[go: up one dir, main page]
More Web Proxy on the site http://driver.im/

JP2011207393A - Hinge structure of storage box - Google Patents

Hinge structure of storage box Download PDF

Info

Publication number
JP2011207393A
JP2011207393A JP2010078317A JP2010078317A JP2011207393A JP 2011207393 A JP2011207393 A JP 2011207393A JP 2010078317 A JP2010078317 A JP 2010078317A JP 2010078317 A JP2010078317 A JP 2010078317A JP 2011207393 A JP2011207393 A JP 2011207393A
Authority
JP
Japan
Prior art keywords
shaft
peripheral wall
lid
bearing
hinge
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
JP2010078317A
Other languages
Japanese (ja)
Other versions
JP5582842B2 (en
Inventor
Yoshiyuki Takai
良之 高井
Kentaro Hayashi
健太郎 林
Takeshi Shirakawa
武志 白川
Suguru Kataoka
卓 片岡
Masaya Ikoma
将也 生駒
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Daihatsu Motor Co Ltd
Original Assignee
Daihatsu Motor Co Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Daihatsu Motor Co Ltd filed Critical Daihatsu Motor Co Ltd
Priority to JP2010078317A priority Critical patent/JP5582842B2/en
Publication of JP2011207393A publication Critical patent/JP2011207393A/en
Application granted granted Critical
Publication of JP5582842B2 publication Critical patent/JP5582842B2/en
Active legal-status Critical Current
Anticipated expiration legal-status Critical

Links

Landscapes

  • Passenger Equipment (AREA)
  • Vehicle Step Arrangements And Article Storage (AREA)
  • Closures For Containers (AREA)

Abstract

PROBLEM TO BE SOLVED: To overcome a problem that, in a hinge structure which pivotally and rotationally supports a lid and a glove box, a metallic hinge pin is used or a method such as of having integrally-formed shaft and bearing fitted with each other at a specific angle is employed, while, in either case, components are individually acquired, and the angle at which the lid and box are mounted is restricted.SOLUTION: A hinge 3 is adapted to have its shaft 31 and a bearing 32 on the box 1 side and lid 2 side respectively, while the shaft 31 is provided so as to have a gap S between its segmenting edges on a route between both side supporting walls 4, 5. The bearing 32 has a passing side peripheral wall 32b that is allowed to pass through the gap S in the direction in which the lid 2 is mounted so as to have a bearing hole 32a fitted to the shaft 31 from the direction perpendicular to the shaft, and a counter-passing-side peripheral wall 32c whose width is wider than the width of the passing side peripheral wall, so that the passing side peripheral wall 32b of the bearing 32 can pass the gap S while pushing and opening it, either along the respective segmenting edge faces of the shaft 31 or along one of the two side surfaces of the passing side peripheral wall 32b of the bearing 32. In the direction of the hinge being disengaged, the passing side peripheral wall 32 has guide surfaces 33 formed either into tapered surfaces or curved surfaces for the passing side peripheral wall to be locked with the shaft 31 at the locking piece T.

Description

本発明は、自動車のインストルメントパネルなどに設けられる収納ボックスのヒンジ構造に関し、詳しくは、ボックス側と蓋側との、一方にヒンジの軸を、他方にヒンジの軸受を、有した収納ボックスのヒンジ構造に関する。   The present invention relates to a hinge structure of a storage box provided on an instrument panel or the like of an automobile, and more specifically, a storage box having a hinge shaft on one side and a hinge bearing on the other side of the box side and the lid side. The present invention relates to a hinge structure.

従来、図5に示すように、ボックスにねじ止めするヒンジカバーaと蓋インナbとを金属製のヒンジピンcで連結するヒンジ構造が知られている。このヒンジピンcは、周壁の周方向1箇所に軸線方向の切り離し部dを有したパイプ構造をなしている。蓋インナbはヒンジカバーaの連結部に嵌合し、蓋インナbの連結部gとヒンジカバーaの連結孔fにヒンジピンcが圧入されることで、蓋インナbはガタツキなく回転させられる程度の嵌め合いで固定される。なお、蓋インナbは、表側から蓋アウタhを嵌め合わせて内装される。   Conventionally, as shown in FIG. 5, a hinge structure is known in which a hinge cover a and a lid inner b that are screwed to a box are connected by a metal hinge pin c. The hinge pin c has a pipe structure having an axially separated portion d at one circumferential direction of the peripheral wall. The lid inner b is fitted into the connecting portion of the hinge cover a, and the hinge pin c is press-fitted into the connecting portion g of the lid inner b and the connecting hole f of the hinge cover a, so that the lid inner b can be rotated without rattling. It is fixed by fitting. In addition, the lid inner b is internally fitted by fitting the lid outer h from the front side.

また、特許文献1は、グローブボックスのボックス側に設けた軸受に相当する保持部と、インストルメントパネルの側に設けた支軸との軸直角方向からの嵌め合わせによって、グローブボックスを着脱できるように組み付けるヒンジ構造を開示している。この軸直角方向からの嵌め合わせのために、前記保持部にその周方向一部を直径未満の幅で開放する入口部を設け、また前記支軸の断面を、前記入口部に出し入れできる狭幅部と、前記入口部に出し入れできない広幅部とを有した小判型断面形状としている。   Further, Patent Document 1 allows the glove box to be attached and detached by fitting the holding portion corresponding to the bearing provided on the box side of the glove box and the support shaft provided on the instrument panel side in a direction perpendicular to the axis. Discloses a hinge structure to be assembled to. For the fitting from the direction perpendicular to the axis, the holding part is provided with an inlet part that opens a part in the circumferential direction with a width less than the diameter, and the cross-section of the support shaft is narrow enough to be taken in and out of the inlet part. And an oval cross-sectional shape having a wide portion that cannot be taken in and out of the inlet portion.

これにより、グローブボックスの入口部をインストルメントパネル側の支軸の狭幅部に対向させて差し込んだ後、グローブボックスを閉方向に回転させれば、広幅部が入口部に対向して外れない向きとなって組み付けができる。しかし、ボックスを前記軸差し込み時の位置に戻せば取り外せる。   As a result, if the glove box is inserted in a state where the inlet part of the glove box is opposed to the narrow part of the supporting shaft on the instrument panel side and then the glove box is rotated in the closing direction, the wide part does not face the inlet part. Can be assembled in the direction. However, it can be removed by returning the box to the position when the shaft is inserted.

