JPS6026789A - Earthquake-proof hinge - Google Patents
Earthquake-proof hingeInfo
- Publication number
- JPS6026789A JPS6026789A JP13636483A JP13636483A JPS6026789A JP S6026789 A JPS6026789 A JP S6026789A JP 13636483 A JP13636483 A JP 13636483A JP 13636483 A JP13636483 A JP 13636483A JP S6026789 A JPS6026789 A JP S6026789A
- Authority
- JP
- Japan
- Prior art keywords
- door
- support shaft
- door frame
- load
- 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
Links
Landscapes
- Hinge Accessories (AREA)
Abstract
(57)【要約】本公報は電子出願前の出願データであるた
め要約のデータは記録されません。(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.
Description
【発明の詳細な説明】
本発明は、扉側の対震蝶番に係り、特に、地震等の衝撃
によって扉枠がゆがんでも確実に扉を開けることを可能
圧する対震蝶番に関する。DETAILED DESCRIPTION OF THE INVENTION The present invention relates to an anti-seismic hinge for a door, and more particularly to an anti-seismic hinge that allows the door to be opened reliably even if the door frame is distorted due to an impact such as an earthquake.
地震や室内におけるガス爆発等に起因する衝撃によって
扉枠がゆがむと、扉と扉枠とが相互に干て゛
渉して扉を開放づきな(なることがあり、このように室
内に閉じ込められた場合、特にいわゆるマンションや公
団住宅などの集合住宅においては出入口は扉口だけなの
で、室内で火災でも発生すると非常に危険であることは
言うまで、もない。If the door frame becomes distorted due to shock caused by an earthquake or gas explosion indoors, the door and door frame may interfere with each other, making it difficult to open the door. Needless to say, it is extremely dangerous if a fire breaks out indoors, especially in apartment complexes such as condominiums and public housing, where the only entrance and exit is the door.
しかして、扉枠のゆがみによって扉が開放不能になる理
由を詳述すると次のようになる。すなわち、図面を簡明
にするため扉枠の厚みを無視し、かつ扉と扉枠との間隙
を誇張して示す第1図において、扉枠1を含む平面内で
作用し、扉枠を平行四辺形に変形させる力が加わった場
合を考える。However, the reason why the door cannot be opened due to distortion of the door frame is as follows. In other words, in Fig. 1, which ignores the thickness of the door frame and exaggerates the gap between the door and the door frame to simplify the drawing, the action occurs within a plane that includes the door frame 1, and the door frame is placed on a parallelogram. Consider the case where a force is applied that deforms the shape.
この力は、扉枠lの下辺を固定して考えた場合、扉枠の
上辺にノブ2側から蝶番3側に向って作用する力と、そ
の反対方向の力とが考えられるが、仮りに前者を+(プ
ラス)方向の力、後者を−(マイナス)方向の力と区別
することにすると、+方向の力が加わった場合扉枠lは
第2図に示すように変形し、JiS4の自由側端縁の上
端が扉枠1の上辺に強(干渉し、その当接部の変形や摩
擦力によって扉4が開放できなくなる。一方、一方向の
力が作用するときKは扉枠lは第3図に示すように変形
し、この場合にはF114の自由側端縁の下端が扉枠l
の下辺に干渉するようKなる。When considering this force with the lower side of the door frame l fixed, it can be considered that there is a force acting on the upper side of the door frame from the knob 2 side toward the hinge 3 side, and a force in the opposite direction. If we distinguish the former from a force in the + (plus) direction and the latter from a force in the - (minus) direction, when a force in the + direction is applied, the door frame l deforms as shown in Figure 2, and the JiS4 The upper end of the free side edge strongly interferes with the upper side of the door frame 1, and the door 4 cannot be opened due to the deformation and frictional force of the contact part.On the other hand, when a force in one direction is applied, K is the door frame l is deformed as shown in Figure 3, and in this case, the lower end of the free side edge of F114 is attached to the door frame l.
K so that it interferes with the lower side of .
一般に、扉4の下部における扉枠1との隙間β(第1図
参照;例えば約6咽)は、扉4の上部におけるそれα(
例えば約3 rrrm )より大きいので、+方向の力
が加わった場合における扉枠lの水平方向の許容歪量r
(第2図)より、一方向の力が加わった場合における許
容歪量δ(第3図)の方が大きいのが普通である。In general, the gap β between the lower part of the door 4 and the door frame 1 (see Fig. 1; for example, about 6 mm) is the same as that at the upper part of the door 4 α (
For example, since it is larger than approximately 3 rrrm), the permissible horizontal strain amount r of the door frame l when a force in the + direction is applied.
