JP2009264016A - Slide hinge with damper - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To install a damper function into a slide hinge having a projection part at the tip end of a skeleton-side mounting member. <P>SOLUTION: In the slide hinge 1 where the projection part 24a is installed at the tip end of the skeleton-side mounting member 24, and one end of each of a pair of links 25, 26 rotatably connecting the skeleton-side mounting member 24 and a door-side mounting member 27 is rotatably installed on the projection part 24a, the skeleton-side mounting member 24 is provided with a contact member 4. The contact member 4 is provided with a contact surface 41 at a position extended backward from the tip end surface 24b of the projection part 24a. The door-side mounting member 27 is provided with a damper device 3. A driven member 35 of the damper device 3 slides on the tip end surface 24b and the contact surface 41 sequentially and is backward moved by the surfaces 24b, 41 according to the close rotation of the door-side mounting member 27 after going over a predetermined front contact position. The backward moving speed of the driven member 35 is suppressed to a low speed by a damper mechanism part of the damper device 3. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

この発明は、ダンパ装置を備えたダンパ付きスライドヒンジに関する。   The present invention relates to a slide hinge with a damper provided with a damper device.

一般に、家具等に用いられるスライドヒンジは、家具の躯体の内側面に取り付けられる躯体側取付部材と、この躯体側取付部材に一対のリンクを介して閉位置と開位置との間を水平方向へ回動可能に連結され、家具の扉の背面に固定される扉側取付部材と、この扉側取付部材が閉位置と開位置との間の所定の中立位置と閉位置との間に位置すると、扉側取付部材を閉位置に向って回動付勢する回動付勢手段とを備えている。このようなスライドヒンジにおいては、扉を開位置から閉位置に向って中立位置まで閉回動させると、その後は扉が回動付勢手段によって閉位置まで閉回動させられる。扉は、閉位置に達したときには比較的高速になっている。扉が高速で閉位置まで回動すると、家具としての格調が低くなってしまうという問題がある。また、扉が躯体に高速で衝突して大きな打撃音が発生するという問題がある。   Generally, a slide hinge used for furniture or the like is a housing-side mounting member that is attached to the inner surface of the housing of the furniture, and a horizontal direction between a closed position and an open position via a pair of links to the housing-side mounting member. A door-side mounting member that is pivotally connected and fixed to the back surface of the furniture door, and the door-side mounting member is positioned between a predetermined neutral position and a closed position between the closed position and the open position. And a rotation urging means for urging and urging the door side mounting member toward the closed position. In such a slide hinge, when the door is closed and rotated from the open position toward the closed position to the neutral position, the door is thereafter closed and rotated to the closed position by the rotation biasing means. The door is relatively fast when it reaches the closed position. When the door rotates to the closed position at a high speed, there is a problem that the furniture becomes less elegant. In addition, there is a problem in that a loud impact sound is generated due to the door colliding with the housing at high speed.

そこで、最近ではダンパ装置を備えたダンパ付きスライドヒンジが多用されている。ダンパ付きスライドヒンジは、下記特許文献１に記載されているように、扉側取付部材にダンパ装置が設けられている。ダンパ装置は、進退可能な可動部材と、この可動部材の後退速度を低速に抑えるダンパ機構部とを有しており、扉が閉位置から中立位置を越えて所定の当接位置に達すると、可動部材が躯体側取付部材の先端部に突き当たる。その後、可動部材は、扉の閉位置側への回動に伴って躯体側取付部材上を後端側に向って摺動するとともに、躯体側取付部材によって後退移動させれられる。このとき、可動部材の後退移動がダンパ機構によって低速に抑えられ、扉の閉回動速度が低速に抑えられる。この結果、家具としての高級感が得られる。また、扉の躯体への衝突時に大きな打撃音が発生することを防止することができる。   Therefore, recently, a slide hinge with a damper provided with a damper device is frequently used. As described in Patent Document 1 below, the slide hinge with a damper is provided with a damper device on the door-side mounting member. The damper device has a movable member that can advance and retreat, and a damper mechanism that suppresses the retreating speed of the movable member to a low speed, and when the door reaches a predetermined contact position from the closed position to the neutral position, The movable member hits the tip of the housing side mounting member. Thereafter, the movable member slides on the housing side mounting member toward the rear end side with the rotation of the door toward the closed position, and is moved backward by the housing side mounting member. At this time, the backward movement of the movable member is suppressed to a low speed by the damper mechanism, and the closing rotation speed of the door is suppressed to a low speed. As a result, a high-class feeling as furniture can be obtained. Further, it is possible to prevent a large hitting sound from being generated when the door collides with the housing.

ところで、スライドヒンジには、下記特許文献２に記載のように、躯体側取付部材の先部に突出部が設けられたものがある。突出部は、一対のリンクの回動軸線方向と、躯体側取付部材の先端部と後端部とを結ぶ方向との両方向に対して直交する方向に突出させられている。つまり、躯体側取付部材が取り付けられた躯体の一方の内側面から他方の内側面に向って突出させられている。そして、突出部に一対のリンクが回動可能に設けられている。これにより、扉が開位置に回動したときに、扉を一方の内面側から他方の内側面側へ向う方向においてできる限り前方に位置させるようにしている。   By the way, as described in Patent Document 2 below, there is a slide hinge in which a protruding portion is provided at the front portion of the housing side mounting member. The protruding portion is protruded in a direction orthogonal to both directions of the rotation axis direction of the pair of links and the direction connecting the front end portion and the rear end portion of the housing-side mounting member. That is, it is made to protrude toward the other inner surface from one inner surface of the housing to which the housing side attachment member was attached. And a pair of link is provided in the protrusion part so that rotation is possible. Thus, when the door is rotated to the open position, the door is positioned as far forward as possible in the direction from the one inner surface to the other inner surface.