また、特許文献2は、インストルメントパネル側に設置した円柱状のピンと、このグローブボックスの蓋側と一体に形成された軸受との軸直角方向からの嵌め合わせによって蓋を着脱できるように組み付けるヒンジ構造を開示している。この軸直角方向からの嵌め合わせのために、前記軸受を筒状のピンの直径と同幅で一方に開放した形状とする。そして、蓋を開閉域外となる所定の向きとしたときには、嵌め合わせ口を通じ、軸受をピンに嵌め合わすことができ、この嵌め合わせ状態で蓋を開閉域に回動させるとピンが嵌め合わせ口から外れない位置関係となり蓋を組み付けられる。しかし、蓋を前記嵌め合わせ時の位置に戻せば取り外せる。   Patent Document 2 discloses a hinge that is assembled so that a lid can be attached and detached by fitting a cylindrical pin installed on the instrument panel side and a bearing formed integrally with the lid side of the glove box from the direction perpendicular to the axis. The structure is disclosed. For fitting from the direction perpendicular to the axis, the bearing has the same width as the diameter of the cylindrical pin and is open to one side. When the lid is in a predetermined direction outside the opening / closing area, the bearing can be fitted to the pin through the fitting opening, and when the lid is turned to the opening / closing area in this fitting state, the pin is removed from the fitting opening. The lid cannot be removed and the lid can be assembled. However, it can be removed by returning the lid to the position at the time of fitting.

さらに、下記の特許文献3は、グローブボックスと、開口の下縁でインストルメントパネルの裏側に位置する下部開口フレームに支持片を介して取り付けられるヒンジピンと、グローブボックスの下縁に形成されヒンジピンに係合されるフック部を有するヒンジブラケットと、フック部の隙間開口より最深部へのヒンジピンの移動を許容した上で最深部からの離脱を阻止するいわゆる返り状などとした爪部材とを具備し、前記ヒンジピンの最深部への移動を許容するためにフック部と爪部材との少なくとも一方が弾性を有するように形成されたものとしている。   Further, Patent Document 3 below includes a glove box, a hinge pin attached to a lower opening frame located on the back side of the instrument panel at the lower edge of the opening via a support piece, and a hinge pin formed on the lower edge of the glove box. A hinge bracket having a hook portion to be engaged, and a claw member having a so-called return shape or the like that allows the hinge pin to move from the clearance opening of the hook portion to the deepest portion and prevents separation from the deepest portion. In order to allow the hinge pin to move to the deepest part, at least one of the hook part and the claw member is formed to have elasticity.

特開2000−95029号公報JP 2000-95029 A 特開2004−149061号公報JP 2004-149061 A 特開2004−262334号公報JP 2004-262334 A

しかし、図5に示す従来例のように金属製のヒンジピンを用いるのではそれだけでコストアップになる。また、金属製のヒンジピンを圧入する作業は容易でなく、作業効率上コストアップになる。さらに、金属部品の増加はリサイクル性の低下となる。   However, using a metal hinge pin as in the conventional example shown in FIG. 5 alone increases the cost. Moreover, the work of press-fitting a metal hinge pin is not easy, and the cost increases in terms of work efficiency. Furthermore, an increase in metal parts results in a decrease in recyclability.

特許文献1、2が開示するヒンジ構造は、金属製のヒンジピンを用いず、グローブボックスと蓋とに一体に形成した軸と軸受とを嵌め合わせるだけのもので、コストの低減は図れる。しかし、軸と軸受が着脱できるボックスや蓋の角度が特定しているので、組み付け時のボックスや蓋の角度が制限される。また、組み付け後、ボックスや蓋が、偶然着脱できる角度に回転するのを防止するストッパやストッパ機構が必要になるので、構造が複雑化し高価になる。   The hinge structures disclosed in Patent Documents 1 and 2 do not use a metal hinge pin, but only fit a shaft and a bearing that are integrally formed on the glove box and the lid, so that the cost can be reduced. However, since the angle of the box and lid to which the shaft and the bearing can be attached and detached is specified, the angle of the box and lid at the time of assembly is limited. In addition, after assembly, a stopper and a stopper mechanism for preventing the box and lid from being rotated to an angle at which they can be accidentally attached and detached are required, which makes the structure complicated and expensive.

特許文献3が開示するヒンジ構造は、フック部に設けた返りなどによって軸の外れ側への乗り越し荷重を上げて、軸がフック部の最深部から不用意に外れるのを防止しているので、組み付け性向上のために組み付け荷重を下げると、外れ荷重が低下してしまうという問題がある。   The hinge structure disclosed in Patent Document 3 increases the overload to the shaft detachment side by a return provided in the hook portion, and prevents the shaft from being inadvertently detached from the deepest portion of the hook portion. When the assembly load is lowered to improve the assemblability, there is a problem that the detachment load decreases.

本発明は、上記のような問題点に鑑み、ボックス側、蓋側の一方にヒンジの軸を、他方にヒンジの軸受を持つだけの簡単かつ安価な構造で、蓋の開き角度によらず簡単に嵌め合わせて組み付けられ、かつ、嵌め合わせを解除する角度や位置を持たない収納ボックスのヒンジ構造を提供することを目的とする。   In view of the above problems, the present invention has a simple and inexpensive structure in which a hinge shaft is provided on one of the box side and the lid side and a hinge bearing is provided on the other side. It is an object of the present invention to provide a hinge structure of a storage box that is fitted and assembled and has no angle or position for releasing the fitting.

本発明の収納ボックスのヒンジ構造は、
ボックス側と蓋側との、一方にヒンジの軸を、他方にヒンジの軸受を持った収納ボックスのヒンジ構造において、
軸は、両側支持壁間で途中を分断して分断端間に隙間を形成するように設けられ、
軸受は、前記隙間に蓋の組み付け方向に通過させて軸受孔を前記軸に軸直角方向から嵌め合わせるための通過側周壁と、通過側周壁より幅の広い反通過側周壁を有し、
軸の各分断端面と、軸受の通過側周壁の両側面との少なくとも一方に、
通過側周壁が軸の分断端間の隙間を押し広げながら通過でき、
外れ方向側には係止代を有して軸で係止されるための、前記組み付け方向側に先細りとなるテーパ面または曲面とした案内面を形成したことを特徴とする。
The hinge structure of the storage box of the present invention is
In the hinge structure of the storage box with the hinge side on one side and the hinge bearing on the other side of the box side and the lid side,
The shaft is provided so as to divide the middle between the supporting walls on both sides to form a gap between the divided ends,
The bearing has a passage-side circumferential wall for allowing the bearing hole to be fitted to the shaft from a direction perpendicular to the axis by passing the gap in the assembly direction of the lid, and a non-passing-side circumferential wall wider than the passage-side circumferential wall,
On at least one of each divided end surface of the shaft and both side surfaces of the passing side peripheral wall of the bearing,
Passing side peripheral wall can pass while expanding the gap between shaft split ends,
A tapered guide surface or a curved guide surface is formed on the assembling direction side so as to be locked by a shaft with a locking margin on the disengagement direction side.