(Fig. 2), the allowable strain amount δ (Fig. 3) when a force is applied in one direction is usually larger.
また、ある種の蝶番は、例えば第4図に示すように、扉
枠に取り付けられる第1羽根板5の側端縁部に支軸6を
一体的に突設し、一方、扉に取り付けられる第2羽根板
70側端縁には案内筒8を一体的罠結合し、支軸6と案
内筒8とを回動自在に嵌合させると共に、支軸6の軸線
方向に作用する扉の荷重を、支軸6の先端と案内筒8の
底面との当接部で担持するようにしているので、扉4は
扉枠lに対して上方に移動可能である(いわゆる旗蝶番
)。In addition, some types of hinges, for example, as shown in FIG. A guide cylinder 8 is integrally connected to the side edge of the second blade plate 70, and the support shaft 6 and the guide cylinder 8 are rotatably fitted, and the load of the door acting in the axial direction of the support shaft 6 is supported by the contact portion between the tip of the support shaft 6 and the bottom surface of the guide tube 8, so the door 4 can move upward with respect to the door frame l (so-called flag hinge).
したがって、第3図に示す一方向の力が扉枠lK加わっ
た場合17′)扉枠1の水平方向の許容歪量δはさらに
増大し、実際問題とし℃−一方向力に対しては、従来の
蝶番でも扉枠の変形によって扉が開かなくなることはほ
とんどないと言ってよい。Therefore, when the unidirectional force shown in FIG. It can be said that even with conventional hinges, there is almost no chance that the door will not open due to deformation of the door frame.
しかしながら子方向の力が加わるときKは第2図から明
らかなように扉枠lのわずかな変形によって扉4が開か
なくなってしまい、このような場合の危険性については
前述したとおりである。However, as is clear from FIG. 2, when a force is applied in the child direction, the door 4 becomes unable to open due to slight deformation of the door frame 1, and the danger in such a case is as described above.
かかる不都合を解消するため、扉枠1と扉4との間隙者
を例えば10同程度に拡大した扉も使用され始めたが、
かかる対応策は既存の扉には適用が−非常に困難である
し、また、一般知見映えも悪く気密の保持等にも問題が
ある、など種々の不都合がある。In order to solve this inconvenience, doors in which the gap between the door frame 1 and the door 4 is expanded to about the same size, for example, by 10, have begun to be used.
Such countermeasures are extremely difficult to apply to existing doors, and also have various disadvantages, such as poor visibility to general knowledge and problems with maintaining airtightness.
そこで、本発明の目的は、地震等の衝撃によって扉枠が
ゆがんでも確実に扉を開けることを可能にし、しかも既
存の扉にも適用できる対震蝶番をに支軸を一体的に突設
した第1羽根板と、側端縁に一体的に結合した案内筒を
上記支軸に嵌合させた第2羽根板とを有する蝶番におい
て、上記案内筒内に、支軸の先端と当接する負荷プラグ
な摺動可能に配設すると共に、この負荷プラグが支軸側
に抜は出ることを防止する係止部を形成し、一方、上記
負荷ゾラグ忙関して支軸とは反対側における案内筒内に
、複数の皿ばねな積層し℃弾装し又負荷プラグを上記係
止部に弾圧し、支軸の軸線方向の荷重を負荷プラグを介
し1皿ばねに担持させる・ようにしたことを特徴とする
。Therefore, the purpose of the present invention is to provide an anti-seismic hinge that allows the door to be opened reliably even if the door frame is distorted due to shocks such as earthquakes, and that can also be applied to existing doors. In a hinge having a first blade plate and a second blade plate in which a guide cylinder integrally connected to a side edge is fitted to the support shaft, a load that comes into contact with the tip of the support shaft is placed in the guide cylinder. The load plug is arranged so as to be able to slide freely, and a locking part is formed to prevent the load plug from being pulled out toward the support shaft. Inside, a plurality of disc springs are laminated and loaded, and a load plug is pressed against the locking part, so that the load in the axial direction of the support shaft is carried by one disc spring through the load plug. Features.
以下本発明の実施例を第5乃至第7図を参照して説明す
る。Embodiments of the present invention will be described below with reference to FIGS. 5 to 7.
