JP2018190616A - Battery storing structure - Google Patents

Battery storing structure Download PDF

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JP2018190616A
JP2018190616A JP2017092806A JP2017092806A JP2018190616A JP 2018190616 A JP2018190616 A JP 2018190616A JP 2017092806 A JP2017092806 A JP 2017092806A JP 2017092806 A JP2017092806 A JP 2017092806A JP 2018190616 A JP2018190616 A JP 2018190616A
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battery
piece
take
pair
shaft
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JP6859179B2 (en
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長竹 健樹
Kenju Nagatake
健樹 長竹
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Rhythm Watch Co Ltd
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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
    • Y02E60/00Enabling technologies; Technologies with a potential or indirect contribution to GHG emissions mitigation
    • Y02E60/10Energy storage using batteries

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Abstract

PROBLEM TO BE SOLVED: To obtain battery storing structure from which a battery is easily extracted.SOLUTION: The battery storing structure is provided that comprises: a battery storing part 2; and a battery extraction lever 10 arranged tunably in the battery storing part. The battery storing part 2 comprises a notched part 3. The battery extraction lever 10 comprises a first piece part 11 fittable into the notched part 3 and a second piece part 12 connected to the first piece part. The battery extraction lever 10 is formed in such a manner that the first piece part 11 is positioned at a portion of the notched part 3 of the battery storing part 2, and the second piece part 12 is positioned below the battery when a battery B is stored into the battery storing part 2. The battery B stored in the battery storing part 2 is pushed out from the battery storing part 2 by being pressurized by the second piece part 12 by pushing the first piece part 11 of the battery extraction lever 10 thereby turning the battery extraction lever.SELECTED DRAWING: Figure 17

Description

本発明は、電池収納構造に係り、装着した電池の取り出しが容易化される電池収納構造に関する。   The present invention relates to a battery housing structure, and more particularly to a battery housing structure that facilitates removal of a mounted battery.

玩具や時計などの装置一般に乾電池が多用されており、通常、電池はケースなどに設けられた電池収納部に装着されている。電池収納部は、電池とプラスマイナス極との接触・導通を確実にし、また、その収納を確保するために、マイナス側の極にコイルスプリングを配置して、電池が恒常的に長手方向に押圧付勢されている。   A battery such as a toy or a watch generally uses a dry battery, and the battery is usually mounted in a battery housing provided in a case or the like. The battery compartment ensures contact and conduction between the battery and the plus and minus poles, and in order to ensure that the coil is placed, a coil spring is placed on the minus pole so that the battery is constantly pressed in the longitudinal direction. It is energized.

電池は円筒形のものが多く、電池を取り出す際に指先や爪などで取り出し難いという課題がある。これを解決するものとして、特許第2972663号公報に記載されているように、電池収納部の凹部に、この凹部を横切って帯状のリボンを配置し、必要に応じて当該リボンの先端を引張って電池を取り出すもの(特許文献1)が提案されている。   Many batteries are cylindrical, and there is a problem that it is difficult to take out the battery with a fingertip or a nail when taking out the battery. As a solution to this problem, as described in Japanese Patent No. 2972663, a belt-like ribbon is disposed across the recess in the recess of the battery housing, and the tip of the ribbon is pulled as necessary. A battery taking out a battery (Patent Document 1) has been proposed.

また、特開2013−12348号公報に記載されているように、電池収納部に電池と非当接になる空間を設け、そして電池と当接する部位と非当接の部位との境界を支点として、電池を非当接の部位の方向に押圧し、この非当接の部位に対応する電池の部分を揺動させて、もう一方の側の電池を電池収納部から外部へ突出させて電池を取り出すもの(特許文献2)も提案されている。   Further, as described in Japanese Patent Application Laid-Open No. 2013-12348, a space that does not contact the battery is provided in the battery housing, and the boundary between the part that contacts the battery and the part that does not contact is used as a fulcrum. The battery is pressed in the direction of the non-contact part, the part of the battery corresponding to the non-contact part is swung, and the battery on the other side is protruded outside from the battery housing part. What to take out (patent document 2) is also proposed.