本発明のヒンジ構造を有する収納ボックスに蓋を取り付ける際は、上記の構成の軸受けの通過側周壁を軸の分断端間の隙間に、蓋の組付け方向に滑り込ませるようにして通過させる。すると、通過側周壁よりも幅が広い反通過側周壁が軸に受止められる形で、軸と軸受孔とが嵌め合わさり、ボックスに蓋を開閉できるように組み付けられる。この時、軸の各分断端面と、軸受の通過側周壁の両側面との、少なくとも一方に形成したテーパ面または曲面が、蓋の組み付け方向に先細りとした案内面の案内になり、スムーズに軸受を軸の分断端間に挿入することができる。   When the lid is attached to the storage box having the hinge structure of the present invention, the passage-side peripheral wall of the bearing having the above-described configuration is passed through the gap between the divided ends of the shaft so as to be slid in the assembling direction of the lid. Then, the non-passing-side peripheral wall having a width wider than that of the passing-side peripheral wall is received by the shaft, and the shaft and the bearing hole are fitted together so that the cover can be opened and closed. At this time, the tapered surface or curved surface formed on at least one of the divided end surfaces of the shaft and both side surfaces of the bearing-side peripheral wall serves as a guide for the guide surface that tapers in the direction in which the lid is assembled. Can be inserted between the split ends of the shaft.

また、同時に、軸と軸受孔との嵌め合わせ状態では、通過側周壁は、軸に対する外れ方向側には軸と所定の係止代を有して係止されるので、蓋に外れ方向側の力が働くだけでは、通過側周壁が軸の分断端間の隙間に入り込んで押し広げて外れてしまうことはない。   At the same time, in the fitted state of the shaft and the bearing hole, the passage-side peripheral wall is locked with a predetermined locking allowance with the shaft on the disengagement side with respect to the shaft. If the force only acts, the passage-side peripheral wall will not enter the gap between the shaft split ends, and will not spread out.

本発明の収納ボックスのヒンジ構造によれば、両側壁間に途中を分断して設けられた軸と、その分断端間の隙間を通過させて軸受孔を軸に嵌め合わせる幅の狭い通過側周壁を有した軸受との簡単かつ安価な組み合わせで、軸受の通過側周壁を、軸の分断端間の隙間に案内面による相互間の案内を伴い滑り込ませるようにして、隙間を押し広げながら蓋の組み付け方向に通過させるだけで、蓋を特別なヒンジ嵌め合わせ位置にするような必要もなく、それら軸と軸受孔とを嵌め合わせてボックスに蓋を手間なく迅速に組み付け開閉させられる。   According to the hinge structure of the storage box of the present invention, a narrow passing side in which a shaft provided by dividing the middle between both side walls and a gap between the divided ends is fitted to fit the shaft into the shaft. With a simple and inexpensive combination with a bearing having a peripheral wall, the passing side peripheral wall of the bearing is slid into the gap between the split ends of the shaft with mutual guidance by the guide surface, while expanding the gap. By simply passing the lid in the assembling direction, it is not necessary to place the lid in a special hinge fitting position, and the shaft and the bearing hole can be fitted together so that the lid can be quickly assembled and opened without trouble.

同時に、軸と軸受孔の嵌め合わせ状態では、通過側周壁は外れ方向側には所定の係止代を確保して軸に係止されるので、特別な外れ止めストッパや機構なしに不用意に取り付けた蓋が外れることを確実に防止できる。また、前記係止は、係止代分の引っ掛かり合いによって、組み付けた蓋に外れ方向の力が作用するだけでは外れないが、分断軸端間の隙間を工具などで係止代を無くすまで広げれば係止が解けて取り外せるので、メンテナンスに不便とはならない。   At the same time, in the fitted state of the shaft and the bearing hole, the passage-side peripheral wall is locked to the shaft with a predetermined locking allowance on the disengagement side, so carelessly without a special locking stopper or mechanism It is possible to reliably prevent the attached lid from coming off. In addition, the locking does not come off only by the force in the disengagement direction acting on the assembled lid due to the catching amount of the locking allowance, but the gap between the split shaft ends can be expanded with a tool etc. until the locking allowance is eliminated. Since it can be unlocked and removed, maintenance is not inconvenient.

本発明の実施の形態に係る収納ボックスの、ヒンジ構造の1つの具体例を示し、(a)は収納ボックスに蓋をヒンジにより組み付けた状態を示す断面図、(b)は軸と軸受の嵌りあい状態を示す横断平面図、(c)は軸受単独の横断平面図、(d)は軸と軸受の関係を示す斜視図である。The concrete example of the hinge structure of the storage box concerning an embodiment of the invention is shown, (a) is a sectional view showing the state where the lid was assembled to the storage box by the hinge, (b) is the fitting of the shaft and the bearing FIG. 3C is a cross-sectional plan view showing the idle state, FIG. 3C is a cross-sectional plan view of the bearing alone, and FIG. 4D is a perspective view showing the relationship between the shaft and the bearing. 同ヒンジ構造のヒンジ部を上方から見た横断平面図である。It is the cross-sectional top view which looked at the hinge part of the hinge structure from the upper direction. 同ヒンジ構造のヒンジ部を蔓巻きばね装着部で見た横断平面図である。It is the cross-sectional top view which looked at the hinge part of the hinge structure with the vine spring attachment part. 同ヒンジ構造をヒンジの軸を持ったヒンジカバー、ヒンジの軸受を持った蓋インナ、蓋インナを表側から外装する蓋アウタに分解して示す斜視図である。It is a perspective view which decomposes | disassembles and shows the hinge structure which has the hinge structure with the axis | shaft of a hinge, the lid inner which has a bearing of a hinge, and the lid outer which coat | covers a lid inner from the front side. 従来のヒンジ構造をヒンジの軸を持ったヒンジカバー、ヒンジの軸受を持った蓋インナ、蓋インナを表側から外装する蓋アウタに分解して示す斜視図である。It is a perspective view which decomposes | disassembles the conventional hinge structure into the cover outer which covers the hinge cover which has the axis | shaft of a hinge, the cover inner which has a bearing of a hinge, and a cover inner from the front side.

本発明の実施の形態に係る収納ボックスの、ヒンジ構造の1つの具体例につき、図1〜4を参照して説明し、本発明の理解に供する。従って、以下の説明は本発明の具体例であって、特許請求の範囲の記載事項を限定するものではない。   One specific example of the hinge structure of the storage box according to the embodiment of the present invention will be described with reference to FIGS. 1 to 4 for the understanding of the present invention. Accordingly, the following description is a specific example of the present invention and does not limit the description of the claims.

