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JP4210144B2 - Vehicle storage device - Google Patents
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JP4210144B2 - Vehicle storage device - Google Patents

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Publication number
JP4210144B2
JP4210144B2 JP2003116549A JP2003116549A JP4210144B2 JP 4210144 B2 JP4210144 B2 JP 4210144B2 JP 2003116549 A JP2003116549 A JP 2003116549A JP 2003116549 A JP2003116549 A JP 2003116549A JP 4210144 B2 JP4210144 B2 JP 4210144B2
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Prior art keywords
storage device
rotating body
torsion spring
side wall
main body
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JP2003116549A
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Japanese (ja)
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JP2004322708A (en
Inventor
勝也 高橋
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Kojima Industries Corp
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Kojima Industries Corp
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Description

【0001】
【発明の属する技術分野】
本発明は、車両用収納装置に関する。
【0002】
【従来の技術】
従来の車両用収納装置を、図4〜図6を参照して、説明する。
従来の車両用収納装置1は、軸受け穴2bが設けられた側壁2aを有する収納装置本体2と、収納装置本体2の軸受け穴2bに挿入される軸部3aを有し、収納装置本体2に回動可能に支持される回動体3と、回動体3を収納装置本体2に対し回動付勢するトーションバネ4とを、有する。
回動体3の軸部3aは、収納装置本体2の内側より軸受け穴2bに挿入されている。
トーションバネ4の巻き部4aは、回動体3の軸部3aのうち収納装置本体2の側壁2aから収納装置本体2の外側に飛び出した部分に挿入される。トーションバネ4の一端部4bは、収納装置本体2の側壁2aの外面に設けられるフック2cに引っ掛けられている。トーションバネ4の他端部4cは、回動体3の軸部3aの先端に設けられた溝3bに引っ掛けられている。
実開昭62−97047号公報は、回動体の軸部が収納装置本体の側壁に設けられた軸受け穴を挿通しており、回動体の軸部のうち収納装置本体の側壁から外側に飛び出した部分に回動体を回動付勢するトーションバネを巻きつけた、車両用収納装置を開示している。
【0003】
【特許文献1】
実開昭62−97047号公報
【0004】
【発明が解決しようとする課題】
従来の車両用収納装置には、つぎの問題点がある。
トーションバネ4の巻き部4aが回動体3の軸部3aのうち収納装置本体2の側壁2aから収納装置本体2の外側に飛び出した部分に挿入されるので、収納装置本体2の側壁2aから収納装置本体2の外側に突出する軸部3aの軸方向長さを、トーションバネ4の巻き部4aの軸方向長さより長くする必要がある。そのため、回動体3の軸部3aの軸方向長さが長くなってしまう。そのため、回動体3の軸部3aと車両用収納装置の周囲の車両用内装部材5との間の隙間が狭くなってしまい、建付上のばらつきを考慮した隙間を確保することが困難になる。
また、トーションバネ4の他端部4cを回動体3の軸部3aの先端の溝3bに引っ掛けているため、トーションバネ4の他端部4cの掛かり代が少なくバネ外れ及び溝部破壊のおそれがある。
本発明の目的は、回動体の軸部が収納装置本体より外側に突出する量を従来より小にできる車両用収納装置を提供することにある。
本発明のもう一つの目的は、トーションバネの端部の固定を確実にし、バネ外れ及び回動体の軸部の破損を防止できる車両用収納装置を提供することにある。