一方、特開平09−306457号公報に記載されているように、電池収納部に配される電池の、プラス側の電極を受けるプラス側端子を回動式の端子板に形成するとともに、その端子板の下側の部位を直角に形成して、端子板とその直角部との間に回転支点となるピンを配置して構成し、必要に応じて当該端子板を押圧してピンを中心に回転させ、電池を斜めに押し上げて取り出すもの(特許文献3)も提案されている(特許文献3)。   On the other hand, as described in Japanese Patent Application Laid-Open No. 09-306457, a positive terminal for receiving a positive electrode of a battery arranged in a battery housing is formed on a rotary terminal plate, and the terminal The lower part of the board is formed at a right angle, and a pin serving as a rotation fulcrum is arranged between the terminal board and the right-angled part, and if necessary, the terminal board is pressed to center the pin There has also been proposed (Patent Document 3) that rotates and takes out the battery obliquely (Patent Document 3).

特許第2972663号公報Japanese Patent No. 2972663 特開2013−12348号公報JP2013-12348A 特開平09−306457号公報JP 09-306457 A

前記特許文献1の電池収納部の凹部を横切って帯状のリボンを配置するものは、リボンの一端部を接着などでケースに取り付けなければならないため、作業に工数を要し、場合によってはリボンが電池の下側に留まって電池を取り出すことが困難となる不都合を生じる。   In the case of disposing a ribbon in the shape of a cross section across the concave portion of the battery storage unit of Patent Document 1, one end of the ribbon must be attached to the case by bonding or the like. There arises an inconvenience that it is difficult to take out the battery by staying under the battery.

また、特許文献2の電池収納部に電池と非当接になる空間を設けるものは、収納スペースを別途に必要となり、電池収納部の小型化にそぐわない不都合を生じる。   Moreover, what provides the space which does not contact | abut with a battery in the battery storage part of patent document 2 requires a storage space separately, and produces the problem which is not suitable for size reduction of a battery storage part.

さらに特許文献3のプラス側端子を回動式の端子板に形成するものは、回動するものが端子であるため電気的導通に問題を生じる恐れがあり、電池収納構造自体の信頼性を毀損する不都合を生じる。   Further, in the case where the plus-side terminal of Patent Document 3 is formed on a rotating terminal board, the rotating terminal is a terminal, which may cause a problem in electrical conduction, and the reliability of the battery housing structure itself is impaired. Cause inconvenience.

そこで本発明は、簡易な構成の電池取出しレバーを設けるだけの簡単な構造で、確実に電池を取り出すことができ、しかも省スペース化が図られ、電気的導通にも支障をきたさない電池収納構造を得ることを目的とするものである。   Therefore, the present invention has a simple structure in which a battery take-out lever having a simple structure is simply provided, the battery can be surely taken out, the space is saved, and the battery housing structure that does not hinder electric conduction is also provided. The purpose is to obtain.

本願第1請求項に記載した発明は、実施例で用いた符号を付して記すと、電池Bを収納するケース1に設けられた電池収納部2と、この電池収納部2に回動可能に配置された電池取出しレバー10とを備え、
前記電池収納部2は、その側壁の一部を切り欠いて形成される切欠部3を備え、
前記電池取出しレバー10は、前記切欠部3に嵌合可能な第1片部11と、この第1片部11に連設された第2片部12とを備え、
さらに、前記電池収納部2に電池Bを収納した際に、前記電池取出しレバー10は、前記第1片部11が前記電池収納部2の前記切欠部3の箇所に位置するとともに、前記第2片部12は当該電池の下部に位置するように形成され、
前記電池収納部2に収納した電池Bは、前記電池取出しレバー10の前記第1片部11を押して当該電池取出しレバーを回動させることにより、前記第2片部12に押圧されて前記電池収納部2から押し出されるように構成したことを特徴とする電池収納構造である。 The invention described in the first claim of the present application is described with the reference numerals used in the embodiments, and the battery storage portion 2 provided in the case 1 for storing the battery B, and the battery storage portion 2 can be rotated. And a battery take-out lever 10 disposed in
The battery housing part 2 includes a notch part 3 formed by notching a part of its side wall,
The battery take-out lever 10 includes a first piece portion 11 that can be fitted into the cutout portion 3, and a second piece portion 12 that is connected to the first piece portion 11.
Further, when the battery B is stored in the battery storage unit 2, the battery take-out lever 10 is configured such that the first piece 11 is positioned at the notch 3 of the battery storage unit 2 and the second The piece 12 is formed so as to be located at the bottom of the battery,
The battery B housed in the battery housing part 2 is pressed by the second piece part 12 by pushing the first piece part 11 of the battery take-out lever 10 and rotating the battery take-out lever 10 so as to store the battery. The battery housing structure is configured to be pushed out from the portion 2.