本実施の形態の、収納ボックスのヒンジ構造は、図1(a)に示すように、ボックス1側と蓋2側との、一方にヒンジ3の軸31を、他方にヒンジ3の軸受32を持っている。具体的には、軸31はボックス1側に設け、軸受32は蓋2側に設けているが、逆になっても基本的な作用、効果に変わりはない。   As shown in FIG. 1A, the hinge structure of the storage box according to the present embodiment includes a shaft 31 of the hinge 3 on one side of the box 1 side and the lid 2 side, and a bearing 32 of the hinge 3 on the other side. have. Specifically, the shaft 31 is provided on the box 1 side, and the bearing 32 is provided on the lid 2 side. However, the basic operation and effect are not changed even if it is reversed.

図1(b)は、軸と軸受が嵌合した状態を表す横断平面図であり、図1(c)は軸単独の横断平面図である。軸31は、ボックス1に形成された両側支持壁4、5の間に形成された円筒形で、軸受32が挿入されてくる側に直径以下の幅のスリットが、支持壁4、5間に渡って形成されている。また、この円筒形の軸は、両側支持壁4、5の間で分断されており、その分断端間には隙間Sが形成されている。さらに、この隙間Sは、軸受32が挿入される側から貫通する側に幅が狭まるテーパ形状を有している。言い換えると、軸31は樋形状をしている。   FIG. 1B is a cross-sectional plan view showing a state where the shaft and the bearing are fitted, and FIG. 1C is a cross-sectional plan view of the shaft alone. The shaft 31 has a cylindrical shape formed between both side support walls 4 and 5 formed in the box 1, and a slit having a width equal to or smaller than the diameter is formed between the support walls 4 and 5 on the side where the bearing 32 is inserted. It is formed across. Further, the cylindrical shaft is divided between both side support walls 4 and 5, and a gap S is formed between the divided ends. Further, the gap S has a tapered shape whose width is narrowed from the side through which the bearing 32 is inserted to the side penetrating. In other words, the shaft 31 has a hook shape.

一方、軸受32は、蓋2側に設けられ、上記の隙間Sを通過する通過側周壁32bと、隙間Sを通過しない反通過側周壁32cを有する。通過側周壁32bと反通過側周壁32cは互いに円筒形状の側面の半分ずつを担当し、それぞれの周壁によって軸31を受け入れる貫通孔である軸受孔32aを形成する。なお、通過側周壁32bは蓋2がボックス1に挿入される方向に形成され、反通過側周壁32cは通過側周壁32bと反対側に、通過側周壁32bを正面視して、通過側周壁32bの両側に位置するように形成される。すなわち、反通過側周壁32cは通過側周壁32bより幅が広い。また、反通過側周壁32cは、その上部に通過側周壁32b側に向かう庇部32eを有する。   On the other hand, the bearing 32 is provided on the lid 2 side, and has a passage-side peripheral wall 32b that passes through the gap S and an anti-passage-side peripheral wall 32c that does not pass through the gap S. The passage-side peripheral wall 32b and the counter-passage-side peripheral wall 32c are in charge of half of the cylindrical side surfaces, and a bearing hole 32a that is a through hole that receives the shaft 31 is formed by each peripheral wall. The passage-side peripheral wall 32b is formed in the direction in which the lid 2 is inserted into the box 1. The counter-passage-side peripheral wall 32c is opposite to the passage-side peripheral wall 32b, and the passage-side peripheral wall 32b is viewed from the front. It is formed so that it may be located on both sides. That is, the non-passing side peripheral wall 32c is wider than the passing side peripheral wall 32b. Further, the non-passing side peripheral wall 32c has a flange portion 32e at the upper part thereof toward the passing side peripheral wall 32b.

通過側周壁32bの先端幅B1は軸31の隙間の幅Sより狭く、軸受孔32aの内壁に向かって幅広になる。軸受32が軸31と嵌合した際には、通過側周壁32bは、軸31の軸受32が挿入されたのと反対側の隙間から突出する。ここで、通過側周壁32bの内壁面は軸31の隙間より広く、所定の係止代Tが確保されている。   The front end width B1 of the passage-side peripheral wall 32b is narrower than the width S of the gap of the shaft 31, and becomes wider toward the inner wall of the bearing hole 32a. When the bearing 32 is fitted to the shaft 31, the passage-side peripheral wall 32b protrudes from the gap on the opposite side of the shaft 31 where the bearing 32 is inserted. Here, the inner wall surface of the passage-side peripheral wall 32b is wider than the gap of the shaft 31, and a predetermined locking allowance T is secured.

なお、軸31の各分断端面と、軸受32の通過側周壁32bの両側面との少なくとも一方には、通過側周壁32bが軸31の分断端間の隙間Sを押し広げながら通過でき、前記組み付け方向Aと真逆な外れ方向側には、図1(b)に示す所定の係止代Tによって、軸31に係止させられるための組み付け方向Aの側に先細りとなる、テーパ面または曲面とした案内面33が形成されている。本実施の形態では、テーパ面33は、軸受32の通過側周壁32bにも軸31の隙間Sにもどちらにも形成されているが、少なくともいずれか一方にテーパ面若しくは曲面が形成されていればよい。   The passage-side peripheral wall 32b can pass through at least one of the divided end surfaces of the shaft 31 and both side surfaces of the passage-side peripheral wall 32b of the bearing 32 while expanding the gap S between the divided ends of the shaft 31, A taper surface tapering on the side in the assembly direction A for being locked to the shaft 31 by a predetermined locking allowance T shown in FIG. A curved guide surface 33 is formed. In the present embodiment, the tapered surface 33 is formed on both the passage-side peripheral wall 32b of the bearing 32 and the clearance S of the shaft 31, but a tapered surface or a curved surface is formed on at least one of them. That's fine.

蓋2をボックス1に取り付ける際は、通過側周壁32bは、案内面33に従って、軸31の分断端間の隙間Sに滑り込ませるようにして隙間Sを両側支持壁4、5の撓みを伴い押し広げながら通過させられる。   When the lid 2 is attached to the box 1, the passage-side peripheral wall 32 b is slid into the gap S between the divided ends of the shaft 31 in accordance with the guide surface 33, and the gap S is caused to bend the support walls 4, 5 on both sides. It is allowed to pass while spreading.