【0005】
【課題を解決するための手段】
上記目的を達成する本発明はつぎの通りである。
(1) 軸受け穴が設けられた側壁を有する収納装置本体と、
前記収納装置本体の軸受け穴に挿入される軸部が設けられた側壁を有し、前記収納装置本体に回動可能に支持される回動体と、
前記回動体を前記収納装置本体に対し回動付勢するトーションバネと、
を有し、
前記回動体の軸部は、前記収納装置本体の軸受け穴の縁と摺動可能な円筒部と、該円筒部の内側に設けられる位置決めリブと、前記円筒部と前記位置決めリブとの間に形成され前記円筒部の軸方向外側端から前記収納装置本体の側壁外面よりも前記収納装置本体の内部側に延びるバネ取付け溝とを、有しており、
前記トーションバネは、前記バネ取付け溝内に配置される巻き部と、前記収納装置本体に引っ掛けられる一端部と、前記回動体に引っ掛けられる他端部と、を備えており、
前記トーションバネの巻き部の、前記トーションバネの一端部側の端部は、該巻き部の軸方向で、前記収納装置本体及び前記回動体と接触しておらず、
前記バネ取付け溝の奥壁に穴が設けられており、
前記トーションバネの一端部は前記円筒部から外に出て前記収納装置本体に引っ掛けられており、前記トーションバネの他端部は前記バネ取付け溝の奥壁の穴を貫通して延びて前記回動体に引っ掛けられている、
車両用収納装置。
【0006】
上記(1)の車両用収納装置では、回動体の軸部が円筒部と位置決めリブとの間に形成され円筒部の軸方向外側端から収納装置本体の側壁外面よりも収納装置本体の内部側に延びるバネ取付け溝を有し、トーションバネの一部がバネ取付け溝内に配置されているので、バネ取付け溝が収納装置本体の側壁外面よりも収納装置本体の内部側に延びる分だけ、回動体の軸部の軸方向長さを従来より小にすることができる。
また、トーションバネの他端部がバネ取付け溝の奥壁に設けた穴を貫通して回動体に引っ掛けられている。そのため、トーションバネの他端部の掛かり代を十分にとることができ、トーションバネが外れることはない。また、トーションバネの他端部を回動体の軸方向先端に溝を設けて引っ掛ける必要がないため、バネ力により回動体の軸部が破損することもない。
【0007】
【発明の実施の形態】
以下、本発明実施例の車両用収納装置を、図1〜図3を参照して、説明する。
本発明実施例の車両用収納装置は、たとえば、車両用小物入れ装置、車両用カップホルダ装置等である。ただし、本発明実施例の車両用収納装置は、上記の装置に限定されるものではない。
本発明実施例の車両用収納装置が配置される場所は、たとえば、車両の内装部材である、インスツルメントパネル、コンソールパネル、オーバーヘッドコンソール等である。ただし、本発明実施例の車両用収納装置は、上記の場所以外の場所に配置されていてもよい。
本発明実施例の車両用収納装置10は、図2に示すように、軸受け穴22が設けられた側壁21を有する収納装置本体20と、収納装置本体20の軸受け穴22に挿入される軸部32が設けられた側壁31を有し、収納装置本体20に回動可能に支持される回動体30と、回動体30を収納装置本体20に対し回動付勢するトーションバネ40とを、有する。
【0008】
収納装置本体20は、たとえば樹脂製である。収納装置本体20は、車両の図示略の内装部材に固定して取付けられる。収納装置本体20は、車両の内装部材に設けられる図示略の穴に配置される。収納装置本体20の意匠面(車室側面)20aは、車両用収納装置10の周囲の内装部材の意匠面とほぼ面一になっている。
軸受け穴22は、側壁21を、側壁21の面直方向に貫通している。軸受け穴22の断面形状は、円形である。軸受け穴22には、回動体30の軸部32が差し込まれる(挿入される)。
【0009】
回動体30は、たとえば樹脂製である。回動体30は、車両用収納装置10に収納物を収納可能な開位置と、車両用収納装置10に収納物を収納不能な閉位置とに、回動可能である。回動体30が閉位置にあるとき、回動体30の意匠面(車室側面)30aは、収納装置本体20の意匠面20aとほぼ面一になっている。
【0010】
側壁31は、回動体30が閉位置にあるとき、収納装置本体20の側壁21と対向する。
軸部32は、回動体30と一体成形される。軸部32は、収納装置本体20の軸受け穴22に、収納装置本体20の内側から挿入される(差し込まれる)。軸部32の軸方向先端部は、軸受け穴22から、収納装置本体20の外側に出ている。軸部32は、軸受け穴22内で回動可能である。回動体30は、軸部32が軸受け穴22内で回動可能とされているので、収納装置本体20に対し回動可能である。
軸部32は、円筒部33と、位置決めリブ34と、バネ取付け溝35とを、有する。
円筒部33の外周面は、収納装置本体20の軸受け穴22の縁と摺動可能である。図1、図3に示すように、円筒部33のうち、収納装置本体20の側壁21の外側面21aよりも外側に位置する部分には、切欠き33aが設けられている。切欠き33aは、円筒部33の周方向の一部に設けられている。