実用新案登録第３１２９１７２号公報Utility Model Registration No. 3129172 実開昭６３−７５２７７号公報Japanese Utility Model Publication No. 63-75277

突出部を有するスライドヒンジにおいても、ダンパ装置を取り付けることが要望されている。そのようなスライドヒンジにダンパ装置を設けた場合には、可動部材が突出部の先端面に突き当たり、扉の閉回動に伴って突出部の先端面上を後端側に摺動する。ところが、可動部材は、扉が閉位置に達する前に突出部の先端面から後端側に外れてしまう。したがって、その後はダンパ効果が得られなくなってしまう。また、スライドヒンジによっては、可動部材を突出部に突き当てるように設計することができないこともある。いずれにしても、突出部を有するスライドヒンジの場合には、ダンパ効果を得るようにダンパ装置を取り付けることができない。このため、突出部を有する従来のスライドヒンジには、ダンパ装置を備えたものがなかった。   It is demanded to attach a damper device also to a slide hinge having a protrusion. When the damper device is provided on such a slide hinge, the movable member hits the front end surface of the protruding portion, and slides on the front end surface of the protruding portion toward the rear end side as the door is closed. However, the movable member comes off the rear end side from the front end surface of the protruding portion before the door reaches the closed position. Therefore, after that, the damper effect cannot be obtained. In addition, depending on the slide hinge, it may not be possible to design the movable member to abut against the protruding portion. In any case, in the case of a slide hinge having a protrusion, the damper device cannot be attached so as to obtain a damper effect. For this reason, none of the conventional slide hinges having the protrusions are provided with a damper device.

この発明は、上記の問題を解決するために、躯体側取付部材と、この躯体側取付部材の先端部に一対のリンクを介して閉位置と開位置との間を回動可能に連結された扉側取付部材と、上記扉側取付部材を上記閉位置と上記開位置との間の所定の中立位置から上記閉位置まで回動させる回動付勢手段とを備え、上記躯体側取付部材の先端部には、上記一対のリンクの回動軸線方向と、上記躯体側取付部材の先端部と後端部とを結ぶ方向との両方向に対して直交する方向に突出する突出部が形成され、この突出部に上記一対のリンクが回動可能に取り付けられたスライドヒンジにおいて、上記躯体側取付部材には、当接部材が設けられ、この当接部材には、上記突出部の突出方向を向く当接面が設けられ、上記扉側取付部材には、移動可能な可動部材及びこの可動部材の移動速度を低速に抑えるダンパ機構を有するダンパ装置が設けられ、上記扉側取付部材の上記中立位置から上記閉位置側への閉回動時に、上記扉側取付部材が上記閉位置から所定の角度だけ手前の当接位置に達すると、上記可動部材が上記当接部材の当接面に接触し、上記扉側取付部材の上記当接位置から上記閉位置までの閉回動に伴って、上記可動部材が上記当接面上を後端側へ向って摺動するととともに、上記当接面によって移動させられることを特徴としている。
この場合、上記扉側取付部材の上記閉回動時に上記扉側取付部材が上記当接位置から所定の角度だけ手前の前当接位置に達すると、上記可動部材が上記突出部の先端面に接触し、上記扉側取付部材の上記前当接位置から上記閉位置側への回動に伴って、上記可動部材が上記突出部の先端面上を後端側へ向って摺動するとともに、上記先端面によって移動させられ、上記当接面の少なくとも上記突出部に隣接する先端部が上記突出部の先端面の後方延長上に配置され、上記扉側取付部材が閉回動して上記当接位置に達すると、上記可動部材が突出部の先端面から上記当接部材の上記当接面上に乗り移って当該当接面上を摺動することが望ましい。 In order to solve the above problems, the present invention is connected to the housing side mounting member and the front end portion of the housing side mounting member via a pair of links so as to be rotatable between a closed position and an open position. A door-side mounting member; and a rotation urging means for rotating the door-side mounting member from a predetermined neutral position between the closed position and the open position to the closed position, A protruding portion that protrudes in a direction orthogonal to both directions of the rotation axis direction of the pair of links and the direction connecting the front end portion and the rear end portion of the housing-side attachment member is formed at the front end portion, In the slide hinge in which the pair of links are rotatably attached to the projecting portion, the housing side mounting member is provided with an abutting member, and the abutting member faces the projecting direction of the projecting portion. A contact surface is provided, and the door side mounting member is movable and movable. And a damper device having a damper mechanism that suppresses the moving speed of the movable member at a low speed, and when the door side mounting member is turned from the neutral position to the closed position, the door side mounting member is When the abutting position is reached by a predetermined angle from the closed position, the movable member comes into contact with the abutting surface of the abutting member, and the door-side mounting member is closed from the abutting position to the closed position. Along with the movement, the movable member slides on the contact surface toward the rear end side and is moved by the contact surface.
In this case, when the door-side mounting member reaches the front contact position in front of the contact position by a predetermined angle during the closing rotation of the door-side mounting member, the movable member is brought into contact with the front end surface of the protruding portion. The movable member slides toward the rear end side on the front end surface of the projecting portion as the door side mounting member rotates from the front contact position to the closed position side, and At least a tip portion of the contact surface that is moved by the tip surface and is adjacent to the protrusion is disposed on a rear extension of the tip surface of the protrusion, and the door-side mounting member is turned and closed. When the contact position is reached, it is desirable that the movable member moves from the tip end surface of the projecting portion onto the contact surface of the contact member and slides on the contact surface.

上記特徴構成を有するこの発明によれば、扉側取付部材がその閉回動時に所定の当接位置に達すると、可動部材が当接部材の当接面に接触する。その後、扉側取付部材が当接位置から閉位置まで閉回動するときには、可動部材が当接面上を摺動するとともに、当接面によって移動させられる。このとき、可動部材の移動速度がダンパ機構によって低速に抑えられる。したがって、躯体側取付部材に突出部が設けられたスライドヒンジにおいても、ダンパ装置を取り付けることができ、そのダンパ装置によって閉位置近傍での扉側取付け部材の閉回動速度を低速に抑えることができる。
また、可動部材を突出部の先端面に接触させるようにした場合には、可動部材が突出部の先端面から当接部材の当接面に乗り移るまでの間に扉が閉回動する角度分だけ扉の回動速度が低速に抑えられる角度範囲を広くすることができる。さらに、当接面が先端面の延長上に位置しているので、可動部材が突出部の先端面から当接部材の当接面に円滑に乗り移ることができる。 According to the present invention having the above-described characteristic configuration, when the door-side mounting member reaches a predetermined contact position when the door-side mounting member is turned, the movable member contacts the contact surface of the contact member. Thereafter, when the door-side mounting member rotates to be closed from the contact position to the closed position, the movable member slides on the contact surface and is moved by the contact surface. At this time, the moving speed of the movable member is suppressed to a low speed by the damper mechanism. Therefore, a damper device can be mounted even on a slide hinge in which a protrusion is provided on the housing-side mounting member, and the damper device can suppress the closing rotation speed of the door-side mounting member near the closed position to a low speed. it can.
In addition, when the movable member is brought into contact with the front end surface of the protruding portion, the angle at which the door is closed and rotated before the movable member moves from the front end surface of the protruding portion to the abutting surface of the abutting member. As a result, it is possible to widen the angle range in which the rotation speed of the door can be kept low. Furthermore, since the contact surface is located on the extension of the tip surface, the movable member can smoothly transfer from the tip surface of the protrusion to the contact surface of the contact member.

