し)した場合、電池のプラス極は凸部箇所以外が電気絶縁されているおり、マイナス極の円筒コイルばね端子のばね頂部内径が、電池プラス極の凸部より大きいため、凸部に接触(通電)しない。
このため電池を誤挿入(逆挿し)した状態で無線通信機器等に使用した場合でも、電池に過電流が発生することはなく、電池の異常発熱や液洩れが生じる故障が起きない電池収納装置が得られる。
If the battery used for the product is inserted incorrectly (reversely inserted), the positive pole of the battery is electrically insulated except for the convex part, and the inner diameter of the top of the cylindrical coil spring terminal of the negative pole is Because it is larger than the part, it does not contact (energize) the convex part.
For this reason, even if the battery is inserted in the wrong (reversely inserted) state in a wireless communication device, etc., the battery will not cause overcurrent, and the battery storage device will not cause abnormal battery heat generation or liquid leakage Is obtained.

以下本発明を図面を用いて詳細に説明する。
図1は本発明の一実施例の要部構成説明図、図2は図1の要部構成説明図、図3は図1のケースの組立説明図である。
図において、図6と同一記号の構成は同一機能を表す。
以下、図6との相違部分のみ説明する。
Hereinafter, the present invention will be described in detail with reference to the drawings.
FIG. 1 is an explanatory view of the main part configuration of one embodiment of the present invention, FIG. 2 is an explanatory view of the main part structure of FIG. 1, and FIG. 3 is an assembly explanatory view of the case of FIG.
In the figure, the same symbol structure as in FIG. 6 represents the same function.
Only the difference from FIG. 6 will be described below.

図1において、電池4と電池5とがプラス極コイルスプリング21Aとマイナス極コイルスプリング22Aとを経由して直列に接続され、プラス極コイルスプリング21Bとマイナス極コイルスプリング22Bとを有する回路基板23を介してコネクタ部12,13より電力供給を行う。
プラス極コイルスプリング21A,21Bは、この場合は、円錐コイルばねが使用され、ばね頂部が電池のプラス極の凸部4A、5Aと接触する。
In FIG. 1, a battery 4 and a battery 5 are connected in series via a plus pole coil spring 21A and a minus pole coil spring 22A, and a circuit board 23 having a plus pole coil spring 21B and a minus pole coil spring 22B is provided. Power is supplied from the connector portions 12 and 13 via the connector.
In this case, the positive electrode coil springs 21A and 21B are conical coil springs, and the tops of the springs are in contact with the positive electrode protrusions 4A and 5A of the battery.

マイナス極コイルスプリング22A,22Bは、この場合は、円筒コイルばねが使用され、電池のプラス極の凸部4A、5Aに誤接触しないように、凸部4A、5Aより大きな内径を有し、電池のマイナス極と接触する。
そして、ケース本体2とカバー3とは、ねじ1Aとねじ1Bとにより固定されるので、電池両極側ともコイルバネ端子でも組立作業性に問題は生じない。
In this case, the negative pole coil springs 22A and 22B are cylindrical coil springs, and have a larger inner diameter than the convex portions 4A and 5A so as not to accidentally contact the positive pole convex portions 4A and 5A of the battery. In contact with the negative pole.
Since the case main body 2 and the cover 3 are fixed by the screws 1A and 1B, there is no problem in assembling workability even if both the battery poles are coil spring terminals.

この結果、
電池と端子間の瞬断時に電気容量を確保するコンデンサを有することが防爆規格上許されない電池収納装置において、電池両極側の端子をコイルばね端子21A,21B,22A,22Bにすることによって、静止状態だけでなく振動状態でも振動加速度で発生する電池の動きにコイルばね端子21A,21B,22A,22Bが追従し、常に接触を保つことができる。
したがって電池と端子間の瞬断及び接触不良を起こさず、振動状態での接触エラーを防止することができる電池収納装置が得られる。
As a result,
In a battery storage device that does not allow a capacitor to ensure electric capacity at the time of a momentary disconnection between a battery and a terminal, the terminals on both sides of the battery are coil spring terminals 21A, 21B, 22A, and 22B. The coil spring terminals 21A, 21B, 22A, and 22B follow the movement of the battery generated by vibration acceleration not only in the state but also in the vibration state, and can always maintain contact.
Therefore, a battery storage device capable of preventing a contact error in a vibration state without causing a momentary disconnection or contact failure between the battery and the terminal can be obtained.