第5図において符号5は第1羽根板を示し、この第1羽
根板5の一方の側端縁部にはこれとほぼ平行な支軸6が
一体的に突設されている。図示の実施例では、第1羽根
板5の側端縁にこれと平行な軸線を有し一端(第5図で
下端)が閉塞された支軸保持筒9が一体に結合され、こ
の支軸保持筒9内に支軸6が例えば圧入されている。こ
のようにして第1羽根板5の側端縁部に結合された支軸
6の先端部は、第1羽根板5の端縁(第5図で上端縁)
から突出している。In FIG. 5, reference numeral 5 designates a first blade plate, and a support shaft 6 that is substantially parallel to the first blade plate 5 is integrally protruded from one side edge portion of the first blade plate 5. In the illustrated embodiment, a support shaft holding cylinder 9 having an axis parallel to the side edge of the first blade plate 5 and closed at one end (lower end in FIG. 5) is integrally connected to the side edge of the first blade plate 5. For example, the support shaft 6 is press-fitted into the holding cylinder 9. The tip of the support shaft 6 connected to the side edge of the first blade plate 5 in this way is the edge of the first blade plate 5 (the upper edge in FIG. 5).
stands out from
一方、第5図において符号7は第2羽根板を示し、この
第2羽根板7の一方の側端縁には案内筒8が一体に結合
されている。図示の実施例では、この案内筒8の長さは
第2羽根板7の側端縁より長(なっている。On the other hand, in FIG. 5, reference numeral 7 indicates a second blade plate, and a guide tube 8 is integrally connected to one side edge of the second blade plate 7. In the illustrated embodiment, the length of the guide tube 8 is longer than the side edge of the second blade plate 7.
上記案内筒8の内筒部のほぼ中央には、例えば案内筒を
半径方向に貫通して内端がわずかに案内筒内に突出する
1乃至複数本の係止ビン11を打ち込むなどして係止部
が形成されており、第5図においてこの係止ビン11よ
り下方の案内筒内筒部には、上記支軸6が回動自在に嵌
合している。Approximately in the center of the inner cylinder part of the guide cylinder 8, one or more locking pins 11 which penetrate the guide cylinder in the radial direction and whose inner ends slightly protrude into the guide cylinder are driven, for example, to engage the guide cylinder 8. A stop portion is formed, and the support shaft 6 is rotatably fitted into the inner cylindrical portion of the guide cylinder below the lock pin 11 in FIG.
また、上記係止ビン11より上方における案内筒内筒部
には、例えば短円柱状の負荷ゾラグ12が、案内筒8の
軸線方向に摺動可能に配設されている。Further, in the inner cylindrical portion of the guide cylinder above the locking pin 11, for example, a short cylindrical load Zolag 12 is disposed so as to be slidable in the axial direction of the guide cylinder 8.
この負荷ゾラグ12と、案内筒8の上方開口端に嵌着さ
れ、例えば溶接によって固定された蓋プラグ13との間
には、複数枚の皿はね14 、14が直列に積層された
状態で弾装され℃おり、これらの皿はね14 、14の
弾力によって、負荷ゾラグ12は支軸6方向に弾圧され
ているが、上記係止ビン11によって係止されて案内筒
8内に固定されている。A plurality of countersunks 14 are stacked in series between the load Zolag 12 and a lid plug 13 that is fitted into the upper opening end of the guide tube 8 and fixed by, for example, welding. The loaded ZORAG 12 is elastically loaded in the direction of the support shaft 6 due to the elasticity of these plate springs 14, 14, but is locked by the locking pin 11 and fixed in the guide cylinder 8. ing.
上記皿ばね14 、14の弾力は、支軸6から負荷ゾラ
グ12に伝達される荷重が例えば扉の重量の半分(本発
明による対震蝶番2個で扉を支持する場合)程度の常態
荷重より例えば10〜20 ky程度大きくなるように
設定するのが望ましい。The elasticity of the disc springs 14, 14 is such that the load transmitted from the support shaft 6 to the loaded ZOLAG 12 is lower than the normal load of, for example, about half the weight of the door (when the door is supported by two anti-seismic hinges according to the present invention). For example, it is desirable to set it to be about 10 to 20 ky larger.