位置決めリブ34は、円筒部33の径方向内側に設けられる。位置決めリブ34の断面形状は、十字形状であってもよく、円筒形状であってもよく、円柱形状であってもよい(図示例では、十字形状である場合を示している)。位置決めリブ34が収納装置本体20の側壁21の外面21aから外側に突出する長さは、円筒部33が収納装置本体20の側壁21の外面21aから外側に突出する長さより、長いことが望ましい。トーションバネ40の巻き部41をバネ取付け溝35内に挿入しやすいからである。
バネ取付け溝35は、図2に示すように、円筒部33と位置決めリブ34との間に形成される。バネ取付け溝35は、軸部32の軸方向外側端から、収納装置本体20の側壁21の外面21aよりも収納装置本体20の内部側に、延びている。
バネ取付け溝35は、軸部32の周方向に延びている。バネ取付け溝35の奥壁は、回動体30の側壁31の一部で構成されている。バネ取付け溝35の奥壁には、穴35aが設けられている。穴35aは、バネ取付け溝35の奥壁(回動体30の側壁31のうち、バネ取付け溝35の奥壁に相当する部分)を貫通している。穴35aは、軸部32の周方向に延びて設けられていてもよい。
【0011】
側壁21には、スペーサ36が設けられている。
スペーサ36は、側壁31と収納装置本体20の側壁21との間に設けられる。スペーサ36は、側壁31から収納装置本体20の側壁21に向って延びて設けられている。スペーサ36が設けられているので、回動体30が収納装置本体20内で、回動体30の回動軸芯と平行な方向にがたつくことはない。
【0012】
トーションバネ40は、巻き部41と、一端部42と、他端部43とを、有する。
巻き部41は、バネ取付け溝35内に配置されている。巻き部41は、位置決めリブ34に回動自在に取付けられている。
一端部42は、円筒部33に設けられた切欠き33a内を挿通し軸部32の外部に出て、収納装置本体20の側壁21の外面21aの所定位置に設けられるフック23に引っ掛けられる。
他端部43は、バネ取付け溝35に設けられた穴35aを挿通して回動体30の内側に延び、回動体30の側壁31に引っ掛けられる。
トーションバネ40の一端部42が収納装置20に引っ掛けられ、トーションバネ40の他端部43が回動体30に引っ掛けられることにより、トーションバネ40の回転力が得られ、回動体30を開かせる力となる。
【0013】
つぎに、本発明実施例の作用を説明する。
バネ取付け溝35が、軸部32の軸方向外側端から収納装置本体20の側壁21の外面21aよりも収納装置本体20の内部側に延びており、トーションバネ40の巻き部41が、バネ取付け溝35内に配置されている。そのため、回動体の軸部のうち収納装置本体の側壁の外面よりも収納装置の外側に位置する部分のみにトーションバネを配置する場合(従来)に比べて、バネ取付け溝35が収納装置本体20の側壁21の外面21aよりも収納装置本体20の内部側に入り込む分だけ、回動体30の軸部32の軸方向長さを小にすることができる。
【0014】
トーションバネ40の他端部43は、バネ取付け溝35に設けられた穴35aを挿通して回動体30の内部側に延び、回動体30の側壁31に引っ掛けられるので、トーションバネ40の他端部43の掛かり代を十分にとることができ、トーションバネ40が外れることはない。また、回動体30の側壁31でトーションバネ40の力を受けることができ、バネ力により軸部32が破損することもない。
従来装置のように回動体の軸部の先端に溝を設ける場合、溝を形成するために回動体の軸部を軸方向に延ばす必要があるが、本発明実施例では、トーションバネ40の他端部43が穴35aを挿通して回動体30の内部側に延び回動体30の側壁31に引っ掛けられるので、軸部32を軸方向に延ばす必要がなく、円筒部33や位置決めリブ34の先端に溝を設ける場合に比べて、軸部32の軸方向長さを小にできる。
【0015】
【発明の効果】
請求項1記載の車両用収納装置によれば、回動体の軸部が円筒部と位置決めリブとの間に形成され円筒部の軸方向外側端から収納装置本体の側壁外面よりも収納装置本体の内部側に延びるバネ取付け溝を有し、トーションバネの一部がバネ取付け溝内に配置されているので、バネ取付け溝が収納装置本体の側壁外面よりも収納装置本体の内部側に延びる分だけ、回動体の軸部の軸方向長さを従来より小にすることができる。
また、トーションバネの他端部がバネ取付け溝の奥壁に設けた穴を貫通して回動体に引っ掛けられるので、トーションバネの他端部の掛かり代を十分にとることができ、トーションバネが外れることはない。また、トーションバネの他端部を回動体の軸方向先端に溝を設けて引っ掛ける必要がないため、バネ力により回動体の軸部が破損することもない。
【図面の簡単な説明】
【図1】本発明実施例の車両用収納装置の、軸部とその近傍を示す側面図である。
