JP5201627B2 - Housing vibration control device - Google Patents

Housing vibration control device Download PDF

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JP5201627B2
JP5201627B2 JP2008138950A JP2008138950A JP5201627B2 JP 5201627 B2 JP5201627 B2 JP 5201627B2 JP 2008138950 A JP2008138950 A JP 2008138950A JP 2008138950 A JP2008138950 A JP 2008138950A JP 5201627 B2 JP5201627 B2 JP 5201627B2
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JP2009287231A (en
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力 渡邊
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日新製鋼株式会社
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本発明は、風や地震等に起因する住宅等の小規模建築物の振動を抑制するための住宅用制振装置に関する。   The present invention relates to a vibration control device for a house for suppressing vibration of a small-scale building such as a house due to wind, earthquake, or the like.

従来より、風や地震等に起因する構造物の振動を抑制するための制振構造体として、図1に示すように、構造用鋼から成る柱1,1と梁2,2とで囲まれた枠体内に構造用鋼の水平部材5と傾斜部材3,3とから成る山形架構を配置し、梁2と山形架構の水平部材5とをダンパー8を介して結合してなるものが用いられている(特許文献1参照。)。なお、図1中、4は傾斜部材3の一端を柱1と梁2の交点に固定するための接ぎ手部材であり、6は傾斜部材3の他端を水平部材5に結合するための接ぎ手部材である。また、7は水平部材5を梁2に連結するための結合部材である。
このような制振構造体にあっては、山形架構の水平部材5と梁2とを結合するダンパー8として普通鋼部材や低降伏応力鋼部材等を用い、地震等の振動エネルギーを当該ダンパー8の変形により吸収させて構造物全体の振動を小さくしようとするものである。
Conventionally, as a damping structure for suppressing vibration of a structure caused by wind, earthquake, etc., as shown in FIG. 1, it is surrounded by columns 1, 1 and beams 2, 2 made of structural steel. A frame-shaped frame composed of a structural steel horizontal member 5 and inclined members 3, 3 is disposed in the frame body, and the beam 2 and the horizontal frame-shaped member 5 are connected via a damper 8. (See Patent Document 1). In FIG. 1, reference numeral 4 denotes a joint member for fixing one end of the inclined member 3 to the intersection of the column 1 and the beam 2, and reference numeral 6 denotes a joint for connecting the other end of the inclined member 3 to the horizontal member 5. It is a hand member. Reference numeral 7 denotes a connecting member for connecting the horizontal member 5 to the beam 2.
In such a vibration damping structure, an ordinary steel member, a low yield stress steel member, or the like is used as the damper 8 for connecting the horizontal member 5 and the beam 2 of the mountain-shaped frame, and vibration energy such as earthquake is applied to the damper 8. It is intended to reduce the vibration of the entire structure by absorbing the deformation.

そして、エネルギー吸収量をより多くするために、前記ダンパー8に各種の改良が施されている。上記特許文献1でも、ダンパー8を、特殊形状にしている。
また、例えば特許文献2では、ダンパーを湾曲した形状を有すると共に、梁の延在方向に並設された複数の板状部を備えており、前記ダンパーの板状部の初期長L0を、設計地震外力によって2本の柱と2本の梁で形作られた枠体が最大変形した時点における上記板状部の長さをLとした場合に、下記の式で求められる平均歪度εの値がダンパーを構成する低降伏応力鋼の引っ張り試験における降伏領域と歪み硬化領域との境界の歪度以下になるように設定している。なお、ε=L/L0−1である。
特許第3016634号公報 特許3366862号公報
In order to increase the amount of energy absorption, various improvements are made to the damper 8. Also in the above-mentioned Patent Document 1, the damper 8 has a special shape.
Further, for example, in Patent Document 2, the damper has a curved shape and includes a plurality of plate-like portions arranged in parallel in the extending direction of the beam. The initial length L 0 of the plate-like portion of the damper is set as follows: When the length of the plate-like part at the time when the frame formed by two columns and two beams is deformed to the maximum by the design earthquake external force is L, the average skewness ε calculated by the following equation The value is set to be equal to or less than the skewness of the boundary between the yield region and the strain hardening region in the tensile test of the low yield stress steel constituting the damper. Note that ε = L / L 0 -1.
Japanese Patent No. 3016634 Japanese Patent No. 3366862