−また、上記負荷プラグ120案内筒8内における係止
位置は、第5図に示すように、案内筒8内に挿入された
支軸6の先端が負荷ゾラグ12と当接した状態において
、案内@8および支軸保持筒9の相互に対向する端縁の
間に例えば5〜6鴎程度の間隙が保たれるように定める
ものとする。-Also, the locking position of the load plug 120 in the guide tube 8 is such that the tip of the support shaft 6 inserted into the guide tube 8 is in contact with the load Zorag 12, as shown in FIG. A gap of, for example, about 5 to 6 mm is maintained between the mutually opposing edges of @8 and the support shaft holding cylinder 9.
なお、第5図において符号15は支軸6の先端に埋設さ
れて負荷プラグ12との接触面積を小さくし摩擦を減少
させる鋼球を、同16はビス孔をそれぞれ示す。In FIG. 5, the reference numeral 15 indicates a steel ball embedded in the tip of the support shaft 6 to reduce the contact area with the load plug 12 and reduce friction, and the reference numeral 16 indicates a screw hole.
また、第1および第2羽根板5,7におけるビス孔16
、16の相互の関係位置、および第5図に示す取り付
は状態における羽根板のビス孔群の間隔を従来の蝶番に
おけるそれと同一にすれば、扉や扉枠にタップ孔を穿設
し直すことなく、本発明による対震蝶番を既存の扉につ
いている蝶番と容易に交換することができる。In addition, the screw holes 16 in the first and second blade plates 5 and 7
, 16, and the installation shown in Figure 5.If the spacing of the screw holes in the slats is the same as that in a conventional hinge, the tap holes can be re-drilled in the door or door frame. The anti-seismic hinge according to the present invention can be easily replaced with a hinge attached to an existing door without any trouble.
上記のように構成された本発明による対震蝶番は、・例
えば第1羽根板5を扉枠l側に、第2羽根板7を扉4側
にビス止めして使用される。The anti-seismic hinge according to the present invention configured as described above is used, for example, by fixing the first blade plate 5 to the door frame l side and the second blade plate 7 to the door 4 side with screws.
扉枠lがゆがんでいない常態において、こグ)対震蝶番
を例えば2個使用して扉を支持する場合(は、各蝶番に
加わる荷重は理想的な取付状態で扉の重量の釣機となる
が、この荷重は第2羽炉板7、案内筒8、皿ばね14
、14%負荷プラグ12および支軸6等を介して扉枠に
担持される。前記したように、皿はね14 、14の弾
力を扉の重量の半分に10〜20klilを加えた値に
設定すれば、上記常態荷重では各皿はね14は弾性変形
せず、したがって負荷ゾラグ12は係止ビン11に弾圧
された状態で定座し続けるので、外見上負荷プラグ12
が案内筒8内に固定されていると同じである。また、蝶
番としての本来の機能は従来のものと同じである。When the door frame l is not distorted and the door is supported using, for example, two anti-seismic hinges, the load applied to each hinge is equal to the weight of the door in an ideal installation state. However, this load is applied to the second feather furnace plate 7, the guide tube 8, and the disc spring 14.
, 14% load plug 12, support shaft 6, etc., are supported on the door frame. As mentioned above, if the elasticity of the plate springs 14, 14 is set to a value equal to half the weight of the door plus 10 to 20 kiloliters, each plate plate 14 will not be elastically deformed under the above normal load, and therefore the load Zolag Since the plug 12 continues to sit in a fixed position while being pressed by the locking pin 11, it appears that the load plug 12
is fixed inside the guide tube 8. Further, the original function as a hinge is the same as that of the conventional hinge.
しかして、地震等に起因する衝撃によって、第2図に示
すように扉枠lに前記した十方向の力が作用し、扉枠1
が変形して扉4の自由側端縁の上端が扉枠1の上辺に当
接すると、扉枠lに加わる力の反力がn4を介してこの
対sfs番にも加わるようになる。この力は第1および
第2羽根板5および7が相互に近接する方向に作用し、
この結果皿ばね14 、14が圧縮される方向に弾性変
形゛して負荷ゾラグ12が第5図において上方に移動す
るので、第2図から明らかなように、扉4は扉枠lに対
して相対的に下方に移動できるようになり、扉と扉枠と
の干渉が解消されて扉を容易に開放することができるよ
うになる。However, due to an impact caused by an earthquake or the like, forces in the ten directions described above act on the door frame l as shown in Figure 2, and the door frame l
When the door 4 is deformed and the upper end of the free side edge of the door 4 comes into contact with the upper side of the door frame 1, the reaction force of the force applied to the door frame 1 is also applied to this pair sfs via n4. This force acts in a direction in which the first and second vanes 5 and 7 approach each other,
As a result, the disc springs 14 and 14 are elastically deformed in the direction of compression, and the loaded Zorag 12 moves upward in FIG. It becomes possible to move relatively downward, and interference between the door and the door frame is eliminated, allowing the door to be opened easily.