【図2】図1のA−A線断面図である。
【図3】本発明実施例の車両用収納装置の、軸部とその近傍を示す斜視図である。
【図4】従来の車両用収納装置の、軸部とその近傍を示す側面図である。
【図5】図4のB−B線断面図である。
【図6】従来の車両用収納装置の、軸部とその近傍を示す斜視図である。
【符号の説明】
10 車両用収納装置
20 収納装置本体
21 収納装置本体の側壁
21a 収納装置本体の側壁の外面
22 軸受け穴
23 フック
30 回動体
31 回動体の側壁
32 軸部
33 円筒部
34 位置決めリブ
35 バネ取付け溝
35a 穴35a
40 トーションバネ
41 トーションバネの巻き部
42 トーションバネの一端部
43 トーションバネの他端部
[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a vehicular storage device.
[0002]
[Prior art]
A conventional vehicle storage device will be described with reference to FIGS.
A conventional vehicle storage device 1 includes a storage device body 2 having a side wall 2 a provided with a bearing hole 2 b, and a shaft portion 3 a inserted into the bearing hole 2 b of the storage device body 2. A rotating body 3 that is rotatably supported and a torsion spring 4 that urges the rotating body 3 to rotate relative to the storage device main body 2 are provided.
The shaft portion 3 a of the rotating body 3 is inserted into the bearing hole 2 b from the inside of the storage device main body 2.
The winding portion 4 a of the torsion spring 4 is inserted into a portion of the shaft portion 3 a of the rotating body 3 that protrudes from the side wall 2 a of the storage device body 2 to the outside of the storage device body 2. One end 4 b of the torsion spring 4 is hooked on a hook 2 c provided on the outer surface of the side wall 2 a of the storage device body 2. The other end 4 c of the torsion spring 4 is hooked in a groove 3 b provided at the tip of the shaft 3 a of the rotating body 3.
In Japanese Utility Model Laid-Open No. 62-97047, the shaft portion of the rotating body is inserted through a bearing hole provided in the side wall of the storage device main body, and the shaft portion of the rotating body protrudes outward from the side wall of the storage device main body. A vehicle storage device is disclosed in which a torsion spring for rotating and energizing a rotating body is wound around the portion.
[0003]
[Patent Document 1]
Japanese Utility Model Publication No. 62-97047 [0004]
[Problems to be solved by the invention]
The conventional vehicle storage device has the following problems.