以下、この発明を実施するための最良の形態を、図面を参照して説明する。
図１は、この発明に係るダンパ付きスライドヒンジ１が用いられた家具Ａを示す．家具Ａは、前面部が開口した直方体状の躯体Ｂと、この躯体Ｂの開口部を開閉する板状の扉Ｃとを備えている。扉Ｃは、その一側部（図１において左側部）が躯体Ｂの一側部に二つのダンパ付きスライドヒンジ１，１（下側のスライドヒンジ１については、後述するダンパ装置３が省略されている。）を介して水平方向へ回動可能に支持されている。扉Ｃは、躯体Ｂの開口部を閉じた閉位置と、この閉位置からほぼ９０°離れた図１に示す開位置との間を回動可能である。スライドヒンジ１は、家具Ａ以外のものにも適用可能である。 The best mode for carrying out the present invention will be described below with reference to the drawings.
FIG. 1 shows furniture A in which a slide hinge 1 with a damper according to the present invention is used. The furniture A includes a rectangular parallelepiped box B having a front surface opened, and a plate-like door C that opens and closes the opening of the box B. One side of the door C (the left side in FIG. 1) has two damper hinges 1 and 1 on one side of the casing B (the damper device 3 described later is omitted for the lower slide hinge 1). And is supported so as to be rotatable in the horizontal direction. The door C is rotatable between a closed position where the opening of the housing B is closed and an open position shown in FIG. 1 which is approximately 90 ° away from the closed position. The slide hinge 1 can be applied to other than the furniture A.

ダンパ付きスライドヒンジ１は、図２〜図４に示すように、ヒンジ部２、ダンパ装置３及び当接部材４を備えている。   As shown in FIGS. 2 to 4, the damper-equipped slide hinge 1 includes a hinge portion 2, a damper device 3, and a contact member 4.

ヒンジ部２は、基部２１を有している。この基部２１は、躯体Ｂの一側部内面（図１において、左側部内面。以下、上下及び前後左右は、図１における上下及び前後左右を意味するものとする。）に固定されている。基部２１には、第１中間部材２２が上下方向（図３において、図面の表裏方向）へ位置調節可能に設けられ、ボルトＢ１によって固定されている。第１中間部材２２には、第２中間部材２３が公知の取付構造により着脱可能に取り付けられている。第２中間部材２３には、長手方向を前後方向（図３において、左右方向）に向けた躯体側取付部材２４が前後方向へ位置調節可能に設けられており、ボルトＢ２によって固定されている。第２中間部材２３の先端部と躯体側取付部材２４の先端部との間には、調節ねじＢ３が設けられている。この調節ねじＢ３によって躯体側取付部材２４の先端部が左右方向（図３において上下方向）へ位置調節されるようになっている。したがって、躯体側取付部材２４は、躯体Ｂに対して着脱可能である。しかも、躯体側取付部材２４の少なくとも先端部は、躯体Ｂに対し上下及び前後左右方向へ位置調節可能である。躯体側取付部材２４は、躯体Ｂに直接固定してもよい。   The hinge part 2 has a base part 21. This base 21 is fixed to one side inner surface of the housing B (in FIG. 1, the left side inner surface. Hereinafter, the top, bottom, front, back, left, and right refer to the top, bottom, front, back, left, and right in FIG. 1). A first intermediate member 22 is provided on the base 21 so as to be adjustable in the vertical direction (in FIG. 3, the front and back direction in the drawing), and is fixed by a bolt B1. A second intermediate member 23 is detachably attached to the first intermediate member 22 by a known attachment structure. The second intermediate member 23 is provided with a housing-side mounting member 24 whose longitudinal direction is the front-rear direction (left-right direction in FIG. 3) so that the position can be adjusted in the front-rear direction, and is fixed by a bolt B2. An adjustment screw B <b> 3 is provided between the distal end portion of the second intermediate member 23 and the distal end portion of the housing-side mounting member 24. The position of the distal end portion of the housing side mounting member 24 is adjusted in the left-right direction (vertical direction in FIG. 3) by the adjusting screw B3. Therefore, the housing side attachment member 24 is detachable from the housing B. In addition, the position of at least the tip of the housing-side mounting member 24 can be adjusted in the vertical and front-back and left-right directions with respect to the housing B. The housing side mounting member 24 may be directly fixed to the housing B.

躯体側取付部材２４の先端部（躯体Ｂの前側に位置する端部）は、突出部２４ａが形成されている。この突出部２４ａは、躯体Ｂの一側部から他側部へ向う方向、つまり右方に向かって水平に突出している。この突出部２４ａには、一対のリンク２５，２６の一端部が、軸線を上下方向に向けた軸Ｓ１，Ｓ２を介して水平方向へ回動可能に連結されている。ここで、軸Ｓ１，Ｓ２の軸線方向及び躯体側取付部材２４の前後方向を用いて突出部２４ａの突出方向を定義すると、突出部２４ａは、軸Ｓ１，Ｓ２の軸線方向と、躯体側取付部材２４の先端部と後端部とを結ぶ方向との両方向に対して直交する方向に突出している。突出部２４ａの先端面２４ｂは、後方へ向うにしたがって躯体Ｂの一側部内面に接近するように若干傾斜させられている。先端面２４ｂは、逆向きに傾斜させてもよく、あるいは一側部内面と平行に延びる平面としてもよい。   A protruding portion 24 a is formed at the distal end portion (the end portion located on the front side of the housing B) of the housing-side mounting member 24. This protrusion 24a protrudes horizontally in the direction from one side of the housing B to the other side, that is, in the right direction. One end of a pair of links 25 and 26 is connected to the projecting portion 24a via a shaft S1 and S2 whose axis is directed in the vertical direction so as to be rotatable in the horizontal direction. Here, when the projecting direction of the projecting portion 24a is defined using the axial direction of the shafts S1 and S2 and the front-rear direction of the housing-side mounting member 24, the projecting portion 24a corresponds to the axial direction of the shafts S1 and S2 and the housing-side mounting member. It protrudes in a direction orthogonal to both directions of the direction connecting the front end portion and the rear end portion of 24. The front end surface 24b of the protrusion 24a is slightly inclined so as to approach the inner surface of one side portion of the housing B as it goes rearward. The tip surface 24b may be inclined in the opposite direction, or may be a flat surface extending in parallel with the inner surface of the one side portion.