一万、第3図に示すように扉枠1に前記一方向の力が加
わる場合には、従来の蝶番と同様に、扉枠lの下辺と罪
4の自由側端縁下端とが当接した両扉4に加わる力は、
対震蝶番の案内筒8(第5図参照)を支軸0から抜き外
す方向に作用し、この結果扉4は扉枠1に対して相対的
に上方に移動して扉枠1と罪4との干渉が解消される。10,000, when a force is applied to the door frame 1 in one direction as shown in Fig. 3, the lower edge of the door frame 1 and the lower end of the free side edge of the door frame 1 come into contact, as in the case of conventional hinges. The force applied to both doors 4 is
The guide cylinder 8 (see Figure 5) of the anti-seismic hinge acts in the direction of being removed from the support shaft 0, and as a result, the door 4 moves upward relative to the door frame 1, causing the door frame 1 and the interference with is eliminated.
なお、本発明による対震蝶番は、扉4を介して受けろ十
方向の11(犬な力に対応して皿はね14 、14が変
形し、負荷プラグ12が移動するが、上記過大な力を取
りされば自動的に常態に復帰することは勿論である。一
方向の力に対しても同様である。The anti-seismic hinge according to the present invention is designed so that the countersunk hinges 14 are deformed in response to the force received through the door 4 in ten directions, and the load plug 12 is moved. Of course, it will automatically return to normal if the force is removed.The same applies to forces in one direction.
また、上記した対震蝶番の機能は、第1羽根板5を扉1
111[、第2羽根板7を扉枠側に取り付けても、すな
わち第5図とは上下反対方向に取り付けても変らないこ
とは明らかである。In addition, the function of the anti-seismic hinge described above is such that the first wing plate 5 is connected to the door 1.
111[, it is clear that the same will not change even if the second wing plate 7 is attached to the door frame side, that is, even if it is attached in the vertically opposite direction to that in FIG.
第6図は本発明の他の実施例を示し、この実施例は、負
荷プラグ12の支軸々線方向の寸法を小さくすると共に
、負荷プラグ12の支軸6との当接部とは反対側の端面
に案内杆12aを同軸かつ一体に結合し、このガイド杆
121Lの外端部(第6図で上端部)を、前記蓋プラグ
13を貫通ずるように形成されたガイド孔13aに摺動
可能に嵌合させて、負荷プラグ12およびこれと一体の
ガイド杆12aを案内筒8の内筒面および蓋プラグ13
で案内するようにし、さらに、ガイド杆12aを容器ば
ね4の中央開口に嵌合あるいは遊嵌させたものである。FIG. 6 shows another embodiment of the present invention, in which the dimensions of the load plug 12 in the direction of the support shafts are reduced, and the abutting portion of the load plug 12 with the support shaft 6 is A guide rod 12a is coaxially and integrally connected to the side end surface, and the outer end (upper end in FIG. 6) of this guide rod 121L is slid into the guide hole 13a formed so as to pass through the lid plug 13. The load plug 12 and the guide rod 12a integrated therewith are movably fitted to the inner cylinder surface of the guide cylinder 8 and the lid plug 13.
Further, the guide rod 12a is fitted or loosely fitted into the center opening of the container spring 4.
なR1第6図において第5図と等符号を付したものは、
第5因と同一のものを示す。In R1 Figure 6, the same symbols as in Figure 5 are given.
Shows the same thing as the fifth cause.