本願第2請求項に記載した発明は、前記電池取出しレバー10は、その両端に一対の軸部13を備え、この一対の軸部13を、軸部固定具20にて、前記電池収納部2に回動可能に取り付けたことを特徴とする請求項1記載の電池収納構造である。   According to the second aspect of the present invention, the battery take-out lever 10 includes a pair of shaft portions 13 at both ends thereof, and the pair of shaft portions 13 are connected to the battery housing portion 2 by a shaft portion fixing tool 20. The battery housing structure according to claim 1, wherein the battery housing structure is rotatably attached to the battery.

本願第3請求項に記載した発明は、前記電池収納部2に、前記一対の軸部13を各別に収容する窪み部4を設け、前記一対の軸部13を前記窪み部4に嵌合するとともに、この軸部13を、前記軸部固定具20の固定部21にて前記窪み部4に回動可能に取り付けたことを特徴とする請求項2記載の電池収納構造である。   According to the third aspect of the present invention, the battery housing portion 2 is provided with the recessed portions 4 that individually accommodate the pair of shaft portions 13, and the pair of shaft portions 13 are fitted into the recessed portions 4. The battery housing structure according to claim 2, wherein the shaft portion 13 is rotatably attached to the hollow portion 4 by a fixing portion 21 of the shaft portion fixing tool 20.

本願第4請求項に記載した発明は、前記電池収納部2に、前記一対の軸部13に対応させてボス部5を設け、このボス部5に前記軸部固定具20を設けたことを特徴とする請求項2記載の電池収納構造である。   According to the fourth aspect of the present invention, the battery housing portion 2 is provided with a boss portion 5 corresponding to the pair of shaft portions 13, and the boss portion 5 is provided with the shaft portion fixing tool 20. 3. The battery housing structure according to claim 2, wherein

本願第5請求項に記載した発明は、前記電池収納部2は電池二本を並列に収納する一対の上部収納部2aと、この一対の上部収納部2aの一方の下部に電池一本を収納する下部収納部2bを備え、前記電池取出しレバー10は、前記下部収納部2bに設けられていることを特徴とする請求項1記載の電池収納構造である。   According to the fifth aspect of the present invention, the battery storage unit 2 stores a pair of upper storage units 2a for storing two batteries in parallel, and stores one battery in one lower part of the pair of upper storage units 2a. 2. The battery storage structure according to claim 1, further comprising a lower storage portion 2 b that is provided in the lower storage portion 2 b.

本願第1請求項に記載した発明によれば、電池収納部に収納された電池は、電池取出しレバーの第1片部を指などで押して当該電池取出しレバーを回動させることにより、電池は、第2片部に押圧されて、電池収納部から容易に押し出される。   According to the invention described in the first claim of the present application, the battery stored in the battery storage portion can be obtained by pressing the first piece of the battery extraction lever with a finger or the like and rotating the battery extraction lever. Pressed by the second piece and easily pushed out of the battery storage.

一般に電池収納部は、上述したように、マイナス側の極にコイルスプリングが配置されており、電池が恒常的に長手方向に押圧付勢されているので、上記のように第2片部にて電池が押圧されると、電池の当該押圧箇所が持ち上がり、同時にコイルスプリングのばね性を利用して、つまり押圧付勢力と相俟って、電池収納部から容易に押し出されることになる。   In general, as described above, the battery housing portion has a coil spring disposed on the negative pole, and the battery is constantly pressed and urged in the longitudinal direction. When the battery is pressed, the pressed portion of the battery is lifted, and at the same time, using the spring property of the coil spring, that is, coupled with the pressing biasing force, the battery is easily pushed out from the battery housing portion.

本願第2請求項に記載した発明は、電池取出しレバーはその両端に一対の軸部を備えるとともに、この一対の軸部を、軸部固定具にて、電池収納部に回動可能に取り付けているので、上述した電池取出しレバーの第1片部を指などで押して当該電池取出しレバーを回動させることが容易化される。   In the invention described in claim 2 of the present application, the battery take-out lever includes a pair of shaft portions at both ends thereof, and the pair of shaft portions are rotatably attached to the battery housing portion by the shaft portion fixing tool. Therefore, it is facilitated to rotate the battery take-out lever by pressing the first piece of the battery take-out lever described above with a finger or the like.