Since the winding portion 4a of the torsion spring 4 is inserted into a portion of the shaft portion 3a of the rotating body 3 that protrudes from the side wall 2a of the storage device body 2 to the outside of the storage device body 2, the storage portion is stored from the side wall 2a of the storage device body 2. The axial length of the shaft portion 3 a that protrudes outside the apparatus main body 2 needs to be longer than the axial length of the winding portion 4 a of the torsion spring 4. For this reason, the axial length of the shaft portion 3a of the rotating body 3 becomes long. Therefore, the gap between the shaft portion 3a of the rotating body 3 and the vehicle interior member 5 around the vehicle storage device is narrowed, and it is difficult to secure a gap in consideration of variations in building. .
Further, since the other end 4c of the torsion spring 4 is hooked on the groove 3b at the tip of the shaft portion 3a of the rotating body 3, there is little hooking cost of the other end 4c of the torsion spring 4 and there is a risk of spring disengagement and groove portion destruction. is there.
An object of the present invention is to provide a vehicular storage device that can reduce the amount of the shaft portion of the rotating body protruding outward from the storage device body.
Another object of the present invention is to provide a vehicular storage device that can securely fix the end portion of the torsion spring and prevent the spring from coming off and the shaft portion of the rotating body from being damaged.
[0005]
[Means for Solving the Problems]
The present invention for achieving the above object is as follows.
(1) a storage device body having a side wall provided with a bearing hole;
A rotating body having a side wall provided with a shaft portion to be inserted into a bearing hole of the storage device body, and rotatably supported by the storage device body;
A torsion spring that urges the rotating body to rotate relative to the storage device body;
Have
The shaft portion of the rotating body is formed between the edge of the bearing hole of the storage device main body and a slidable cylindrical portion, a positioning rib provided inside the cylindrical portion, and the cylindrical portion and the positioning rib. And a spring mounting groove extending from the outer side in the axial direction of the cylindrical portion to the inner side of the storage device main body than the outer surface of the side wall of the storage device main body.
The torsion spring includes a winding portion disposed in the spring mounting groove, one end portion hooked on the storage device main body, and the other end portion hooked on the rotating body,
The end of the winding portion of the torsion spring on the one end side of the torsion spring is not in contact with the storage device main body and the rotating body in the axial direction of the winding portion,
A hole is provided in the back wall of the spring mounting groove,
One end portion of the torsion spring goes out of the cylindrical portion and is hooked on the storage device main body, and the other end portion of the torsion spring extends through a hole in the back wall of the spring mounting groove and extends in the rotation direction. Being caught by a moving object,
Vehicle storage device.
[0006]
In the vehicle storage device according to (1 ), the shaft portion of the rotating body is formed between the cylindrical portion and the positioning rib, and the inner side of the storage device body is located on the inner side of the storage device body from the outer side in the axial direction of the cylindrical portion. And a part of the torsion spring is disposed in the spring mounting groove, so that the spring mounting groove extends only to the inner side of the storage device main body from the outer surface of the side wall of the storage device main body. The axial length of the shaft portion of the moving body can be made smaller than before.
Further, the other end of the torsion spring passes through a hole provided in the inner wall of the spring mounting groove and is hooked on the rotating body. Therefore, a sufficient allowance for the other end of the torsion spring can be secured, and the torsion spring does not come off. Moreover, since it is not necessary to hook the other end portion of the torsion spring by providing a groove at the axial end of the rotating body, the shaft portion of the rotating body is not damaged by the spring force.
[0007]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, a vehicle storage device according to an embodiment of the present invention will be described with reference to FIGS.
The vehicle storage device according to the embodiment of the present invention is, for example, a vehicle accessory device, a vehicle cup holder device, or the like. However, the vehicle storage device according to the embodiment of the present invention is not limited to the above-described device.
The place where the vehicle storage device according to the embodiment of the present invention is disposed is, for example, an instrument panel, a console panel, an overhead console, or the like, which is an interior member of the vehicle. However, the vehicle storage device according to the embodiment of the present invention may be arranged at a place other than the above place.