第6図に示すものの作用効果は第5図示のもののそれと
同様であるから詳細な説明は省略するが、第6図示の対
塵蝶番における負荷ゾラグ12は、蓋プラグのガイド孔
13 a Kよつ℃も案内されるから動きが円滑になり
、また、負荷ゾラグ12の支軸々岸方向の寸法が小さい
のでその分皿はねの、収納容積が瑠太し、同じ枚数の皿
ばねな収納する場合には、案内筒8のm2羽根板7カζ
らの突出寸法を小さくできるか、または支軸6と案内筒
8との嵌合深緑を増大させて扉の開閉の円滑性を増大で
き、案内筒8の第2羽根板7からの突出寸法や支軸6と
案内筒8との嵌合深さが一定の場合には、皿はね14の
収納枚aを増やして皿はね群14 、14の全体のはね
定数を小さくできるから、初期圧縮量を太きくして常態
における弾力を収納枚数の小さく・ものと同じにするこ
とは当然の前提とし℃、負荷プラグ12を動かすために
、9する力を小さくし、対′#蝶番の作動感度を高め舟
る、と(・う別の利点が生じる。さらにまた、容器はね
14はガイド杆12 a VCよって伺束されるので、
皿はね相互の整合度が冒まり、皿はね群のばねとしての
作動確実性が向上する、という利点もある。The action and effect of the one shown in FIG. 6 is the same as that of the one shown in FIG. ℃ is also guided, so the movement is smooth, and since the dimension of the load ZORAG 12 in the direction of the support shaft is small, the storage volume of the disc spring is large, and when storing the same number of disc springs. , the 7 m2 blade plates of the guide tube 8ζ
The protrusion dimension of the guide tube 8 from the second blade plate 7 can be reduced, or the depth of engagement between the support shaft 6 and the guide tube 8 can be increased to increase the smoothness of opening and closing of the door. When the fitting depth between the support shaft 6 and the guide tube 8 is constant, the total spring constant of the disk spring groups 14, 14 can be reduced by increasing the number of disks a stored in the disk springs 14. It is a natural assumption that the amount of compression should be increased to make the elasticity in the normal state the same as that of the small number of stored sheets. Another advantage arises when the vessel height is increased.Furthermore, since the container spring 14 is guided by the guide rod 12a VC,
There is also the advantage that the degree of alignment between the disc springs is affected and the reliability of the operation of the disc spring group as a spring is improved.
第7図は本発明のさらに他の実施例を示し、この実施例
は、係止ビン13 (第6図参照)の代りに案内筒8の
円筒部に段部17を形成し、この段部17を負荷プラグ
12を係止するための糸止部としたこと、および皿はね
14を2枚重合したものをばね単位として複数のはね単
位を直列に積層すると共に、皿はね群と蓋ゾラグ13と
の間にワッシャ18.18を挿設した点を除けば、その
構成は第6図示のものと同一である。第7図示のものの
作用効果は第6図のそれと同様であるからその詳細な説
明は省略するが、第7図に示すように皿はね14 、1
4を重合させると、皿はね群全体のはね定数が増大し、
また、ワッシャ18を挿設することにより皿はね群の初
期圧縮量が大きくなる。したかつか、負荷プラグ12を
係止部に弾圧するためのばね部材として圧縮コイルばね
や竹の子ばねを用いるものと異なり、ばね部材そのもの
を設計、典遺し直すことなく、同一規格の皿はねの枚数
や装填方法を変えることにより、扉のitの大小に応じ
て皿はね群のばねとしての諸元を種々に設定することが
できる。FIG. 7 shows still another embodiment of the present invention, in which a step 17 is formed in the cylindrical portion of the guide tube 8 instead of the locking pin 13 (see FIG. 6), and this step 17 is used as a thread stopper for locking the load plug 12, and a plurality of spring units are stacked in series with two overlapping plates 14 as a spring unit, and a plate spring group. Its construction is the same as that shown in FIG. 6, except that a washer 18, 18 is inserted between the lid Zorag 13. The operation and effect of the one shown in FIG. 7 is the same as that of FIG. 6, so a detailed explanation thereof will be omitted, but as shown in FIG.
When 4 is polymerized, the spring constant of the entire disc spring group increases,
Further, by inserting the washer 18, the initial compression amount of the disk spring group becomes larger. Moreover, unlike those that use compression coil springs or bamboo shoot springs as spring members for compressing the load plug 12 against the locking portion, the spring member itself can be designed and modified without re-designing or re-standardizing, and a countersunk spring of the same standard can be used. By changing the number of sheets and the loading method, various specifications of the spring of the disc spring group can be set depending on the size of the door.