また、本願第3請求項に記載した発明のように、電池収納部に、前記一対の軸部を各別に収容する窪み部を設けて、前記一対の軸部を前記窪み部に嵌合するとともに、この軸部を、前記軸部固定具の固定部にて前記窪み部に回動可能に取り付けると、電池取出しレバーの保持およびその回転が確実になされ得ることになる。   Further, as in the invention described in claim 3 of the present application, the battery housing portion is provided with a recess portion that separately accommodates the pair of shaft portions, and the pair of shaft portions are fitted into the recess portion. When this shaft portion is rotatably attached to the recess portion by the fixing portion of the shaft portion fixing tool, the battery take-out lever can be held and rotated reliably.

さらに、本願第4請求項に記載した発明のように、電池収納部に、前記一対の軸部に対応させてボス部を設け、このボス部に前記軸部固定具を設ければ、電池取出しレバーの装着などの実施が、より省スペースにて行うことができる。   Further, as in the invention described in claim 4 of the present application, if the battery housing portion is provided with a boss portion corresponding to the pair of shaft portions, and the shaft portion fixing tool is provided on the boss portion, the battery can be taken out. Installation of levers and the like can be performed in a smaller space.

とりわけ本願第5請求項に記載した発明のように、電池収納部は電池二本を並列に収納する一対の上部収納部と、この一対の上部収納部の一方の下部に電池一本を収納する下部収納部を備えて、前記電池取出しレバーが、前記下部収納部に設けられるように構成した場合は、このような三本の電池を上下に配置して特に下部の電池の指などによる取り出しが困難となるような事態においても、当該電池の取り出しを容易化することができるものである。   In particular, as in the invention described in claim 5 of the present application, the battery storage unit stores a battery in a pair of upper storage units that store two batteries in parallel and one lower part of the pair of upper storage units. In the case where a lower storage portion is provided and the battery take-out lever is provided in the lower storage portion, such three batteries are arranged vertically so that the battery can be taken out by a finger of the lower battery in particular. Even in situations where it becomes difficult, the battery can be easily taken out.

本発明の実施例に係り、ケースに設けられた電池収納部を示す平面図である。It is a top view which shows the battery accommodating part provided in the case according to the Example of this invention. 本発明の実施例に係り、図1の電池収納部を示す斜視模式図である。FIG. 2 is a schematic perspective view illustrating the battery storage unit of FIG. 1 according to the embodiment of the present invention. 本発明の実施例に係り、図1のA−A線断面図である。FIG. 2 is a cross-sectional view taken along line AA of FIG. 1 according to the embodiment of the present invention. 本発明の実施例に係り、図1のB−B線断面図である。FIG. 5 is a cross-sectional view taken along the line BB in FIG. 1 according to the embodiment of the present invention. 本発明の実施例に係り、図4の電池収納部を示す縦断模式図である。FIG. 5 is a schematic longitudinal sectional view illustrating the battery storage unit of FIG. 4 according to the embodiment of the present invention. 本発明の実施例に係り、図1のC−C線断面図である。FIG. 2 is a cross-sectional view taken along the line CC of FIG. 1 according to the embodiment of the present invention. 本発明の実施例に係り、電池非装着状態の電池収納部を示す平面図である。It is a top view which shows the battery accommodating part in a battery non-attached state concerning the Example of this invention. 本発明の実施例に係り、図7の電池収納部を示す斜視模式図である。FIG. 8 is a schematic perspective view illustrating the battery storage unit of FIG. 7 according to the embodiment of the present invention. 本発明の実施例に係り、図8における電池取出しレバーの箇所を示す斜視模式図である。FIG. 9 is a schematic perspective view illustrating a battery take-out lever portion in FIG. 8 according to the embodiment of the present invention. 本発明の実施例に係り、電池収納部を示す底面図である。It is a bottom view which shows the battery accommodating part concerning the Example of this invention. 本発明の実施例に係り、図10の電池収納部を示す模式図である。It is a schematic diagram which concerns on the Example of this invention and shows the battery accommodating part of FIG. 本発明の実施例に係り、軸部固定具の他の例を示す斜視図である。It is a perspective view which concerns on the Example of this invention and shows the other example of the axial part fixing tool. 本発明の実施例に係り、電池取出しレバーを示す斜視図である。FIG. 4 is a perspective view showing a battery take-out lever according to the embodiment of the present invention. 本発明の実施例に係り、電池取出しレバーを示す平面図である。It is a top view which concerns on the Example of this invention and shows a battery taking-out lever. 本発明の実施例に係り、電池取出しレバーを示す側面図である。FIG. 4 is a side view showing a battery take-out lever according to the embodiment of the present invention. 本発明の実施例に係り、電池三本装着用の電池収納部において底部に一本のみ装着した状態を示す斜視模式図である。FIG. 4 is a schematic perspective view showing a state in which only one battery is mounted on the bottom in a battery storage unit for mounting three batteries according to an embodiment of the present invention. 本発明の実施例に係り、図15に示す電池取出しレバーの箇所における縦断模式図である。FIG. 16 is a schematic longitudinal sectional view of the battery take-out lever shown in FIG. 15 according to the embodiment of the present invention. 本発明の実施例に係り、電池取出しレバーを備えた電池収納部から電池を取り出す状態を示す図で、(1)は指先を電池取出しレバーの第1片部に当接した状態、(2)はこの第1片部を押している状態、(3)は電池取出しレバーの第2片部に押し出された電池を指で把持している状態である。FIG. 4 is a diagram illustrating a state in which a battery is taken out from a battery storage unit having a battery take-out lever according to an embodiment of the present invention, wherein (1) is a state in which a fingertip is in contact with a first piece of the battery take-out lever; Is a state in which the first piece is pushed, and (3) is a state in which the battery pushed out by the second piece of the battery take-out lever is held by a finger.