これには、通過側周壁32bの通過側幅B1が軸31の各分断端面の反通過側幅B2よりも小さいことが必要である。前記通過側周壁32bが軸31の分断端間の隙間Sを通過したとき、通過側周壁32bよりも幅が広く、通過側周壁32bと軸受孔32aを分担し合って形成する反通過側周壁32cが、軸31に受止められる。その結果、軸31に軸受孔32aが嵌め合わされ、蓋2がボックス1に開閉できるように組み付けられる。   This requires that the passage-side width B1 of the passage-side peripheral wall 32b is smaller than the counter-passing-side width B2 of each divided end surface of the shaft 31. When the passage-side peripheral wall 32b passes through the gap S between the split ends of the shaft 31, the width is wider than the passage-side peripheral wall 32b and the counter-passage-side peripheral wall is formed by sharing the passage-side peripheral wall 32b and the bearing hole 32a. 32c is received by the shaft 31. As a result, the bearing hole 32 a is fitted to the shaft 31, and the lid 2 is assembled so that it can be opened and closed on the box 1.

上記のように蓋2とボックス1が組付けられると、軸31と軸受孔32aとの嵌め合わせ状態では、通過側周壁32bは組み付け方向Aとは真逆な外れ方向側には、軸31に所定の係止代Tを有して係止されるので、通過側周壁32bが軸31の分断端間、つまり隙間Sを押し広げて軸受32が軸31から外れることはない。   When the lid 2 and the box 1 are assembled as described above, in the fitted state of the shaft 31 and the bearing hole 32a, the passage-side peripheral wall 32b is disposed on the shaft 31 on the disengagement direction side opposite to the assembly direction A. Since it is locked with a predetermined locking allowance T, the passage-side peripheral wall 32b does not spread between the split ends of the shaft 31, that is, the gap S, and the bearing 32 does not come off the shaft 31.

しかし、蓋2が回転し、通過側周壁32bが軸31の幅B2を有する隙間S側に位置すると、蓋2はボックス1から外れることも考えられる。従って、蓋2が通常使用される開閉角度の幅内で、通過側周壁32bと軸31との間の係止代Tが確保されている必要がある。この開閉角度は60°乃至70°程度が望ましい。なお、図1(a)では65°の場合を示した。すなわち、本発明のヒンジ構造では、使用状態の開閉角度内に、ヒンジの取付角度が存在しないので、使用中に偶然であっても蓋2が外れる事がない。   However, when the lid 2 rotates and the passage-side peripheral wall 32b is positioned on the gap S side having the width B2 of the shaft 31, the lid 2 may be detached from the box 1. Therefore, it is necessary to secure a locking margin T between the passage-side peripheral wall 32b and the shaft 31 within the width of the opening / closing angle in which the lid 2 is normally used. The opening / closing angle is preferably about 60 ° to 70 °. FIG. 1A shows the case of 65 °. That is, in the hinge structure of the present invention, the hinge mounting angle does not exist within the opening / closing angle of the used state, so that the lid 2 does not come off even if it happens accidentally during use.

以上のような構成によれば、両側壁4、5間に途中を分断して設けられた軸31と、その分断端間の隙間Sを通過させて、軸受孔32aを軸31に嵌め合わせる通過側周壁32bを有した軸受32との簡単かつ安価な組み合わせにて、通過側周壁32bを軸31の分断端間の隙間Sに、相互間の案内面33による案内を伴い滑り込ませて、隙間Sを押し広げながら、蓋2の組み付け方向Aに通過させるだけで、蓋2を特別なヒンジ嵌め合わせ位置にするような必要もなく、それら軸31と軸受32とを嵌め合わせてボックス1に蓋2を手間なく迅速に組み付け開閉させられる。   According to the configuration described above, the shaft 31 provided by dividing the middle between the side walls 4 and 5 and the clearance S between the divided ends are passed, and the bearing hole 32a is fitted to the shaft 31. In a simple and inexpensive combination with the bearing 32 having the passage-side peripheral wall 32b, the passage-side peripheral wall 32b is slid into the gap S between the split ends of the shaft 31 with guidance by the mutual guide surfaces 33, It is not necessary to place the lid 2 in a special hinge fitting position by simply passing it in the assembly direction A of the lid 2 while expanding the gap S. The shaft 31 and the bearing 32 are fitted together in the box 1. The lid 2 can be assembled and opened quickly without trouble.

同時に、嵌め合わせ後の通過側周壁32bは外れ方向側には軸31に所定の係止代Tを有して係止されるので、特別な外れ止めストッパや機構なしに不用意に外れるのを確実に防止でき、これによってもコスト低減が図れる。   At the same time, the passage-side peripheral wall 32b after fitting is locked on the shaft 31 with a predetermined locking allowance T on the disengagement side, so that it can be inadvertently removed without a special stopper or mechanism. This can be surely prevented, and this can also reduce the cost.

また、前記軸31による軸受32の通過側周壁32bに対する係止は、係止代T分の引っ掛かり合いによるものであるので、組み付けた蓋2に外れ方向の力が作用するだけでは、引っ掛かり合いは外れない。しかし、メンテナンスなどの理由で蓋を外す必要がある場合は、軸31の分断軸端間の隙間Sを工具などで係止代以上の幅まで広げれば係止を解くことができる。そこで、軸31には、前記係止の解除操作が容易なように、分断端の先端に係止代T域に隣接して丸みを持つ丸み形状部31aを形成するのが、より好適である。   Further, the locking of the shaft 32 with respect to the passage-side peripheral wall 32b of the bearing 32 is due to the engagement of the locking allowance T, so that the engagement is only caused by the force in the disengagement direction acting on the assembled lid 2. I can't come off. However, when it is necessary to remove the lid for maintenance or the like, the locking can be released by widening the gap S between the divided shaft ends of the shaft 31 to a width larger than the locking allowance with a tool or the like. Therefore, it is more preferable that the shaft 31 is formed with a rounded portion 31a having a roundness adjacent to the locking allowance T region at the tip of the dividing end so that the releasing operation of the locking is easy. is there.

このような丸み部31aは係止代Tに隣接しているだけで、係止代Tの働きを阻害しない。従って係止代Tを特に大きくしなくても、両側支持壁4、5間での軸受部32の横移動防止機能が確保され、なおかつ、通過側周壁32bが軸31の各分断端先端の丸み形状部31a間に嵌り込むことはないし、外れることもない。また、係止代Tを小さくできるので、少ない押し広げ量で軸31の分断端間を通過側周壁32bが通過することができ、前記丸み部31a間に位置させることができる。   Such a rounded portion 31 a is only adjacent to the locking allowance T and does not hinder the function of the locking allowance T. Therefore, even if the locking allowance T is not particularly increased, the function of preventing the lateral movement of the bearing portion 32 between the both side support walls 4 and 5 is ensured, and the passage-side peripheral wall 32b is provided at the tip of each divided end of the shaft 31. It does not fit between the round-shaped portions 31a and does not come off. Further, since the locking allowance T can be reduced, the passage-side peripheral wall 32b can pass between the split ends of the shaft 31 with a small amount of spreading, and can be positioned between the rounded portions 31a.