以上の説明から明らかなように、本発明は、側端縁部に
支軸を一体的に突設したm1羽根板と、側端縁に一体的
に結合した案内筒を上記支軸に嵌合させた第2羽根板と
を有する蝶番にお(すて、上記案内筒内に、支軸の先端
と当接する負荷プラグな摺動CTI能に配設すると共に
、この負荷プラグが支軸側に抜は出ることを防止する係
止部を形成し、−万、上記負荷プラグに関して支軸とは
反対側における案内筒内に複数の皿ばねを積層して弾装
して、支軸の軸線方向の荷重をこれらの皿はね群に担持
させるようにしたので、罪の自由l1Ill端縁り上端
が扉枠と干渉するよりな扉枠の変形に対しても、また、
扉の自由側端縁の下端が扉枠と干渉するような変形に対
しても、その干渉を解消する方向に扉を扉枠に対し1相
対的に移動させることができ、したがつ又地層等の衝撃
によって扉枠が変形し又も確実に扉を開放することを0
]能にする。As is clear from the above description, the present invention provides an m1 blade plate having a support shaft integrally protruding from the side edge, and a guide tube integrally connected to the side edge that is fitted onto the support shaft. A load plug with a sliding CTI function is disposed in the guide cylinder and comes into contact with the tip of the spindle, and this load plug is placed on the spindle side. A locking portion is formed to prevent the load plug from coming out, and a plurality of disk springs are stacked and resiliently loaded in a guide cylinder on the opposite side of the support shaft with respect to the load plug, and Since the load of the plate springs is carried by these plate spring groups, it is possible to prevent deformation of the door frame such that the upper edge of the edge interferes with the door frame.
Even if the lower end of the free side edge of the door is deformed such that it interferes with the door frame, the door can be moved one position relative to the door frame in the direction to eliminate the interference. Even if the door frame is deformed due to impact such as
] Make it Noh.
わち扉を開放するために必J&なノブにおける力との関
係を神々の条件別に実験して調査した。その結果、従来
の蝶番を装着した扉においては、第2図示の変形では扉
枠の側辺の頑きかわずかに44゜。0で扉開放力が人間
の力の限界である100 K9に達したのに対し、不発
明による対M粍査を装着した罪では、第2図示の変形で
、扉枠の側辺り傾きが10(oooでも扉開放力はたか
だか15〜35Kfであった。We experimented and investigated the relationship between the power and the knob required to open the door, depending on the conditions of the gods. As a result, in the case of a door equipped with conventional hinges, the side edges of the door frame are slightly bent at 44 degrees in the modification shown in the second figure. 0, the door opening force reached 100 K9, which is the limit of human strength, whereas in the case of installing an uninvented anti-M inspection, the inclination of the side of the door frame was 10 K9 due to the modification shown in the second figure. (Even with ooo, the door opening force was at most 15 to 35 Kf.
また、扉枠が変形しても扉を開放できるという意味での
対震機能は対震蝶番自体が有しており、かつ蝶番の取り
替えは容易であるから、既存の扉にも本発明を適用し又
その対震機能を付与することができる。In addition, the anti-seismic hinge itself has an anti-seismic function in the sense that the door can be opened even if the door frame is deformed, and the hinge can be easily replaced, so the present invention can also be applied to existing doors. Moreover, it can be provided with an anti-seismic function.
さらにまた、複数の蝶番で扉を支持する場合、各蝶番の
第1および第2羽根板の相互の取り付は位置を厳密に管
理しないと一つの蝶番に荷重が集中しがちであるが、本
発明による対震蝶番は、片方の蝶番に荷重が集中すると
負荷プラグが移動し、それまで離間していた他方の蝶番
の支軸と負荷プラグとが当接するようになり、このよう
にして荷重の均等な分配を自動的に行うことができる。Furthermore, when supporting a door with multiple hinges, the load tends to concentrate on one hinge unless the mutual attachment of the first and second slats of each hinge is carefully controlled. In the anti-seismic hinge according to the invention, when a load is concentrated on one hinge, the load plug moves, and the support shaft of the other hinge, which was previously separated, comes into contact with the load plug, and in this way, the load is reduced. Equal distribution can be done automatically.