一対のリンク２５，２６の他端部は、扉側取付部材２７に軸Ｓ１，Ｓ２と平行な軸Ｓ３，Ｓ４を介して回動可能に連結されている。この結果、扉側取付部材２７が躯体側取付部材２４に水平方向へ回動可能に支持されている。扉側取付部材２７は、扉Ｃの背面の左側部に固定されている。したがって、扉Ｃの左側部は、躯体Ｂの左側部にヒンジ部２を介して水平方向へ回動可能に支持されている。これから明らかなように、扉側取付部材２７と扉Ｃとは、一体に回動する。そこで、両者の回動位置には、同一の名称を付すものとする。   The other ends of the pair of links 25 and 26 are rotatably connected to the door-side mounting member 27 via axes S3 and S4 parallel to the axes S1 and S2. As a result, the door side mounting member 27 is supported by the housing side mounting member 24 so as to be rotatable in the horizontal direction. The door-side mounting member 27 is fixed to the left side portion of the back surface of the door C. Therefore, the left side portion of the door C is supported by the left side portion of the housing B via the hinge portion 2 so as to be rotatable in the horizontal direction. As is clear from this, the door-side mounting member 27 and the door C rotate together. Therefore, the same name is given to both rotation positions.

図３及び図８に示すように、扉Ｃ（扉側取付部材２７）が開位置に回動すると、リンク２５が軸Ｓ４に突き当たる。これによって、扉Ｃの開位置が定められている。図１１に示すように、扉Ｃが閉位置に回動すると、リンク２６が軸Ｓ３に突き当たる。これによって、扉Ｃの閉位置が定められている。扉Ｃの開位置及び閉位置は、公知の他の方法によって、例えば扉Ｃを躯体Ｂに突き当てることによって定めてもよい。   As shown in FIGS. 3 and 8, when the door C (door-side mounting member 27) rotates to the open position, the link 25 hits the axis S4. Thereby, the open position of the door C is defined. As shown in FIG. 11, when the door C rotates to the closed position, the link 26 hits the shaft S3. Thereby, the closed position of the door C is determined. You may determine the open position and closed position of the door C by abutting the door C on the housing B by other well-known methods, for example.

一対のリンク２５，２６の少なくとも一方と躯体側取付部材２４との間には、コイルばね等の弾性部材からなる回動付勢手段（図示せず）が周知の態様で設けられている。この回動付勢手段は、扉Ｃが閉位置と開位置との間の所定の中立位置、例えば閉位置から開位置へ向って４５°だけ離れた位置と、閉位置との間に位置しているときには、一方のリンクを介して扉Ｃを閉位置側へ回動付勢して閉位置まで回動させる。逆に、扉Ｃが中立位置と開位置との間に位置しているときには、一方のリンクを介して扉Ｃを開位置側へ回動付勢して開位置まで回動させる。   Between at least one of the pair of links 25 and 26 and the housing side mounting member 24, a rotation urging means (not shown) made of an elastic member such as a coil spring is provided in a known manner. The rotation urging means is located between a closed position and a predetermined neutral position between the closed position and the open position, for example, a position 45 degrees away from the closed position toward the open position. The door C is urged to rotate toward the closed position via one link and is rotated to the closed position. On the contrary, when the door C is located between the neutral position and the open position, the door C is urged to rotate to the open position side through one link and is rotated to the open position.

躯体側取付部材２４には、当接部材４が着脱可能に固定されている。当接部材４は、突出部２４ａより後端側に配置されており、突出部２４ａの突出方向を向く躯体側取付部材２４の外面を覆っている。当接部材４の右方（突出部２４ａの突出方向）を向く面の先端部には、当接面４１が形成されている。この当接面４１は、突出部２４ａの先端面２４ｂの後方延長上に位置するように配置されている。したがって、当接面４１は、先端面２４ｂと同一方向へ同一角度で傾斜している。しかも、当接面４１の先端縁（突出部２４ａに隣接する端縁）は、当接面４１が先端面２４ｂから僅かに後方へ離間している分だけ先端面２４ｂの後端縁より左側に位置している。当接面４１の先端縁は、先端面２４ｂにできる限り接近させることが望ましく、先端面２４ｂの後端縁に接触させることが特に望ましい。そのようにした場合には、当接面４１の先端縁が、先端面２４ｂの後端縁と左右方向において同一位置に配置される。また、当接面４１は、上下方向においては突出部２４ａの先端面２４ｂとほぼ同一位置に配置されている。   The contact member 4 is detachably fixed to the housing side mounting member 24. The abutting member 4 is disposed on the rear end side from the projecting portion 24a and covers the outer surface of the housing-side mounting member 24 facing the projecting direction of the projecting portion 24a. A contact surface 41 is formed at the tip of the surface facing the right side of the contact member 4 (the protruding direction of the protruding portion 24a). The contact surface 41 is disposed so as to be located on the rearward extension of the front end surface 24b of the protrusion 24a. Therefore, the contact surface 41 is inclined at the same angle in the same direction as the front end surface 24b. Moreover, the leading edge of the abutting surface 41 (the edge adjacent to the protruding portion 24a) is on the left side of the trailing edge of the leading end surface 24b by the distance that the abutting surface 41 is slightly rearward from the leading end surface 24b. positioned. The front end edge of the abutting surface 41 is desirably as close as possible to the front end surface 24b, and is particularly preferably in contact with the rear end edge of the front end surface 24b. In such a case, the front end edge of the contact surface 41 is arranged at the same position in the left-right direction as the rear end edge of the front end surface 24b. The contact surface 41 is disposed at substantially the same position as the tip surface 24b of the protruding portion 24a in the vertical direction.