以下に、本発明の実施例を図面(図1〜図18)に基づいて説明する。本例の電池収納構造は、電池Bを収納するケース1に設けられた電池収納部2と、この電池収納部2に回動可能に配置された電池取出しレバー10とを備えて構成される。   Embodiments of the present invention will be described below with reference to the drawings (FIGS. 1 to 18). The battery storage structure of this example includes a battery storage portion 2 provided in a case 1 that stores the battery B, and a battery take-out lever 10 that is rotatably disposed in the battery storage portion 2.

この実施例では、単4の乾電池を用い、上部に電池B(B1)を二本、下部に電池B(B2)を一本装着する形式の電池収納部2(2a,2b)であって、これら三本の電池B(B1,B2)のうち二本の電池B(B1,B2)は重ねた状態で収納される態様のものである。上部の二本の電池B1は、指で容易に取る(外す)ことができるが、電池収納部の下方に位置する下部の電池B2は取り出しが困難である。そこで、本例の電池取出しレバー10は、取出し困難である下部の電池B2の取り出しを容易化するべく、電池収納部2bの下部に設けている。   In this embodiment, the battery storage unit 2 (2a, 2b) is of a type that uses AAA batteries, two batteries B (B1) at the top, and one battery B (B2) at the bottom, Of these three batteries B (B1, B2), two batteries B (B1, B2) are stored in a stacked state. The upper two batteries B1 can be easily removed (removed) with a finger, but the lower battery B2 located below the battery housing is difficult to remove. Therefore, the battery take-out lever 10 of this example is provided at the lower portion of the battery housing portion 2b in order to facilitate the take-out of the lower battery B2, which is difficult to take out.

本例において、下部の電池収納部2bは、その側壁の一部を切り欠いて切欠部3を形成する(例えば図8、図9、図16参照)。この切欠部3には、電池取出しレバー10の後述する第1片部11が嵌着脱するので、切欠部3と第1片部11は、相互に対応する大きさに形成するのが好ましい。   In this example, the lower battery housing portion 2b forms a cutout portion 3 by cutting out a part of its side wall (see, for example, FIGS. 8, 9, and 16). Since the first piece part 11 (described later) of the battery take-out lever 10 is fitted into and removed from the notch part 3, it is preferable that the notch part 3 and the first piece part 11 are formed in sizes corresponding to each other.

電池取出しレバー10は、前述した第1片部11と、この第1片部11に連設された第2片部12とを備える(例えば図7〜図9参照)。   The battery take-out lever 10 includes the first piece portion 11 and the second piece portion 12 connected to the first piece portion 11 (see, for example, FIGS. 7 to 9).