図示例では、案内面33は図1(b)に示すように、軸31の各分断端面と、通過側周壁32bの両側面との双方にほぼ同じ角度の先細り形状にて左右対称に形成してある。これによって、通過側周壁32bは軸31の分断端間に双方の案内面33どうしが面接触して、軸31の分断端間の隙間Sに安定に滑り込み、隙間Sを左右均等に押し広げながら難なく通過するので、蓋2の組み付けがさらにスムーズに失敗なく行える。   In the illustrated example, as shown in FIG. 1B, the guide surface 33 is formed symmetrically in a tapered shape with substantially the same angle on both the divided end surfaces of the shaft 31 and both side surfaces of the passage-side peripheral wall 32b. It is. As a result, the passage-side peripheral wall 32b is in contact with the guide surfaces 33 between the divided ends of the shaft 31, and stably slides into the gap S between the divided ends of the shaft 31, and pushes the gap S evenly to the left and right. Since it passes without difficulty while spreading, the lid 2 can be assembled more smoothly and without failure.

図1〜図4に示す収容ボックスは、樹脂製のインストルメントパネル41に設けた場合の1つの例である。インストルメントパネル1に一体成形するなどして設けたボックス1と、このボックス1に図1に示すようにねじ42により着脱自在に取り付けられる樹脂製のヒンジカバー43と、このヒンジカバー43に一体成形した軸31に軸受32を既述のように嵌め合わせて開閉できるように組み付けられる樹脂製の蓋2とを備えている。   The accommodation box shown in FIGS. 1-4 is one example at the time of providing in the instrument panel 41 made from resin. A box 1 that is integrally formed on the instrument panel 1, a resin hinge cover 43 that is detachably attached to the box 1 with screws 42 as shown in FIG. And the resin lid 2 assembled so that the bearing 32 can be fitted to the shaft 31 and opened and closed as described above.

蓋2は軸受32を一体成形した蓋インナ21と、この蓋インナ21に表側から嵌め合わせて外装する樹脂製の蓋アウタ22とで構成している。しかし、材質はこれに限られることはない。   The lid 2 includes a lid inner 21 in which a bearing 32 is integrally formed, and a resin-made lid outer 22 that fits and covers the lid inner 21 from the front side. However, the material is not limited to this.

蓋インナ21は、その左右両側から上方へ延びるアーム21aが一体成形され、これらアーム21aの先端部に軸受32が一体成形されている。軸受32は、通過側周壁32bが、蓋2の組み付け方向Aに向き、具体的には蓋インナ21がボックス1の開口1aを塞ぐ組み付け位置側、つまり裏側に向く。一方、反通過側周壁32cは、それとは真逆、つまり蓋インナ21の表側に向くようアーム21aに一体成形されている。   The lid inner 21 is integrally formed with arms 21a extending upward from the left and right sides, and a bearing 32 is integrally formed at the tip of these arms 21a. In the bearing 32, the passage-side peripheral wall 32 b faces the assembly direction A of the lid 2, specifically, the assembly position side where the lid inner 21 closes the opening 1 a of the box 1, that is, the rear side. On the other hand, the non-passing side peripheral wall 32c is formed integrally with the arm 21a so as to face the opposite side, that is, toward the front side of the lid inner 21.

これによって、通過側周壁32bの内周が形成する軸受孔32aの半周分の内面は、通過側周壁32bより幅の広い反通過側周壁32cに形成する型抜き窓32dを通じ、蓋インナ21およびアーム21a、軸受32の表側の面を形成する金型で成形でき、非通過周壁32cの内周が形成する軸受孔32aの非通過側半周分の内面は、通過側周壁32bの両側を通じて、蓋インナ21およびアーム21a、軸受32の裏側の面を形成する金型で成形できる。   As a result, the inner surface of the half circumference of the bearing hole 32a formed by the inner periphery of the passage-side peripheral wall 32b is passed through the die opening window 32d formed in the non-passage-side peripheral wall 32c wider than the passage-side peripheral wall 32b, and the lid inner 21 and the arm. 21a, the inner surface of the non-passing side half of the bearing hole 32a formed by the inner periphery of the non-passing peripheral wall 32c can be formed by a mold that forms the front side surface of the bearing 32, and the lid inner 21, the arm 21 a, and a mold that forms the back surface of the bearing 32.

ヒンジカバー43は、ボックス1の上部内面に前面側からねじ止めされる取り付け座43aを有し、この取り付け座43aの両側に、蓋インナ21のアーム21aを表側から受け入れて、ヒンジ3の軸31と軸受32との嵌り合部、つまりヒンジ構造を前記開口1a側から視認できないようにカバーするアーム受入れ凹部43bを有している。   The hinge cover 43 has mounting seats 43a that are screwed from the front side to the upper inner surface of the box 1, and the arms 21a of the lid inner 21 are received from the front side on both sides of the mounting seats 43a. And an arm receiving recess 43b that covers a fitting portion between the bearing 32 and the hinge structure so that the hinge structure cannot be seen from the opening 1a side.

このアーム受入れ凹部43bの両側支持壁4、5間に、既述のように途中で分断して隙間Sを形成した軸31を一体成形している。軸31は中実体でもよいが、アーム受入れ凹部43bの側アーム21aの受け入れ側に開放した図1(a)(b)(d)に示すような樋状とするのが望ましい。   A shaft 31 is formed integrally between the support walls 4 and 5 on both sides of the arm receiving recess 43b, which is divided in the middle to form a gap S as described above. The shaft 31 may be solid, but it is desirable to have a bowl shape as shown in FIGS. 1A, 1B, and 1D opened to the receiving side of the side arm 21a of the arm receiving recess 43b.

もし、軸31を中実体とすると、両側支持壁4、5に樹脂成形上ヒケを招くおそれがあり、また、樋形状を採用すれば、ヒンジカバー43の表裏からの型成形時に、アーム受入れ凹部43bを通じ内面が型成形できるからである。なお両側支持壁4、5は、軸31の各分断端間の隙間Sが押し広げられるための撓み変形を可能にしているが、樹脂製でなく金属製としてもそのような条件を満足することができる。   If the shaft 31 is a solid body, there is a risk of causing sink marks on the side support walls 4 and 5, and if a collar shape is adopted, an arm receiving recess is formed during mold formation from the front and back of the hinge cover 43. This is because the inner surface can be molded through 43b. The both side support walls 4 and 5 allow flexural deformation for the gaps S between the divided ends of the shaft 31 to be expanded, but such conditions are satisfied even when made of metal instead of resin. be able to.