電池両極側の端子をコイルばね端子21A,21B,22A,22Bにすることによって、振動状態に対して大きな荷重で電池を押さえなくてもよいので、使用する電池の許容押さえ力の仕様を満たすことができる。
また、大きな荷重にはならないのでその組立作業性が改善される電池収納装置が得られる。
By using coil spring terminals 21A, 21B, 22A, and 22B as the terminals on both sides of the battery, it is not necessary to hold the battery with a large load against the vibration state, so that the specification of the allowable holding force of the battery to be used is satisfied. Can do.
In addition, since the load is not large, a battery storage device with improved assembly workability can be obtained.

製品に使用する電池を誤挿入(逆挿し)した場合、電池のプラス極は凸部箇所以外が電気絶縁されているおり、マイナス極の円筒コイルばね端子22A,22Bのばね頂部内径が、電池プラス極の凸部より大きいため、凸部に接触(通電)しない。
このため電池を誤挿入(逆挿し)した状態で無線通信機器等に使用した場合でも、電池に過電流が発生することはなく、電池の異常発熱や液洩れが生じる故障が起きない電池収納装置が得られる。
If the battery used for the product is inserted incorrectly (reversely inserted), the positive pole of the battery is electrically insulated except for the convex part, and the inner diameter of the spring top portion of the cylindrical coil spring terminals 22A, 22B of the negative pole is the battery plus Because it is larger than the convex part of the pole, it does not contact (energize) the convex part.
For this reason, even if the battery is inserted in the wrong (reversely inserted) state in a wireless communication device, etc., the battery will not cause overcurrent, and the battery storage device will not cause abnormal battery heat generation or liquid leakage Is obtained.

図4は、本発明の他の実施例の要部構成説明図である。
図4において、電池4と電池5とがプラス極板ばね31Aとマイナス極板ばね32Aとを経由して直列に接続され、プラス極板ばね31Bとマイナス極板ばね32Bとを有する回路基板33を介してコネクタ部12,13より電力供給を行う。
FIG. 4 is an explanatory view of the main part configuration of another embodiment of the present invention.
In FIG. 4, a battery 4 and a battery 5 are connected in series via a positive electrode plate spring 31A and a negative electrode plate spring 32A, and a circuit board 33 having a positive electrode plate spring 31B and a negative electrode plate spring 32B is provided. Power is supplied from the connector portions 12 and 13 via the connector.

そして、凸部回避穴34A,34Bは、マイナス極板ばね32A,32Bに設けられ、電池4,5のプラス極の凸部との誤接触を回避できるように、凸部より大きな直径を有する。
この場合は、図5に示す如く、プラス極板ばね31Aとマイナス極板ばね32Aとは、一体的に構成されている。
And the convex part avoidance holes 34A and 34B are provided in the negative electrode leaf | plate springs 32A and 32B, and have a larger diameter than a convex part so that the erroneous contact with the convex part of the positive pole of the batteries 4 and 5 can be avoided.
In this case, as shown in FIG. 5, the plus pole plate spring 31A and the minus pole plate spring 32A are integrally formed.

この結果、
電池と端子間の瞬断時に電気容量を確保するコンデンサを有することが防爆規格上許されない電池収納装置において、電池両極側の端子を板ばね31A,31B,32A,32Bにすることによって、静止状態だけでなく振動状態でも振動加速度で発生する電池の動きに板ばね31A,31B,32A,32Bが追従し、常に接触を保つことができる。
したがって電池と端子間の瞬断及び接触不良を起こさず、振動状態での接触エラーを防止することができる電池収納装置が得られる。
As a result,
In a battery storage device that does not allow a capacitor to secure an electric capacity at the time of a momentary disconnection between a battery and a terminal, the terminals on both sides of the battery are made leaf springs 31A, 31B, 32A, and 32B to be in a stationary state. In addition, the leaf springs 31A, 31B, 32A, and 32B can follow the movement of the battery generated by vibration acceleration even in a vibration state, and can always keep contact.
Therefore, a battery storage device capable of preventing a contact error in a vibration state without causing a momentary disconnection or contact failure between the battery and the terminal can be obtained.

電池両極側の端子を板ばね31A,31B,32A,32Bにすることによって、振動状態に対して大きな荷重で電池を押さえなくてもよいので、使用する電池の許容押さえ力の仕様を満たすことができる。
また、大きな荷重にはならないのでその組立作業性が改善される電池収納装置が得られる。
By using leaf springs 31A, 31B, 32A, and 32B as terminals on both sides of the battery, it is not necessary to hold the battery with a large load against the vibration state, so that the specification of the allowable holding force of the battery to be used is satisfied. it can.
In addition, since the load is not large, a battery storage device with improved assembly workability can be obtained.