As shown in FIG. 2, the vehicle storage device 10 according to the embodiment of the present invention includes a storage device body 20 having a side wall 21 provided with a bearing hole 22 and a shaft portion inserted into the bearing hole 22 of the storage device body 20. A rotating body 30 that is rotatably supported by the storage apparatus main body 20, and a torsion spring 40 that urges the rotation body 30 to rotate relative to the storage apparatus main body 20. .
[0008]
The storage device body 20 is made of resin, for example. The storage device body 20 is fixedly attached to an interior member (not shown) of the vehicle. The storage device body 20 is disposed in a hole (not shown) provided in an interior member of the vehicle. The design surface (vehicle compartment side surface) 20 a of the storage device main body 20 is substantially flush with the design surface of the interior member around the vehicle storage device 10.
The bearing hole 22 passes through the side wall 21 in the direction perpendicular to the side wall 21. The cross-sectional shape of the bearing hole 22 is a circle. The shaft portion 32 of the rotating body 30 is inserted into (inserted into) the bearing hole 22.
[0009]
The rotating body 30 is made of resin, for example. The rotating body 30 can be rotated between an open position where the stored item can be stored in the vehicle storage device 10 and a closed position where the stored item cannot be stored in the vehicle storage device 10. When the rotating body 30 is in the closed position, the design surface (vehicle compartment side surface) 30 a of the rotating body 30 is substantially flush with the design surface 20 a of the storage device body 20.
[0010]
The side wall 31 faces the side wall 21 of the storage device body 20 when the rotating body 30 is in the closed position.
The shaft portion 32 is integrally formed with the rotating body 30. The shaft portion 32 is inserted (inserted) into the bearing hole 22 of the storage device body 20 from the inside of the storage device body 20. An axial tip portion of the shaft portion 32 protrudes from the bearing hole 22 to the outside of the storage device main body 20. The shaft portion 32 is rotatable within the bearing hole 22. The rotating body 30 is rotatable with respect to the storage device main body 20 because the shaft portion 32 is rotatable in the bearing hole 22.
The shaft portion 32 includes a cylindrical portion 33, a positioning rib 34, and a spring mounting groove 35.
The outer peripheral surface of the cylindrical portion 33 is slidable with the edge of the bearing hole 22 of the storage device body 20. As shown in FIGS. 1 and 3, a cutout 33 a is provided in a portion of the cylindrical portion 33 that is located outside the outer surface 21 a of the side wall 21 of the storage device body 20. The notch 33 a is provided in a part of the cylindrical portion 33 in the circumferential direction.
The positioning rib 34 is provided on the radially inner side of the cylindrical portion 33. The cross-sectional shape of the positioning rib 34 may be a cross shape, a cylindrical shape, or a columnar shape (in the illustrated example, a cross shape is shown). The length of the positioning rib 34 protruding outward from the outer surface 21a of the side wall 21 of the storage device main body 20 is desirably longer than the length of the cylindrical portion 33 protruding outward from the outer surface 21a of the side wall 21 of the storage device main body 20. This is because it is easy to insert the winding portion 41 of the torsion spring 40 into the spring mounting groove 35.
As shown in FIG. 2, the spring attachment groove 35 is formed between the cylindrical portion 33 and the positioning rib 34. The spring mounting groove 35 extends from the outer end in the axial direction of the shaft portion 32 to the inner side of the storage device body 20 than the outer surface 21 a of the side wall 21 of the storage device body 20.
The spring mounting groove 35 extends in the circumferential direction of the shaft portion 32. The inner wall of the spring mounting groove 35 is configured by a part of the side wall 31 of the rotating body 30. A hole 35 a is provided in the inner wall of the spring mounting groove 35. The hole 35a penetrates the inner wall of the spring mounting groove 35 (the portion corresponding to the inner wall of the spring mounting groove 35 in the side wall 31 of the rotating body 30). The hole 35 a may be provided so as to extend in the circumferential direction of the shaft portion 32.
[0011]
A spacer 36 is provided on the side wall 21.