蓋アウタ22は、蓋インナ21に表側から嵌め合わせると、図1に示すように、蓋アウタ22の裏面周辺数箇所に設けた係合爪22aが、蓋インナ21側の係合片21bに弾性係合することで固定される。   When the lid outer 22 is fitted to the lid inner 21 from the front side, as shown in FIG. 1, the engaging claws 22a provided at several places around the back surface of the lid outer 22 are elastically engaged with the engaging pieces 21b on the lid inner 21 side. It is fixed by engaging.

また、蓋2は、図1(a)、図3に示すように、アーム受入れ凹部43bの側壁に設けた係止孔45とアーム21aとの間に働かせた蔓巻きばね46によって、実線の閉じ位置と仮想線の開き位置との間に蔓巻きばね46の働きが中立となる中立位置があり、蓋2は中立位置から閉じ側に振れると閉じる側に付勢されて自動で閉じられる。   Further, as shown in FIGS. 1 (a) and 3, the lid 2 is closed by a vine spring 46 that is operated between a locking hole 45 provided on the side wall of the arm receiving recess 43b and the arm 21a. There is a neutral position between the position and the open position of the imaginary line, where the action of the spiral spring 46 is neutral. When the lid 2 swings from the neutral position to the closing side, the lid 2 is urged to the closing side and automatically closed.

また、蓋2は中立位置から開き側に振れると、開き側に付勢されて自動的に開く。図1(a)に示す係止孔45を中心にした実線の蔓巻きばね46は、閉じ方向側に働く位置を示しているのに対し、仮想線の蔓巻きばね46は開き方向側に働く位置を示している。   Further, when the lid 2 swings from the neutral position to the opening side, the lid 2 is urged to open and automatically opens. The solid line vine spring 46 centering on the locking hole 45 shown in FIG. 1 (a) shows the position acting on the closing direction side, whereas the imaginary line vine spring 46 acts on the opening direction side. Indicates the position.

これは、ヒンジカバー43に対して、蓋2はbボックス1の開口1aを閉じる実線位置にも、開口1aを開く仮想線の開き位置にも保持されることを意味する。したがって、開き位置の蓋2は、ボックス1のねじ止め位置に当てがったヒンジカバー43のねじ止め部を、図1(a)に示すように開口1aを通じ外部に大きく開放することになる。   This means that, with respect to the hinge cover 43, the lid 2 is held both at the solid line position for closing the opening 1a of the b box 1 and at the opening position of the imaginary line for opening the opening 1a. Therefore, the lid 2 in the open position greatly opens the screwing portion of the hinge cover 43 applied to the screwing position of the box 1 to the outside through the opening 1a as shown in FIG.

そこで、軸31と軸受32とを嵌め合わせてヒンジカバー43に蓋2を、予め組み付けておき、このアッセンブリのボックス1への組み付け時に、蓋2をヒンジカバー43に対し開き位置とすれば、ヒンジカバー43を、蓋2を組み付けている状態のまま、ボックス1の取り付け位置に当てがってねじ止めすることができ、軸31と軸受32との嵌め合わせ作業が一層容易になる。   Therefore, if the shaft 2 and the bearing 32 are fitted together and the lid 2 is assembled to the hinge cover 43 in advance, and the lid 2 is set to the open position with respect to the hinge cover 43 when the assembly is assembled to the box 1, the hinge The cover 43 can be screwed to the mounting position of the box 1 while the cover 2 is attached, and the fitting operation of the shaft 31 and the bearing 32 is further facilitated.

さらに、このアッセンブリ状態でのヒンジカバー43への取り付けをさらに容易にするため、図2に示すように、アッセンブリをボックス1の所定位置に当てがうと、自身の係合爪43cが、ボックス1の奥部壁に形成した係合窓1bに弾性係合することで仮止めできるようにしている。   Further, in order to further facilitate the attachment to the hinge cover 43 in this assembled state, when the assembly is applied to a predetermined position of the box 1 as shown in FIG. It can be temporarily fixed by elastically engaging with an engagement window 1b formed on the inner wall.

これにより、作業者はねじ止めに際してヒンジカバー43をねじ止め位置に保持する必要がなく作業が簡略化する。軸受32の上面には、軸31側に張り出す庇部32eが一体成形され、蓋2が図1(a)に仮想線で示す開き位置とされたとき、軸受32とヒンジカバー43との間の隙間S1を裏側から塞ぎ、開口1aから隙間S1を通じボックス1外からの視線や不正外力が内部に及ぶのを防止する。   Thus, the operator does not need to hold the hinge cover 43 in the screwing position when screwing, and the work is simplified. On the upper surface of the bearing 32, a flange portion 32e projecting toward the shaft 31 is integrally formed, and when the lid 2 is in the open position indicated by a virtual line in FIG. The gap S1 is closed from the back side, and a line of sight from the outside of the box 1 and unauthorized external force are prevented from reaching the inside through the gap S1 from the opening 1a.

本発明は、自動車の各種収納ボックスのヒンジ構造に実用して、ヒンジの軸に、その途中分断構造とヒンジの環状な軸受の通過周壁との関係から、軸受を軸直角方向から軸の分断端間の隙間の押し開きを伴い容易に嵌め合せて、外れ方向には所定の係止代を有して係止されて外れることはなく、必要に応じ軸の分断端間の隙間を押し開くことで係止を解除して取り外しメンテナンスもできる。   INDUSTRIAL APPLICABILITY The present invention is practically used for the hinge structure of various storage boxes of automobiles, and the shaft is divided from the direction perpendicular to the axis from the relationship between the intermediate dividing structure of the hinge shaft and the passage peripheral wall of the annular bearing of the hinge. It fits easily with a gap between the ends, and it is locked with a predetermined locking allowance in the disengagement direction so that it does not come off. Push the gap between the split ends of the shaft as necessary. It can be unlocked and opened for maintenance.

1 ボックス
2 蓋
3 ヒンジ
31 軸
32 軸受
32a 軸受孔
32b 通過側周壁
32c 反通過側周壁
33 案内面
46 蔓巻きばね
A 組み付け方向
S 隙間
1 Box 2 Lid 3 Hinge 31 Shaft 32 Bearing 32a Bearing Hole 32b Passing-side Peripheral Wall 32c Non-Passing Peripheral Wall 33 Guide Surface 46 Wedge Spring A Assembly Direction S Clearance

Claims (1)