製品に使用する電池を誤挿入(逆挿し)した場合、電池のプラス極は凸部箇所以外が電気絶縁されているおり、マイナス極の板ばね32A,32Bの凸部回避穴34A,34Bが、電池プラス極の凸部より大きいため、凸部に接触(通電)しない。
このため電池を誤挿入(逆挿し)した状態で無線通信機器等に使用した場合でも、電池に過電流が発生することはなく、電池の異常発熱や液洩れが生じる故障が起きない電池収納装置が得られる。
When a battery used for a product is inserted incorrectly (reversely inserted), the positive pole of the battery is electrically insulated except for the convex portion, and the convex avoidance holes 34A and 34B of the negative electrode leaf springs 32A and 32B are Since it is larger than the convex part of the battery positive electrode, it does not contact (energize) the convex part.
For this reason, even if the battery is inserted in the wrong (reversely inserted) state in a wireless communication device, etc., the battery will not cause overcurrent, and the battery storage device will not cause abnormal battery heat generation or liquid leakage Is obtained.

なお、以上の説明は、本発明の説明および例示を目的として特定の好適な実施例を示したに過ぎない。
したがって本発明は、上記実施例に限定されることなく、その本質から逸脱しない範囲で更に多くの変更、変形をも含むものである。
The above description merely shows a specific preferred embodiment for the purpose of explanation and illustration of the present invention.
Therefore, the present invention is not limited to the above-described embodiments, and includes many changes and modifications without departing from the essence thereof.

本発明の一実施例の要部構成説明図である。It is principal part structure explanatory drawing of one Example of this invention. 図1の要部構成説明図である。It is principal part structure explanatory drawing of FIG. 図1のケースの組立説明図である。It is assembly explanatory drawing of the case of FIG. 本発明の他の実施例の要部構成説明図である。It is principal part structure explanatory drawing of the other Example of this invention. 図4の要部構成説明図である。It is principal part structure explanatory drawing of FIG. 従来より一般に使用されている従来例の構成説明図である。It is structure explanatory drawing of the prior art example generally used conventionally. 図6の要部構成説明図である。It is principal part structure explanatory drawing of FIG.

符号の説明Explanation of symbols

1 電池収納ケース
1A ねじ
1B ねじ
2 ケース本体
3 カバー
4 電池
4A 電池のプラス極の凸部
5 電池
5A 電池のプラス極の凸部
6 端子
7 円錐コイルばね端子
8 プレート端子
9 円錐コイルばね端子
11 回路基板
12 コネクタ部
13 コネクタ部
21A プラス極コイルスプリング
21B プラス極コイルスプリング
22A マイナス極コイルスプリング
22B マイナス極コイルスプリング
23 回路基板
31A プラス極板ばね
31B プラス極板ばね
32A マイナス極板ばね
32B マイナス極板ばね
33 回路基板
34A 凸部回避穴
34B 凸部回避穴
DESCRIPTION OF SYMBOLS 1 Battery storage case 1A Screw 1B Screw 2 Case main body 3 Cover 4 Battery 4A Battery positive electrode convex part 5 Battery 5A Battery positive electrode convex part 6 Terminal 7 Conical coil spring terminal 8 Plate terminal 9 Conical coil spring terminal 11 Circuit Substrate 12 Connector portion 13 Connector portion 21A Plus pole coil spring 21B Plus pole coil spring 22A Minus pole coil spring 22B Minus pole coil spring 23 Circuit board 31A Plus pole leaf spring 31B Plus pole leaf spring 32A Minus pole leaf spring 32B Minus pole leaf spring 33 Circuit board 34A Convex avoidance hole 34B Convex avoidance hole

Claims (2)