当接部材４には、これを左右方向に貫通する二つの貫通孔４２，４３が形成されている。一方の貫通孔４２は、当接部材４の後端部に配置され、ボルトＢ２と対向している。他方の貫通孔４３は、当接面４１に形成されており、ボルトＢ３と対向している。したがって、貫通孔４２，４３からドライバ等のねじ回し工具を挿入してボルトＢ２，Ｂ３をそれぞれ回動操作することができる。これにより、当接部材４を躯体側取付部材２４に取り付けた状態で、躯体側取付部材２４を前後方向及び左右方向へ位置調節することができる。勿論、当接部材４のボルトＢ１と対向する箇所にも貫通孔を形成し、この貫通孔を通してボルトＢ１を回動操作するようにしてもよい。   The contact member 4 is formed with two through holes 42 and 43 penetrating the contact member 4 in the left-right direction. One through-hole 42 is disposed at the rear end portion of the contact member 4 and faces the bolt B2. The other through-hole 43 is formed in the contact surface 41 and faces the bolt B3. Therefore, a screwdriver tool such as a screwdriver can be inserted from the through holes 42 and 43 and the bolts B2 and B3 can be rotated. Thereby, in the state which attached the contact member 4 to the housing side attachment member 24, the position of the housing side attachment member 24 can be adjusted to the front-back direction and the left-right direction. Needless to say, a through hole may be formed in a portion of the contact member 4 facing the bolt B1, and the bolt B1 may be rotated through the through hole.

ダンパ装置３は、ハウジング３１を有している。ハウジング３１は、ボルト等の固定手段（図示せず）により扉Ｃの背面に着脱可能に取り付けられている。しかも、ハウジング３１は、その一端部（扉Ｃを開位置に位置させたときに躯体Ｂ側に位置する端部）が扉側取付部材２７に係脱可能に係合されており、それによって位置決めされている。   The damper device 3 has a housing 31. The housing 31 is detachably attached to the back surface of the door C by fixing means (not shown) such as bolts. Moreover, one end of the housing 31 (the end located on the housing B side when the door C is positioned at the open position) is detachably engaged with the door-side mounting member 27, thereby positioning the housing 31. Has been.

ハウジング３１には、収容孔３１ａが形成されている。この収容孔３１ａは、扉Ｃを開位置に回動させたときにほぼ前後方向に延びるように配置されている。したがって、扉Ｃを閉位置に回動させたときには、左右方向に延びることになる。扉Ｃを開位置に回動させたときに躯体Ｂ側に位置する収容孔３１ａの一端部は開口しており、他端部は底部３１ｂによって閉じられている。   The housing 31 is formed with an accommodation hole 31a. The accommodation hole 31a is arranged so as to extend substantially in the front-rear direction when the door C is rotated to the open position. Therefore, when the door C is rotated to the closed position, it extends in the left-right direction. When the door C is rotated to the open position, one end of the accommodation hole 31a located on the housing B side is open, and the other end is closed by the bottom 31b.

収容孔３１ａには、その開口部からダンパユニット３２が挿入されている。ダンパユニット３２は、シリンダ（可動部材）３３とロッド３４とを有している。シリンダ３３は、図３において左側に位置する一端部を除く大部分が収容孔３１ａの開口部側の端部に移動可能に収容されている。ロッド３４は、収容孔３１ａの底部３１ｂ側の端部に収容されている。ロッド３４の一端部は、シリンダ３３にその長手方向へ移動可能に収容されている。ロッド３４の他端部は、シリンダ３３から突出しており、収容孔３１ａの底部３１ｂに突き当たっている。したがって、ロッド３４は、移動することがなく、シリンダ３３がロッド３４に対して移動する。   A damper unit 32 is inserted into the accommodation hole 31a from the opening. The damper unit 32 has a cylinder (movable member) 33 and a rod 34. Most of the cylinder 33 excluding one end located on the left side in FIG. 3 is movably accommodated at the end on the opening side of the accommodation hole 31a. The rod 34 is accommodated in the end portion on the bottom 31b side of the accommodation hole 31a. One end of the rod 34 is accommodated in the cylinder 33 so as to be movable in the longitudinal direction. The other end of the rod 34 protrudes from the cylinder 33 and abuts against the bottom 31b of the accommodation hole 31a. Therefore, the rod 34 does not move, and the cylinder 33 moves relative to the rod 34.

シリンダ３３の内部には、ダンパ機構部（図示せず）が設けられている。ダンパ機構部は、少なくともシリンダ３３がロッド３４に対して底部３１ｂ側へ移動（以下、後退移動という。）するときに、その移動速度を低速に抑える。また、底部３１ｂ側へ後退移動したシリンダ３３を図４に示す初期位置まで移動（以下、前進移動という。）させる。   A damper mechanism (not shown) is provided inside the cylinder 33. The damper mechanism unit suppresses the moving speed to a low speed at least when the cylinder 33 moves toward the bottom 31b with respect to the rod 34 (hereinafter referred to as a backward movement). Further, the cylinder 33 moved backward to the bottom 31b side is moved to the initial position shown in FIG. 4 (hereinafter referred to as forward movement).

シリンダ３３には、従動部材３５が着脱可能に取り付けられている。従動部材３５には、筒部３５ａが形成されている。この筒部３５ａは、扉Ｃを開位置に回動させたときに前後方向に延びるように配置されている。筒部３５ａの躯体Ｂ側に位置する一端部は開口し、他端は底部３５ｂによって閉じられている。筒部３５ａには、シリンダ３３の先端部が挿脱可能に挿入されている。しかも、シリンダ３３は、筒部３５ａに所定の大きさの摩擦抵抗をもって挿入されるのみならず、底部３５ｂに突き当たっている。したがって、従動部材３５は、シリンダ３３と一体に前進後退移動する。   A driven member 35 is detachably attached to the cylinder 33. The driven member 35 is formed with a cylindrical portion 35a. This cylinder part 35a is arrange | positioned so that it may extend in the front-back direction when the door C is rotated to an open position. One end portion of the cylindrical portion 35a located on the housing B side is opened, and the other end is closed by the bottom portion 35b. A tip end portion of the cylinder 33 is inserted into the cylindrical portion 35a in a detachable manner. In addition, the cylinder 33 is not only inserted into the cylindrical portion 35a with a predetermined frictional resistance, but also abuts against the bottom 35b. Therefore, the driven member 35 moves forward and backward integrally with the cylinder 33.

筒部３５ａの一側部、つまり図１１に示すように、扉Ｂが閉位置に回動したときに躯体Ｂの後端側を向く側部には、当接部３５ｃが一体に設けられている。当接部３５ｃは、図９に示すように、扉Ｂ（扉側取付部材２７）が開位置から閉位置に向って閉回動する場合において、中立位置を越えて所定の前当接位置（例えば、閉位置から開位置へ向って３０°だけ離れた位置）に達すると、当接部３５ｃの先端部が突出部２４ａの先端面２４ｂに突き当たるように配置されている。   A contact portion 35c is integrally provided on one side portion of the cylindrical portion 35a, that is, the side portion facing the rear end side of the housing B when the door B is rotated to the closed position, as shown in FIG. Yes. As shown in FIG. 9, when the door B (door side mounting member 27) rotates to close from the open position toward the closed position, the contact portion 35 c exceeds the neutral position and reaches a predetermined front contact position ( For example, when reaching a position 30 ° away from the closed position toward the open position), the tip of the contact portion 35c is disposed so as to abut against the tip surface 24b of the protrusion 24a.