さらに、好ましくは、電池取出しレバー10の両端に一対の軸部13を備える(例えば図13〜図15参照)。そして、電池取出しレバー10はこの一対の軸部13を支点にして回動可能に設けられている。この一対の軸部13は、軸部固定具20にて、電池収納部2に回動可能に取り付けられる(図10参照)。   Further, preferably, a pair of shaft portions 13 are provided at both ends of the battery take-out lever 10 (see, for example, FIGS. 13 to 15). The battery take-out lever 10 is rotatably provided with the pair of shaft portions 13 as fulcrums. The pair of shaft portions 13 are rotatably attached to the battery storage portion 2 by the shaft portion fixing tool 20 (see FIG. 10).

他方、電池収納部2には、前記一対の軸部13を各別に収容する窪み部4を設け、これら一対の軸部13を窪み部4に嵌合するとともに、この軸部13を、軸部固定具20の固定部21にて、窪み部4に回動可能に取り付けている。本例では、電池収納部2に、前記一対の軸部13に対応させてボス部5を設け、このボス部5に軸部固定具20を設けている(図11参照)。なお、図10は電池収納部を示す底面図、図11は図10の電池収納部を示す模式図であり、これらの図から明らかなように、ボス部5は下方(図では上方向)へ突設され、軸部固定具20は下方から上方(図では上から下方向)へ向けてボス部5に設けられている。そして、軸部13は、下方に向けて開口する窪み部4に収容されるが、軸部13は軸部固定具20の固定部21にて、窪み部4に保持される。   On the other hand, the battery housing part 2 is provided with a recessed part 4 for individually accommodating the pair of shaft parts 13, and the pair of shaft parts 13 are fitted into the recessed part 4. A fixing portion 21 of the fixing tool 20 is rotatably attached to the recess portion 4. In this example, the battery housing part 2 is provided with a boss part 5 corresponding to the pair of shaft parts 13, and the boss part 5 is provided with a shaft part fixture 20 (see FIG. 11). 10 is a bottom view showing the battery housing portion, and FIG. 11 is a schematic view showing the battery housing portion of FIG. 10. As is clear from these drawings, the boss portion 5 is downward (upward in the drawing). The shaft fixing tool 20 is provided on the boss portion 5 so as to project from below to above (from top to bottom in the drawing). The shaft portion 13 is accommodated in the recess portion 4 that opens downward. The shaft portion 13 is held by the recess portion 4 by the fixing portion 21 of the shaft portion fixing tool 20.

なお、上記実施例の軸部固定具20は座付きねじであり、その固定部21は座であるが、この軸部固定具20は、例えば図12に示すように、頭部に鍔22を設けたブラッシュクリップや、その他、プッシュリベットなど、適宜の固定具を用いることができる。   In addition, although the shaft part fixing tool 20 of the said Example is a screw with a seat and the fixing | fixed part 21 is a seat, as shown in FIG. An appropriate fixing tool such as a brush clip or a push rivet can be used.

電池取出しレバー10の第1片部11は、電池B2が電池収納部2に装着されているときは切欠部3に嵌入される箇所に位置している。このとき、第2片部12は、電池B2の下端に当接する箇所に位置するように設けられている。このようにして、本例では、電池収納部2に電池Bを収納した際に、電池取出しレバー10は、その第1片部11が電池収納部2の切欠部3の箇所に位置するとともに、第2片部12は当該電池の下部に位置するように形成されている(図16、図17参照)。   The first piece 11 of the battery take-out lever 10 is located at a position where the battery B2 is fitted into the notch 3 when the battery B2 is attached to the battery storage part 2. At this time, the 2nd piece part 12 is provided so that it may be located in the location contact | abutted to the lower end of battery B2. Thus, in this example, when the battery B is stored in the battery storage unit 2, the battery take-out lever 10 has the first piece 11 located at the position of the notch 3 of the battery storage unit 2, The second piece 12 is formed so as to be positioned below the battery (see FIGS. 16 and 17).

上記のように構成される本例の電池収納部2において、この電池収納部2bに収納した電池B2は、電池取出しレバー10の第1片部11を指などで押して当該電池取出しレバーを回動させることにより、第2片部12に押圧されて、電池収納部2から押し出される(図18参照)。   In the battery storage unit 2 of the present example configured as described above, the battery B2 stored in the battery storage unit 2b rotates the battery extraction lever by pressing the first piece 11 of the battery extraction lever 10 with a finger or the like. By doing so, it is pressed by the second piece 12 and is pushed out of the battery storage 2 (see FIG. 18).