The spacer 36 is provided between the side wall 31 and the side wall 21 of the storage device body 20. The spacer 36 is provided so as to extend from the side wall 31 toward the side wall 21 of the storage device main body 20. Since the spacer 36 is provided, the rotating body 30 does not rattle in the storage device main body 20 in a direction parallel to the rotation axis of the rotating body 30.
[0012]
The torsion spring 40 has a winding part 41, one end part 42, and the other end part 43.
The winding portion 41 is disposed in the spring mounting groove 35. The winding portion 41 is rotatably attached to the positioning rib 34.
The one end portion 42 passes through the notch 33 a provided in the cylindrical portion 33, comes out of the shaft portion 32, and is hooked by a hook 23 provided at a predetermined position on the outer surface 21 a of the side wall 21 of the storage device body 20.
The other end 43 is inserted into the hole 35 a provided in the spring mounting groove 35, extends inside the rotating body 30, and is hooked on the side wall 31 of the rotating body 30.
One end portion 42 of the torsion spring 40 is hooked on the storage device 20, and the other end portion 43 of the torsion spring 40 is hooked on the rotating body 30, whereby the rotational force of the torsion spring 40 is obtained and the force for opening the rotating body 30. It becomes.
[0013]
Next, the operation of the embodiment of the present invention will be described.
The spring mounting groove 35 extends from the outer end of the shaft portion 32 in the axial direction to the inner side of the storage device body 20 than the outer surface 21a of the side wall 21 of the storage device body 20, and the winding portion 41 of the torsion spring 40 is spring mounted. It is disposed in the groove 35. Therefore, compared with the case where the torsion spring is disposed only in the portion of the shaft portion of the rotating body located outside the storage device with respect to the outer surface of the side wall of the storage device body (conventional), the spring mounting groove 35 has the storage device body 20. The axial length of the shaft portion 32 of the rotating body 30 can be reduced by an amount that is closer to the inner side of the storage device body 20 than the outer surface 21a of the side wall 21.
[0014]
The other end 43 of the torsion spring 40 extends through the hole 35 a provided in the spring mounting groove 35 to the inside of the rotating body 30 and is hooked on the side wall 31 of the rotating body 30. A sufficient allowance for the portion 43 can be secured, and the torsion spring 40 does not come off. Further, the force of the torsion spring 40 can be received by the side wall 31 of the rotating body 30, and the shaft portion 32 is not damaged by the spring force.
When a groove is provided at the tip of the shaft portion of the rotating body as in the conventional device, it is necessary to extend the shaft portion of the rotating body in the axial direction in order to form the groove. Since the end portion 43 is inserted through the hole 35a and extends to the inside of the rotating body 30 and is hooked on the side wall 31 of the rotating body 30, the shaft portion 32 does not need to be extended in the axial direction, and the tips of the cylindrical portion 33 and the positioning rib 34 are provided. The axial length of the shaft portion 32 can be reduced as compared with the case where the groove is provided in the shaft portion 32.
[0015]
【The invention's effect】
According to the storage device for vehicles according to claim 1 Symbol placement, times storage apparatus body than the side wall outer surface of the storage device main body is formed from the axial outer end of the cylindrical portion between the shaft portion and the positioning rib and the cylindrical portion of the body Since the torsion spring is partly disposed in the spring mounting groove, the spring mounting groove extends to the inner side of the storage device main body from the outer surface of the side wall of the storage device main body. As a result, the axial length of the shaft portion of the rotating body can be made smaller than before.
In addition, since the other end of the torsion spring passes through the hole provided in the back wall of the spring mounting groove and is hooked on the rotating body, a sufficient allowance for the other end of the torsion spring can be taken. It will not come off. Moreover, since it is not necessary to hook the other end portion of the torsion spring by providing a groove at the axial end of the rotating body, the shaft portion of the rotating body is not damaged by the spring force.
[Brief description of the drawings]
FIG. 1 is a side view showing a shaft portion and its vicinity of a storage device for a vehicle according to an embodiment of the present invention.
FIG. 2 is a cross-sectional view taken along line AA in FIG.