扉Ｃが前当接位置から閉位置に向って回動するときには、扉側取付部材２７が左方（図９において下方）へ移動するともに、後方（図９において左方）へ移動する。換言すれば、扉側取付部材２７は、このように移動するように、躯体側取付部材２４に一対のリンク２５，２６を介して回動可能に連結されているのである。したがって、扉Ｃが前当接位置から閉位置側へ回動すると、当接部３５ｃが先端面２４ｂ上を躯体側取付部材２４の後端側へ向って摺動するとともに、当接部３５ｃひいては従動部材３５が先端面２４ｂによって相対的に後退移動させられる。その結果、シリンダ３３が後退移動させられる。このとき、シリンダ３３の後退移動速度がダンパ機構部によって低速に抑えられる。   When the door C rotates from the front contact position toward the closed position, the door-side mounting member 27 moves leftward (downward in FIG. 9) and rearward (leftward in FIG. 9). In other words, the door side mounting member 27 is rotatably connected to the housing side mounting member 24 via the pair of links 25 and 26 so as to move in this way. Therefore, when the door C rotates from the front contact position to the closed position side, the contact portion 35c slides on the front end surface 24b toward the rear end side of the housing side mounting member 24, and the contact portion 35c and thus The driven member 35 is relatively moved backward by the distal end surface 24b. As a result, the cylinder 33 is moved backward. At this time, the reverse movement speed of the cylinder 33 is suppressed to a low speed by the damper mechanism.

扉Ｃが前当接位置からさらに閉回動して所定の後当接位置（当接位置）に達すると、当接部３５ｃの先端部が当接部材４の当接面４１の先端縁に突き当たる。当接部３５ｃの先端部は、扉Ｃが後当接位置から閉位置へ向って所定の角度だけ回動する間、当接面４１と先端面２４ｂとに同時に当接してもよく、扉Ｃが後当接位置に達した瞬間に先端面２４ｂから離間するとともに、当接面４１に突き当たるようにしてもよい。いずれにしても、扉Ｃが閉回動時に後当接位置に達した後は、当接部３５ｃが先端面２４ｂから当接面４１に乗り移り、当接面４１上を摺動する。しかも、当接面４１によって当接部材３５が後退移動させられ、ひいてはシリンダ３３が後退移動させられる。勿論、このときもシリンダ３３の後退移動速度がダンパ機構部によって低速に抑えられる。   When the door C is further closed and rotated from the front contact position and reaches a predetermined rear contact position (contact position), the front end portion of the contact portion 35c becomes the front end edge of the contact surface 41 of the contact member 4. bump into. The front end portion of the contact portion 35c may simultaneously contact the contact surface 41 and the front end surface 24b while the door C is rotated by a predetermined angle from the rear contact position toward the closed position. At the moment when the position reaches the rear contact position, it may be separated from the front end surface 24 b and may contact the contact surface 41. In any case, after the door C reaches the rear contact position when the door C is turned, the contact portion 35c moves from the front end surface 24b to the contact surface 41 and slides on the contact surface 41. In addition, the contact member 35 is moved backward by the contact surface 41, and as a result, the cylinder 33 is moved backward. Of course, also at this time, the reverse movement speed of the cylinder 33 is suppressed to a low speed by the damper mechanism.

上記躯体Ｂと扉Ｃとがスライドヒンジ１によって回動可能に連結された家具Ａにおいて、いま扉Ｃが図１及び図８に示す開位置に位置しているものとする。扉Ｃが開位置から閉位置に向かって回動させられて中立位置を越えると、扉Ｃはヒンジ部２の回動付勢手段によって閉回動させられる。扉Ｃが前当接位置まで閉回動すると、図９に示すように、当接部３５ｃが突出部２４ａの先端面２４ｂに突き当たる。この結果、扉Ｃの閉回動に伴ってシリンダ３３が後退移動させられる。このとき、シリンダ３３の後退移動速度がダンパ装置３のダンパ機構部によって低速に抑えられる。扉Ｃが前当接位置から後当接位置まで閉回動すると、当接部３５ｃが先端面２４ｂから当接面４１上に乗り移る。このとき、当接面４１が先端面２４ｂの後方延長上に位置しているので、当接部３５ｃは先端面２４ｂから当接面４１に円滑に乗り移ることができる。その後、当接部３５ｃは、扉Ｃの閉回動に伴って当接面４１上を後方へ向って摺動する。ここで、当接面４１には、貫通孔４３が形成されているが、当接部３５ｃは貫通孔４３を跨いて摺動する。したがって、当接部３５ｃの円滑な摺動を貫通孔４３によって阻害されることはない。また、扉Ｃの閉回動に伴って当接部３５ｃが後退移動させられ、ひいてはシリンダ３３が後退移動させられる。このとき、シリンダ３３の後退移動速度は、ダンパ装置３のダンパ機構部により扉Ｃが閉位置に達するまで低速に抑えられる。したがって、家具に高級感を出すことができる。また、扉Ｃが閉位置に達したときに躯体Ｂに突き当たるようになっていたとしても、大きな衝突音が発生することを防止することができる。   In the furniture A in which the casing B and the door C are rotatably connected by the slide hinge 1, it is assumed that the door C is now located at the open position shown in FIGS. When the door C is rotated from the open position toward the closed position and exceeds the neutral position, the door C is closed and rotated by the rotation urging means of the hinge portion 2. When the door C is closed and rotated to the front contact position, as shown in FIG. 9, the contact portion 35c comes into contact with the front end surface 24b of the protrusion 24a. As a result, the cylinder 33 is moved backward as the door C is closed. At this time, the backward movement speed of the cylinder 33 is suppressed to a low speed by the damper mechanism portion of the damper device 3. When the door C is closed and rotated from the front contact position to the rear contact position, the contact portion 35c is transferred from the front end surface 24b onto the contact surface 41. At this time, since the contact surface 41 is located on the rearward extension of the tip surface 24b, the contact portion 35c can smoothly transfer from the tip surface 24b to the contact surface 41. Thereafter, the abutting portion 35c slides backward on the abutting surface 41 as the door C is closed and rotated. Here, although the through hole 43 is formed in the contact surface 41, the contact portion 35 c slides across the through hole 43. Therefore, smooth sliding of the contact portion 35 c is not hindered by the through hole 43. Further, as the door C is closed and rotated, the contact portion 35c is moved backward, and as a result, the cylinder 33 is moved backward. At this time, the backward moving speed of the cylinder 33 is suppressed to a low speed until the door C reaches the closed position by the damper mechanism portion of the damper device 3. Therefore, a high-class feeling can be given to furniture. Further, even if the door C reaches the housing B when it reaches the closed position, it is possible to prevent a large collision sound from being generated.