ボックス側と蓋側との、一方にヒンジの軸を、他方にヒンジの軸受を、持った収納ボックスのヒンジ構造において、
軸は、両側支持壁間で途中を分断して分断端間に隙間を形成するように設けられ、
軸受は、前記隙間に蓋の組み付け方向に通過させて軸受孔を前記軸に軸直角方向から嵌め合わせるための通過側周壁と、通過側周壁より幅の広い反通過側周壁を有し、
軸の各分断端面と、軸受の通過側周壁の両側面との少なくとも一方に、
通過側周壁が軸の分断端間の隙間を押し広げながら通過でき、
外れ方向側には係止代を有して軸で係止されるための、前記組み付け方向側に先細りとなるテーパ面または曲面とした案内面を形成したことを特徴とする収納ボックスのヒンジ構造。
In the hinge structure of the storage box with the hinge side on one side and the hinge bearing on the other side of the box side and the lid side,
The shaft is provided so as to divide the middle between the supporting walls on both sides to form a gap between the divided ends,
The bearing has a passage-side circumferential wall for allowing the bearing hole to be fitted to the shaft from a direction perpendicular to the axis by passing the gap in the assembly direction of the lid, and a non-passing-side circumferential wall wider than the passage-side circumferential wall,
On at least one of each divided end surface of the shaft and both side surfaces of the passing side peripheral wall of the bearing,
Passing side peripheral wall can pass while expanding the gap between shaft split ends,
A hinge structure for a storage box, wherein a taper surface or a curved guide surface that is tapered is formed on the assembly direction side so as to be locked by a shaft with a locking allowance on the release direction side. .
JP2010078317A 2010-03-30 2010-03-30 Storage box hinge structure Active JP5582842B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP2010078317A JP5582842B2 (en) 2010-03-30 2010-03-30 Storage box hinge structure

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP2010078317A JP5582842B2 (en) 2010-03-30 2010-03-30 Storage box hinge structure

Publications (2)

Publication Number Publication Date
JP2011207393A true JP2011207393A (en) 2011-10-20
JP5582842B2 JP5582842B2 (en) 2014-09-03

Family

ID=44938936

Family Applications (1)

Application Number Title Priority Date Filing Date
JP2010078317A Active JP5582842B2 (en) 2010-03-30 2010-03-30 Storage box hinge structure

Country Status (1)

Country Link
JP (1) JP5582842B2 (en)

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2014083855A1 (en) 2012-11-29 2014-06-05 株式会社ニフコ Hinge structure
JP2014108794A (en) * 2012-11-30 2014-06-12 Kao Corp Enclosure container with hinge

Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS57172820A (en) * 1981-04-17 1982-10-23 Nissan Motor Co Ltd Hinge device of movable roof for car
JPS62200815U (en) * 1986-06-11 1987-12-21
JPH0468175U (en) * 1990-10-25 1992-06-17
JPH1127840A (en) * 1997-07-05 1999-01-29 Joban Kasei:Kk Transmission line desnowing ring
JP2008080828A (en) * 2006-09-25 2008-04-10 Toyota Motor Corp Console box structure

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS57172820A (en) * 1981-04-17 1982-10-23 Nissan Motor Co Ltd Hinge device of movable roof for car
JPS62200815U (en) * 1986-06-11 1987-12-21
JPH0468175U (en) * 1990-10-25 1992-06-17
JPH1127840A (en) * 1997-07-05 1999-01-29 Joban Kasei:Kk Transmission line desnowing ring
JP2008080828A (en) * 2006-09-25 2008-04-10 Toyota Motor Corp Console box structure

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2014083855A1 (en) 2012-11-29 2014-06-05 株式会社ニフコ Hinge structure
US9260898B2 (en) 2012-11-29 2016-02-16 Nifco Inc. Hinge structure
JP2014108794A (en) * 2012-11-30 2014-06-12 Kao Corp Enclosure container with hinge

Also Published As

Publication number Publication date
JP5582842B2 (en) 2014-09-03

Similar Documents

Publication Publication Date Title
KR20080038346A (en) Vehicle grab handle
CN108291569B (en) Hook device
JP6636851B2 (en) Inside handle support for vehicle doors
US20140099156A1 (en) Bearing Arrangement Having A Bearing Socket
WO2016088695A1 (en) Retaining device
JP5582842B2 (en) Storage box hinge structure
JP6762986B2 (en) Interior cover mounting structure
KR20160119091A (en) Retaining device
EP1623872B1 (en) Tie down hook member
US9462919B2 (en) Damper locking mechanism for toilet seat
JP2008285911A (en) Circular cover for underground structure
JP4217674B2 (en) Opening and closing structure of the refrigerator door
JP6183321B2 (en) Vehicle filler lid structure
JP2007217950A (en) Inspection port
US8366166B2 (en) Duct anti-rotation attachment flange
FR3125270B1 (en) Ventilation screen for motor vehicle basement
KR100892218B1 (en) Mounting system of rotary opening/closing member
JP3791113B2 (en) Opening and closing mechanism
KR100783961B1 (en) Hinge structure of door for automobile
JP3909068B2 (en) Ceiling access door
JP2008254552A (en) Door mirror base fitting structure
JP2013112228A (en) Charging lid for vehicle
JPS5856426Y2 (en) Shaft member support push device
JP2005145341A (en) Slide door device
JP3474718B2 (en) Vehicle tailgate stay removable structure

Legal Events

Date Code Title Description
A621 Written request for application examination

Free format text: JAPANESE INTERMEDIATE CODE: A621

Effective date: 20130321

A977 Report on retrieval

Free format text: JAPANESE INTERMEDIATE CODE: A971007

Effective date: 20140227

A131 Notification of reasons for refusal

Free format text: JAPANESE INTERMEDIATE CODE: A131

Effective date: 20140304

A521 Request for written amendment filed

Free format text: JAPANESE INTERMEDIATE CODE: A523

Effective date: 20140422

TRDD Decision of grant or rejection written
A01 Written decision to grant a patent or to grant a registration (utility model)

Free format text: JAPANESE INTERMEDIATE CODE: A01

Effective date: 20140715

A61 First payment of annual fees (during grant procedure)

Free format text: JAPANESE INTERMEDIATE CODE: A61

Effective date: 20140715

R150 Certificate of patent or registration of utility model

Ref document number: 5582842

Country of ref document: JP

Free format text: JAPANESE INTERMEDIATE CODE: R150

R250 Receipt of annual fees

Free format text: JAPANESE INTERMEDIATE CODE: R250

R250 Receipt of annual fees

Free format text: JAPANESE INTERMEDIATE CODE: R250

R250 Receipt of annual fees

Free format text: JAPANESE INTERMEDIATE CODE: R250

R250 Receipt of annual fees

Free format text: JAPANESE INTERMEDIATE CODE: R250

R250 Receipt of annual fees

Free format text: JAPANESE INTERMEDIATE CODE: R250

R250 Receipt of annual fees

Free format text: JAPANESE INTERMEDIATE CODE: R250

R250 Receipt of annual fees

Free format text: JAPANESE INTERMEDIATE CODE: R250

R250 Receipt of annual fees

Free format text: JAPANESE INTERMEDIATE CODE: R250