電池収納部2は、通常の電池収納部と同様に、マイナス側の極にコイルスプリング6を配置して、電池Bが恒常的に長手方向に押圧付勢されているので、上記のように第2片部12にて電池B2が押圧されると、電池の当該押圧箇所が持ち上がり、同時にコイルスプリング6bの押圧付勢力と相俟って、電池収納部2bから容易に押し出される。本例のようにマイナス側に配置したコイルスプリング6のばね性を利用して電池B2の取り出しを容易化する場合は、電池B2の先端部の下側に第2片部12が位置するように電池取出しレバー10を設けると効果的である。   As in the case of the normal battery storage portion, the battery storage portion 2 has the coil spring 6 disposed on the negative pole so that the battery B is constantly pressed and urged in the longitudinal direction. When the battery B2 is pressed by the two-piece portion 12, the pressed portion of the battery is lifted, and at the same time, coupled with the pressing biasing force of the coil spring 6b, is easily pushed out from the battery storage portion 2b. When using the spring property of the coil spring 6 arranged on the minus side as in this example to facilitate removal of the battery B2, the second piece 12 is positioned below the tip of the battery B2. It is effective to provide the battery take-out lever 10.

上述した本実施例の電池収納構造によれば、電池収納部に収納された電池は、電池取出しレバーの第1片部を指などで押して当該電池取出しレバーを回動させることにより、電池は、第2片部に押圧されて、電池収納部から容易に押し出される。とりわけ複数本の電池を電池収納部に装着し奥側の電池が存在するような場合は、指や爪では取り出しが困難であっても、本例の電池取出しレバーを用いることにより、容易に装着電池を取り出すことができるものとなる。したがって、本発明の電池取出しレバーを利用すれば、電池収納部の奥側に電池を装着することおよびその取り出しが容易化されるので、電池収納構造のより一層の省スペース化を図ることができるものである。   According to the battery storage structure of the above-described embodiment, the battery stored in the battery storage unit is configured such that by pressing the first piece of the battery extraction lever with a finger or the like and rotating the battery extraction lever, Pressed by the second piece and easily pushed out of the battery storage. Especially when multiple batteries are installed in the battery compartment and there is a battery on the back side, even if it is difficult to remove it with your finger or nail, it can be easily installed by using the battery extraction lever of this example. The battery can be taken out. Therefore, if the battery take-out lever of the present invention is used, it is possible to easily attach and remove the battery to the inner side of the battery housing portion, and thus to further save the space of the battery housing structure. Is.

以上説明したように、本例の電池収納構造は、電池取り出しの容易化という利点を備え且つ構造的にも合理的に構成されたものである。なお、本例における各部の構成は、特許請求の範囲に記載した技術的範囲において適宜に設計変更が可能であり、図例説明したものに限定されないことは勿論である。   As described above, the battery housing structure of the present example has an advantage of facilitating battery removal and is reasonably configured structurally. It should be noted that the configuration of each part in this example can be appropriately changed in design within the technical scope described in the claims, and is of course not limited to that illustrated in the drawings.

本発明は、電池を用いて作動する装置において、その電池の収納構造一般に好適に利用することが可能である。   INDUSTRIAL APPLICABILITY The present invention can be suitably used for a battery storage structure in an apparatus that operates using a battery.

1 ケース
2 電池収納部
2a 上部の電池収納部
2b 下部の電池収納部
3 切欠部
4 窪み部
5 ボス部
6 コイルスプリング
6a 上部のコイルスプリング
6b 下部のコイルスプリング
10 電池取出しレバー
11 第1片部
12 第2片部
13 軸部
20 軸部固定具
21 固定部(座付きねじの座)
22 固定部(ブラッシュクリップの鍔)
B 電池
B1 上部の電池
B2 下部の電池

DESCRIPTION OF SYMBOLS 1 Case 2 Battery storage part 2a Upper battery storage part 2b Lower battery storage part 3 Notch part 4 Recessed part 5 Boss part 6 Coil spring 6a Upper coil spring 6b Lower coil spring 10 Battery extraction lever 11 1st piece part 12 2nd piece part 13 Shaft part 20 Shaft part fixture 21 Fixing part (seat of seat with screw)
22 Fixing part (brush clip collar)
B Battery B1 Upper battery B2 Lower battery