扉Ｃを閉位置から開位置まで回動させる場合において、扉Ｃが閉位置から後当接位置まで回動する間は、当接部３５ｃが当接面４１上を先端側に向って摺動する。それに伴ってシリンダ３３及び従動部材３５がダンパ機構部によって前進移動させられる。扉Ｃが後当接位置を越えて前当接位置に達するまでは、当接部３５ｃが先端面２４ｂ上を摺動し、シリンダ３３及び従動部材３５がさらに前進移動する。扉Ｃが前当接位置に達すると、当接部材３５及びシリンダ３３が初期位置に戻る。扉Ｃが前当接位置を越えると、当接部３５ｃが先端面２４ｂから離間する。その後、扉Ｃが中立位置を越えと、扉Ｃはヒンジ部２の回動付勢手段によって開位置まで回動させられる。   When the door C is rotated from the closed position to the open position, the contact portion 35c slides on the contact surface 41 toward the front end side while the door C rotates from the closed position to the rear contact position. To do. Accordingly, the cylinder 33 and the driven member 35 are moved forward by the damper mechanism. Until the door C passes the rear contact position and reaches the front contact position, the contact portion 35c slides on the front end surface 24b, and the cylinder 33 and the driven member 35 further move forward. When the door C reaches the front contact position, the contact member 35 and the cylinder 33 return to the initial position. When the door C exceeds the front contact position, the contact portion 35c is separated from the front end surface 24b. Thereafter, when the door C exceeds the neutral position, the door C is rotated to the open position by the rotation urging means of the hinge portion 2.

なお、この発明は、上記の実施の形態に限定されるものでなく、その要旨を逸脱しない範囲において適宜変更可能である。
例えば、上記の実施の形態においては、ロッド３４を収容孔３１ａの底部３１ｂに突き当てているが、ダンパユニット３２の向きを逆にし、シリンダ３３を底部３１ｂに突き当ててもよい。その場合には、ロッド３４が前進後退移動する可動部材になる。
また、上記の実施の形態においては、シリンダ（可動部材）３３が先端面２４ｂ及び当接面４１に従動部材３５を介して突き当てられているが、シリンダ３３を先端面２４ｂ及び当接面４１に直接突き当ててもよい。勿論、ロッド３４が可動部材とされるときには、ロッド３４を先端面２４ｂ及び当接面４１に直接突き当ててもよい。
また、上記の実施の形態においては、扉Ｃが開位置から前当接部材に達すると、従動部材３５の当接部３５ｃが突出部２４ａの先端面２４ｂに突き当たるようになっているが、従動部材３５を先端面２４ｂに突き当たらせることなく、当接部材４の当接面４１にだけ突き当たらせるようにしてもよい。その場合には、当接面４１を先端面２４ｂの後方延長上に配置する必要がなく、例えば当接面４１を先端面２４ｂに対して突出部２４ａの突出方向へ離間して配置してもよい。ただし、当接部３５ｃを先端面２４ｂに突き当たらせた場合には、当接部３５ｃが先端面２４ｂ上を摺動する間に扉Ｃが回動する角度の分だけ扉の閉回動速度を低速に抑える角度範囲を大きくすることができる。したがって、当接部３５ｃを先端面２４ｂに突き当たらせることが望ましい。
さらに、上記の実施の形態においては、当接面４１全体が突出部２４ａの先端面２４ｂの延長上に配置されているが、従動部材３５が先端面２４ｂから当接面４１に円滑に乗り移ることができるよう、当接面４１の先端部を先端面２４ｂの延長上に配置する限り、当接面４１の他の部分は先端面２４ｂの延長上から外してもよい。例えば、当接面４１を躯体の一側部内面と平行にしたり、あるいは後方に向うにしたがって一側部内面から離間するよう、先端面２４ｂと逆向きに傾斜させてもよい。 In addition, this invention is not limited to said embodiment, In the range which does not deviate from the summary, it can change suitably.
For example, in the above embodiment, the rod 34 is abutted against the bottom 31b of the accommodation hole 31a, but the direction of the damper unit 32 may be reversed and the cylinder 33 may be abutted against the bottom 31b. In this case, the rod 34 becomes a movable member that moves forward and backward.
Further, in the above-described embodiment, the cylinder (movable member) 33 is abutted against the tip surface 24b and the contact surface 41 via the driven member 35. However, the cylinder 33 is opposed to the tip surface 24b and the contact surface 41. You may hit it directly. Of course, when the rod 34 is a movable member, the rod 34 may directly abut against the tip surface 24b and the contact surface 41.
In the above-described embodiment, when the door C reaches the front contact member from the open position, the contact portion 35c of the driven member 35 comes into contact with the tip surface 24b of the protruding portion 24a. The member 35 may be caused to contact only the contact surface 41 of the contact member 4 without contacting the tip surface 24b. In that case, it is not necessary to arrange the contact surface 41 on the rearward extension of the distal end surface 24b. For example, the contact surface 41 may be disposed away from the distal end surface 24b in the projecting direction of the protruding portion 24a. Good. However, when the abutting portion 35c is abutted against the front end surface 24b, the door closing rotation speed is equal to the angle at which the door C rotates while the abutting portion 35c slides on the front end surface 24b. It is possible to increase the angle range that suppresses the low speed. Therefore, it is desirable that the abutting portion 35c be abutted against the tip surface 24b.
Furthermore, in the above-described embodiment, the entire contact surface 41 is disposed on the extension of the tip surface 24b of the protruding portion 24a, but the driven member 35 smoothly transfers from the tip surface 24b to the contact surface 41. As long as the tip of the contact surface 41 is disposed on the extension of the tip surface 24b, the other part of the contact surface 41 may be removed from the extension of the tip surface 24b. For example, the contact surface 41 may be inclined in the direction opposite to the tip surface 24b so as to be parallel to the inner surface of one side portion of the housing or to be separated from the inner surface of the one side portion as it goes rearward.