FIG. 3 is a perspective view showing a shaft portion and the vicinity thereof of the vehicle storage device according to the embodiment of the present invention.
FIG. 4 is a side view showing a shaft portion and its vicinity of a conventional vehicle storage device.
5 is a cross-sectional view taken along line BB in FIG.
FIG. 6 is a perspective view showing a shaft portion and its vicinity of a conventional vehicle storage device.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 10 Vehicle storage device 20 Storage device main body 21 Side wall 21a of storage device main body Outer surface 22 of side wall of storage device main body Bearing hole 23 Hook 30 Rotating body 31 Side wall 32 of rotating body Shaft 33 Cylindrical portion 34 Positioning rib 35 Spring mounting groove 35a Hole 35a
40 Torsion spring 41 Torsion spring winding portion 42 Torsion spring one end portion 43 Torsion spring other end portion

Claims (1)

軸受け穴が設けられた側壁を有する収納装置本体と、
前記収納装置本体の軸受け穴に挿入される軸部が設けられた側壁を有し、前記収納装置本体に回動可能に支持される回動体と、
前記回動体を前記収納装置本体に対し回動付勢するトーションバネと、
を有し、
前記回動体の軸部は、前記収納装置本体の軸受け穴の縁と摺動可能な円筒部と、該円筒部の内側に設けられる位置決めリブと、前記円筒部と前記位置決めリブとの間に形成され前記円筒部の軸方向外側端から前記収納装置本体の側壁外面よりも前記収納装置本体の内部側に延びるバネ取付け溝とを、有しており、
前記トーションバネは、前記バネ取付け溝内に配置される巻き部と、前記収納装置本体に引っ掛けられる一端部と、前記回動体に引っ掛けられる他端部と、を備えており、
前記トーションバネの巻き部の、前記トーションバネの一端部側の端部は、該巻き部の軸方向で、前記収納装置本体及び前記回動体と接触しておらず、
前記バネ取付け溝の奥壁に穴が設けられており、
前記トーションバネの一端部は前記円筒部から外に出て前記収納装置本体に引っ掛けられており、前記トーションバネの他端部は前記バネ取付け溝の奥壁の穴を貫通して延びて前記回動体に引っ掛けられている、
車両用収納装置。
A storage device body having a side wall provided with a bearing hole;
A rotating body having a side wall provided with a shaft portion to be inserted into a bearing hole of the storage device body, and rotatably supported by the storage device body;
A torsion spring that urges the rotating body to rotate relative to the storage device body;
Have
The shaft portion of the rotating body is formed between the edge of the bearing hole of the storage device main body and a slidable cylindrical portion, a positioning rib provided inside the cylindrical portion, and the cylindrical portion and the positioning rib. And a spring mounting groove extending from the outer side in the axial direction of the cylindrical portion to the inner side of the storage device main body than the outer surface of the side wall of the storage device main body.
The torsion spring includes a winding portion disposed in the spring mounting groove, one end portion hooked on the storage device main body, and the other end portion hooked on the rotating body,
The end of the winding portion of the torsion spring on the one end side of the torsion spring is not in contact with the storage device main body and the rotating body in the axial direction of the winding portion,
A hole is provided in the back wall of the spring mounting groove,
One end portion of the torsion spring goes out of the cylindrical portion and is hooked on the storage device main body, and the other end portion of the torsion spring extends through a hole in the back wall of the spring mounting groove and extends in the rotation direction. Being caught by a moving object,
Vehicle storage device.
JP2003116549A 2003-04-22 2003-04-22 Vehicle storage device Expired - Fee Related JP4210144B2 (en)

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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2009273656A (en) * 2008-05-14 2009-11-26 Nippon Pachinko Buhin Kk Shooting handle for game machine and game machine equipped with the same
JP2009285258A (en) * 2008-05-30 2009-12-10 Nippon Pachinko Buhin Kk Shooting handle for game machine and game machine with the same
JP5585842B2 (en) * 2010-09-17 2014-09-10 豊田合成株式会社 Storage device with lid

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