Claims (5)

電池(B)を収納するケース(1)に設けられた電池収納部(2)と、この電池収納部(2)に回動可能に配置された電池取出しレバー(10)とを備え、
前記電池収納部(2)は、その側壁の一部を切り欠いて形成される切欠部(3)を備え、
前記電池取出しレバー(10)は、前記切欠部(3)に嵌合可能な第1片部(11)と、この第1片部(11)に連設された第2片部(12)とを備え、
さらに、前記電池収納部(2)に電池(B)を収納した際に、前記電池取出しレバー(10)は、前記第1片部(11)が前記電池収納部(2)の前記切欠部(3)の箇所に位置するとともに、前記第2片部(12)は当該電池の下部に位置するように形成され、
前記電池収納部(2)に収納した電池(B)は、前記電池取出しレバー(10)の前記第1片部(11)を押して当該電池取出しレバーを回動させることにより、前記第2片部(12)に押圧されて前記電池収納部(2)から押し出されるように構成したことを特徴とする電池収納構造。 A battery storage portion (2) provided in the case (1) for storing the battery (B), and a battery take-out lever (10) rotatably disposed in the battery storage portion (2);
The battery storage part (2) includes a notch part (3) formed by notching a part of its side wall,
The battery take-out lever (10) includes a first piece (11) that can be fitted into the notch (3), and a second piece (12) that is connected to the first piece (11). With
Further, when the battery (B) is stored in the battery storage part (2), the battery take-out lever (10) has the first piece part (11) which is the notch part (11) of the battery storage part (2). 3) and the second piece (12) is formed to be located at the bottom of the battery,
The battery (B) stored in the battery storage part (2) is configured such that the second piece part is formed by pressing the first piece part (11) of the battery take-out lever (10) and rotating the battery take-out lever. A battery housing structure configured to be pushed by (12) and pushed out of the battery housing portion (2). 前記電池取出しレバー(10)は、その両端に一対の軸部(13)を備え、この一対の軸部(13)を、軸部固定具(20)にて、前記電池収納部(2)に回動可能に取り付けたことを特徴とする請求項1記載の電池収納構造。   The battery take-out lever (10) includes a pair of shaft portions (13) at both ends thereof, and the pair of shaft portions (13) is attached to the battery storage portion (2) by a shaft portion fixing tool (20). The battery housing structure according to claim 1, wherein the battery housing structure is rotatably attached. 前記電池収納部(2)に、前記一対の軸部(13)を各別に収容する窪み部(4)を設け、前記一対の軸部(13)を前記窪み部(4)に嵌合するとともに、この軸部(13)を、前記軸部固定具(20)の固定部(21)にて前記窪み部(4)に回動可能に取り付けたことを特徴とする請求項2記載の電池収納構造。   The battery housing part (2) is provided with recesses (4) for separately accommodating the pair of shaft parts (13), and the pair of shaft parts (13) are fitted into the recess parts (4). The battery housing according to claim 2, wherein the shaft portion (13) is rotatably attached to the hollow portion (4) by a fixing portion (21) of the shaft portion fixing tool (20). Construction. 前記電池収納部(2)に、前記一対の軸部(13)に対応させてボス部(5)を設け、このボス部(5)に前記軸部固定具(20)を設けたことを特徴とする請求項2記載の電池収納構造。   The battery housing part (2) is provided with a boss part (5) corresponding to the pair of shaft parts (13), and the shaft part fixture (20) is provided on the boss part (5). The battery housing structure according to claim 2. 前記電池収納部(2)は電池二本を並列に収納する一対の上部収納部(2a)と、この一対の上部収納部(2a)の一方の下部に電池一本を収納する下部収納部(2b)を備え、前記電池取出しレバー(10)は、前記下部収納部(2b)に設けられていることを特徴とする請求項1記載の電池収納構造。

The battery storage part (2) includes a pair of upper storage parts (2a) for storing two batteries in parallel, and a lower storage part (1a) for storing one battery in one lower part of the pair of upper storage parts (2a). 2. The battery storage structure according to claim 1, wherein the battery take-out lever (10) is provided in the lower storage part (2 b).

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