この発明に係るダンパ付きスライドヒンジが用いられた家具を、その扉を開位置に回動させた状態で示す斜視図である。It is a perspective view which shows the furniture using the slide hinge with a damper concerning this invention in the state which rotated the door to the open position. この発明に係るダンパ付きスライドヒンジの一実施の形態を、扉側取付部材を開位置に回動させた状態で示す斜視図である。It is a perspective view which shows one Embodiment of the slide hinge with a damper concerning this invention in the state which rotated the door side attachment member to the open position. 同実施の形態の縦断面図である。It is a longitudinal cross-sectional view of the same embodiment. 同実施の形態の分解斜視図である。It is a disassembled perspective view of the same embodiment. 同実施の形態において用いられている当接部材を示す平面図である。It is a top view which shows the contact member used in the embodiment. 同当接部材の底面図である。It is a bottom view of the contact member. 同当接部材の縦断面図である。It is a longitudinal cross-sectional view of the contact member. 図１に示す家具の要部を、扉を開位置に回動させた状態で示す断面図である。It is sectional drawing which shows the principal part of the furniture shown in FIG. 1 in the state which rotated the door to the open position. 同要部を、扉を前当接位置に回動させた状態で示す断面図である。It is sectional drawing which shows the same principal part in the state which rotated the door to the front contact position. 同要部を、扉を後当接位置から若干閉位置側へ回動させた状態で示す断面図である。It is sectional drawing which shows the principal part in the state which rotated the door from the back contact position to the close position side a little. 同要部を、扉を閉位置に回動させた状態で示す断面図である。It is sectional drawing which shows the principal part in the state which rotated the door to the closed position.

符号の説明Explanation of symbols

１ ダンパ付きスライドヒンジ
２ ヒンジ部
３ ダンパ装置
４ 当接部材
２４ 躯体側取付部材
２４ａ 突出部
２４ｂ 先端面
２５ リンク
２６ リンク
２７ 扉側取付部材
３３ シリンダ（可動部材）
４１ 当接面 DESCRIPTION OF SYMBOLS 1 Slide hinge with damper 2 Hinge part 3 Damper apparatus 4 Contact member 24 Housing side attachment member 24a Protrusion part 24b Front end surface 25 Link 26 Link 27 Door side attachment member 33 Cylinder (movable member)
41 Contact surface

Claims (2)

躯体側取付部材と、この躯体側取付部材の先端部に一対のリンクを介して閉位置と開位置との間を回動可能に連結された扉側取付部材と、上記扉側取付部材を上記閉位置と上記開位置との間の所定の中立位置から上記閉位置まで回動させる回動付勢手段とを備え、上記躯体側取付部材の先端部には、上記一対のリンクの回動軸線方向と、上記躯体側取付部材の先端部と後端部とを結ぶ方向との両方向に対して直交する方向に突出する突出部が形成され、この突出部に上記一対のリンクが回動可能に取り付けられたスライドヒンジにおいて、
上記躯体側取付部材には、当接部材が設けられ、この当接部材には、上記突出部の突出方向を向く当接面が設けられ、
上記扉側取付部材には、移動可能な可動部材及びこの可動部材の移動速度を低速に抑えるダンパ機構を有するダンパ装置が設けられ、
上記扉側取付部材の上記中立位置から上記閉位置側への閉回動時に、上記扉側取付部材が上記閉位置から所定の角度だけ手前の当接位置に達すると、上記可動部材が上記当接部材の当接面に接触し、上記扉側取付部材の上記当接位置から上記閉位置までの閉回動に伴って、上記可動部材が上記当接面上を後端側へ向って摺動するととともに、上記当接面によって移動させられることを特徴とするダンパ付きスライドヒンジ。 A housing-side mounting member, a door-side mounting member connected to a front end portion of the housing-side mounting member via a pair of links so as to be rotatable between a closed position and an open position, and the door-side mounting member A rotation urging means for rotating from a predetermined neutral position between a closed position and the open position to the closed position, and a rotation axis of the pair of links at a distal end portion of the housing-side mounting member A protrusion is formed that protrudes in a direction perpendicular to both the direction and the direction connecting the front end and the rear end of the housing-side mounting member, and the pair of links can be rotated in the protrusion. In the attached slide hinge,
The housing side mounting member is provided with a contact member, and the contact member is provided with a contact surface facing the protruding direction of the protruding portion,
The door-side mounting member is provided with a movable movable member and a damper device having a damper mechanism that suppresses the moving speed of the movable member at a low speed,
When the door side mounting member reaches a contact position in front of the closed position by a predetermined angle during the closing rotation of the door side mounting member from the neutral position to the closed position, the movable member is moved to the contact position. The movable member comes into contact with the contact surface of the contact member, and the movable member slides on the contact surface toward the rear end side as the door-side mounting member is turned from the contact position to the closed position. A slide hinge with a damper which is moved and moved by the contact surface. 上記扉側取付部材の上記閉回動時に上記扉側取付部材が上記当接位置から所定の角度だけ手前の前当接位置に達すると、上記可動部材が上記突出部の先端面に接触し、上記扉側取付部材の上記前当接位置から上記閉位置側への回動に伴って、上記可動部材が上記突出部の先端面上を後端側へ向って摺動するとともに、上記先端面によって移動させられ、上記当接面の少なくとも上記突出部に隣接する先端部が上記突出部の先端面の後方延長上に配置され、上記扉側取付部材が閉回動して上記当接位置に達すると、上記可動部材が突出部の先端面から上記当接部材の上記当接面上に乗り移って当該当接面上を摺動することを特徴とする請求項１に記載のダンパ付きスライドヒンジ。 When the door side mounting member reaches the front contact position in front of the contact position by a predetermined angle during the closing rotation of the door side mounting member, the movable member comes into contact with the distal end surface of the protrusion, As the door-side mounting member rotates from the front contact position to the closed position side, the movable member slides toward the rear end side on the front end surface of the protrusion, and the front end surface And at least a tip portion of the contact surface adjacent to the protrusion is disposed on a rear extension of the tip surface of the protrusion, and the door-side mounting member is rotated to the contact position. 2. The slide hinge with a damper according to claim 1, wherein, when reaching, the movable member slides on the contact surface of the contact member from the front end surface of the projecting portion and slides on the contact surface. .

Images