プラス端子とマイナス端子とを有し電池が収納される電池収納装置において、
開口部分から第1,第2の2個の前記電池の一方部分が前記電池の中心軸方向に挿入され前記開口部分に設けられた雌ねじ部を有するケース本体と
前記プラス端子とマイナス端子とが設けられ前記電池の他方部分を覆い開口部分に設けられた雄ねじ部を有し前記雌ねじ部に前記雄ねじ部が固定されてケース本体の前記開口部分に開口部分が固定されるカバーと
を有する電池収納ケースと、
前記カバーに設けられ前記プラス端子に一端が接続され他端が前記第1の電池のプラス極に接する第1のプラス極コイルスプリングと、
前記カバーに設けられ前記マイナス端子に一端が接続され他端が前記第2の電池のマイナス極に接し前記電池のプラス極の凸部との誤接触を回避できるように前記凸部より大きな内径を有する第1のマイナス極コイルスプリングと、
前記ケース本体に設けられ一端が前記第2の電池のプラス極に接する第2のプラス極コイルスプリングと、
前記ケース本体に設けられ一端が前記第2のプラス極コイルスプリングに接続され他端が前記第1の電池のマイナス極に接し前記電池のプラス極の凸部との誤接触を回避できるように前記凸部より大きな内径を有する第2のマイナス極コイルスプリングと、
を具備したことを特徴とする電池収納装置。
In a battery storage device that has a positive terminal and a negative terminal and stores a battery,
From the opening portion first, and a second two of said one portion the case main body that having a female screw portion provided in the inserted the opening portion in the central axis direction of the battery positive and negative terminals of the battery And a cover having an external thread portion that covers the other portion of the battery and is provided in an opening portion, the external thread portion being fixed to the internal thread portion, and an opening portion being fixed to the open portion of the case body. A storage case,
A first positive electrode coil spring provided on the cover and having one end connected to the positive terminal and the other end in contact with the positive electrode of the first battery;
An inner diameter larger than the convex portion is provided so that one end of the negative terminal is connected to the negative terminal of the cover and the other end is in contact with the negative pole of the second battery so as to avoid erroneous contact with the positive pole convex portion of the battery. A first negative pole coil spring having;
A second positive electrode coil spring provided on the case body and having one end in contact with the positive electrode of the second battery;
The case body has one end connected to the second positive electrode coil spring and the other end in contact with the negative electrode of the first battery so as to avoid erroneous contact with the positive electrode protrusion of the battery. A second negative pole coil spring having an inner diameter larger than the convex portion;
A battery storage device comprising:
プラス端子とマイナス端子とを有し電池が収納される電池収納装置において、
開口部分から第1,第2の2個の前記電池の一方部分が前記電池の中心軸方向に挿入され前記開口部分に設けられた雌ねじ部を有するケース本体と
前記プラス端子とマイナス端子とが設けられ前記電池の他方部分を覆い開口部分に設けられた雄ねじ部を有し前記雌ねじ部に前記雄ねじ部が固定されてケース本体の前記開口部分に開口部分が固定されるカバーと
を有する電池収納ケースと、
前記カバーに設けられ前記プラス端子に一端が接続され他端が前記第1の電池のプラス極に接する第1のプラス極板ばねと、
前記カバーに設けられ前記マイナス端子に一端が接続され他端が前記第2の電池のマイナス極に接する第1のマイナス極板ばねと、
この第1のマイナス極板ばねに設けられ前記電池のプラス極の凸部との誤接触を回避できるように前記凸部より大きな直径を有する第1の凸部回避穴と、
前記ケース本体に設けられ一端が前記第2の電池のプラス極に接する第2のプラス極板ばねと、
前記ケース本体に設けられ一端が前記第2のプラス極板ばねに接続され他端が前記第1の電池のマイナス極に接する第2のマイナス極板ばねと、
この第2のマイナス極板ばねに設けられ前記電池のプラス極の凸部との誤接触を回避できるように前記凸部より大きな直径を有する第2の凸部回避穴と、
を具備したことを特徴とする電池収納装置。
In a battery storage device that has a positive terminal and a negative terminal and stores a battery,
From the opening portion first, and a second two of said one portion the case main body that having a female screw portion provided in the inserted the opening portion in the central axis direction of the battery positive and negative terminals of the battery And a cover having an external thread portion that covers the other portion of the battery and is provided in an opening portion, the external thread portion being fixed to the internal thread portion, and an opening portion being fixed to the open portion of the case body. A storage case,
A first positive electrode leaf spring provided on the cover and having one end connected to the positive terminal and the other end in contact with the positive electrode of the first battery;
A first negative electrode leaf spring provided on the cover and having one end connected to the negative terminal and the other end in contact with the negative electrode of the second battery;
A first protrusion avoiding hole provided in the first negative electrode leaf spring and having a larger diameter than the protrusion so as to avoid erroneous contact with the positive electrode protrusion of the battery;
A second positive electrode leaf spring provided on the case body and having one end in contact with the positive electrode of the second battery;
A second negative electrode leaf spring provided on the case body, having one end connected to the second positive electrode leaf spring and the other end in contact with the negative electrode of the first battery;
A second protrusion avoiding hole provided in the second negative electrode leaf spring and having a diameter larger than the protrusion so as to avoid erroneous contact with the positive electrode protrusion of the battery;
A battery storage device comprising:
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JPH0636750A (en) * 1992-07-14 1994-02-10 Matsushita Electric Ind Co Ltd Battery reverse connection preventing device
JPH08227703A (en) * 1995-02-22 1996-09-03 Sony Corp Battery storage device
JP2001305624A (en) * 2000-04-21 2001-11-02 Olympus Optical Co Ltd Camera battery storage device
JP2001305623A (en) * 2000-04-21 2001-11-02 Olympus Optical Co Ltd Camera battery loading device
JP4764618B2 (en) * 2003-10-02 2011-09-07 赤 嶺 辰 実 Battery pack
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