また、案内筒内に弾装する複数の皿はねの枚数や装填方
法を変えることにより、皿はね群のはね定数その他のば
ねとしての諸元を―節できるので、圧縮コイルばねや竹
の子はねなど他のばね6部材のようにばね部材そのもの
の設計や製造をし直すことなく、本発明による対′S蝶
番な槽々の重量の扉に対応させることができる、など種
々の効果を莫する。In addition, by changing the number and loading method of multiple disc springs loaded into the guide cylinder, the spring constant and other spring specifications of the disc spring group can be adjusted. Unlike other spring members such as springs, the present invention has various effects such as being able to adapt to heavy doors of tanks with S hinges without having to redesign or manufacture the spring members themselves. spend a lot of money
ff11図は扉と扉枠とを示′1″線図、第2図および
第3商は罪と扉枠との干渉を説明するための線図、第4
図は従来の蝶番の構造の一例を示す一部断面正面図、第
5図は本発明の一実施例による対′S蝶番の一部断面正
面図、第6図および第7図は本発明の他の実施例による
対震蝶番の一部断面正面図である。
5・・・第1羽根板、6・・・支軸、7・・・第2羽根
板、8・・・案内筒、9・・・支軸保持筒、l]・・・
係止ビン、12・・・負荷プラグ、12a・・・ガイド
杆、13・・・善プラグ、13a・・・ガイド孔、14
・・・皿ばね、17・・・段部。
特許出願人 美和ロック株式会社
第・1図
第 2 図
第 3 図
第 4 図Figure ff11 shows the door and the door frame. Figure 2 and the third quotient are diagrams for explaining the interference between the door and the door frame.
The figure is a partially sectional front view showing an example of the structure of a conventional hinge, FIG. 5 is a partially sectional front view of a double S hinge according to an embodiment of the present invention, and FIGS. 6 and 7 are FIG. 7 is a partially sectional front view of an anti-seismic hinge according to another embodiment. 5... First blade plate, 6... Support shaft, 7... Second blade plate, 8... Guide cylinder, 9... Support shaft holding cylinder, l]...
Locking bottle, 12... Load plug, 12a... Guide rod, 13... Good plug, 13a... Guide hole, 14
・・・Disc spring, 17...Step part. Patent applicant Miwa Lock Co., Ltd. Figure 1 Figure 2 Figure 3 Figure 4
Claims (1)
側端縁に一体的に結合した案内筒を上記支軸に嵌合させ
た第2羽根板とを有する蝶番において、上記案内筒内に
、支軸の先端と当接する負荷プラグな摺動可能に配設す
ると共に、この負荷プラグが支ll1l側に抜は出るこ
とを防止する係止部を形成し、−万、上記負荷プラグに
関して支軸とは反対側における案内筒内に、aeの皿ば
ねを積層し又弾装して負荷プラグを上記係止部に弾圧し
、支軸の軸線方向の荷重を負荷プラグを介して皿はねに
担持させるようにしたことを特徴とする対震蝶番。− 2、上記皿はねの弾力を、常態にBける支軸の軸線方向
のfINより大きくなるように設定した特許請求の範囲
第1項記載の対震蝶番。1. a first wing plate having a supporting shaft integrally protruding from a side edge;
In a hinge having a guide tube integrally connected to a side edge and a second blade plate fitted to the support shaft, a load plug that comes into contact with the tip of the support shaft can slide inside the guide tube. At the same time, a locking part is formed to prevent the load plug from being pulled out toward the support side, An anti-seismic hinge characterized in that the load plug is pressed against the locking portion by laminating and elastically mounting the members, and the load in the axial direction of the support shaft is carried by the countersunk via the load plug. -2. The anti-seismic hinge according to claim 1, wherein the elasticity of the disc spring is set to be larger than fIN in the axial direction of the support shaft in normal state.
Priority Applications (2)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP13636483A JPS6026789A (en) | 1983-07-25 | 1983-07-25 | Earthquake-proof hinge |
| US06/564,739 US4561147A (en) | 1982-12-27 | 1983-12-22 | Hinge which facilitates opening door after the gate frame is distorted |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP13636483A JPS6026789A (en) | 1983-07-25 | 1983-07-25 | Earthquake-proof hinge |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| JPS6026789A true JPS6026789A (en) | 1985-02-09 |
| JPH0368995B2 JPH0368995B2 (en) | 1991-10-30 |
Family
ID=15173438
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP13636483A Granted JPS6026789A (en) | 1982-12-27 | 1983-07-25 | Earthquake-proof hinge |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JPS6026789A (en) |
Citations (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JPS5667264U (en) * | 1979-10-31 | 1981-06-04 |
-
1983
- 1983-07-25 JP JP13636483A patent/JPS6026789A/en active Granted
Patent Citations (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JPS5667264U (en) * | 1979-10-31 | 1981-06-04 |
Also Published As
| Publication number | Publication date |
|---|---|
| JPH0368995B2 (en) | 1991-10-30 |
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