上記特許文献1,2で紹介されている制振構造体は、鉄骨構造物や鉄筋コンクリート構造物等の大型構造物の骨組みを形作る柱や梁に直接取り付けて構造物の耐震性能を向上させる点では、極めて有用である。
しかしながら、上記のような制振構造体は、それを構成する傾斜部材やダンパーが、大型構造物の骨組みを形作る構造用鋼製の柱や梁に溶接接合やボルト接合等によって直接取り付ける構造となっている。このため、鉄骨構造物や鉄筋コンクリート構造物を新規に建造する際、骨組の構築時に同時に取付けることが一般的である。したがって、このような制振構造体は、既存の構造物に、しかも大型構造物に付設することは困難である。
The damping structures introduced in Patent Documents 1 and 2 above are directly attached to columns and beams that form the framework of large structures such as steel structures and reinforced concrete structures to improve the seismic performance of the structures. Is extremely useful.
However, the above-described vibration damping structure has a structure in which the inclined members and dampers constituting the vibration damping structure are directly attached to structural steel columns and beams that form the framework of a large structure by welding or bolting. ing. For this reason, when a steel structure or a reinforced concrete structure is newly constructed, it is generally attached at the same time when the framework is constructed. Therefore, it is difficult to attach such a vibration damping structure to an existing structure and a large structure.

地震や風に起因する構造物の振動の抑制は、大型構造物だけではなく、一般の木造家屋やいわゆるプレハブの鉄骨住宅や小規模建築物にも必要であることは言うまでもない。しかも一般の住宅にあっては、地震対策の必要性が言われるなか、新築に限らず既存の建物に制振構造を付加したい、というのが一般消費者の要望である。しかし、上記のような既存の制振構造体の一般住宅への転用は極めて難しい。
本発明は、このような問題を解消すべく案出されたものであり、一般の木造家屋やプレハブ住宅用に、しかも新築物件あるいは既存物件を問わず非常に簡単に設置適用することができ、メンテナンスでのダンパー交換も簡単で性能の優れた住宅用制振装置を提供することを目的とする。
It goes without saying that suppression of vibrations of structures caused by earthquakes and winds is necessary not only for large structures but also for general wooden houses, so-called prefabricated steel houses and small-scale buildings. Moreover, in the case of ordinary houses, there is a need for earthquake countermeasures, and it is a general consumer's desire to add a damping structure to existing buildings as well as new construction. However, it is extremely difficult to divert the existing vibration control structure as described above to ordinary houses.
The present invention has been devised to solve such a problem, and can be installed and applied to a general wooden house or a prefabricated house, regardless of whether it is a newly built property or an existing property, The purpose is to provide a vibration control device for homes that is easy to replace dampers for maintenance and has excellent performance.

本発明の住宅用制振装置は、その目的を達成するため、上部および下部の2本の横材と、左部および右部の2本の縦材とが互いにピン接合されて矩形の枠体が形作られているとともに、下部横材の両内側端近傍にそれぞれの一端が固着され、他端がそれぞれ枠体の中央部方向に伸びる2本の斜材が配され、当該2本の斜材のそれぞれの他端が両端に固着された斜材受け材の上面と前記上部横材の中央部下面との間にダンパーが取り付けられた制振装置であって、当該制振装置を構成する横材、縦材、斜材受け材およびダンパーが軽量形鋼から構成されており、前記横材および縦材を構成する軽量形鋼は、その溝部を前記枠体の内側に向けて配されているとともに、前記ダンパーは、前記横材を構成する軽量形鋼のフランジ内面間隔と同じ寸法のフランジ外面間隔を有し、両フランジの中央部に長手方向に沿って複数の孔が連穿されており、両フランジの先端部が上部横材のフランジ間に挿入されてドリルねじで上部横材を構成する軽量形鋼のフランジに取り付けられているとともに、当該ダンパーを構成する軽量形鋼のウエブ外面が溝部を下方に向けて配された軽量形鋼からなる前記斜材受け材のウエブ外面にドリルねじで取り付けられていることを特徴とする。   In order to achieve the object, the residential vibration damping device of the present invention has a rectangular frame body in which two upper and lower cross members and two left and right vertical members are pin-bonded to each other. Are formed, and two diagonal members each having one end fixed in the vicinity of both inner ends of the lower cross member and the other end extending in the direction of the central portion of the frame are arranged. A damper having a damper attached between the upper surface of the diagonal material receiving member with the other ends fixed to both ends and the lower surface of the central portion of the upper cross member. The material, the longitudinal material, the diagonal material receiving material, and the damper are made of lightweight section steel, and the lightweight section steel constituting the transverse member and the longitudinal member is arranged with the groove portion facing the inside of the frame body. In addition, the damper has the same dimension as the flange inner surface interval of the lightweight section steel constituting the cross member. It has a flange outer surface interval, a plurality of holes are continuously drilled along the longitudinal direction at the center of both flanges, and the top ends of both flanges are inserted between the flanges of the upper cross member and the upper cross member is drilled Is attached to the flange of the lightweight section steel constituting the damper, and the outer surface of the lightweight section steel constituting the damper is disposed on the outer surface of the oblique member receiving member made of the lightweight section steel having the groove portion directed downward. It is attached with a drill screw.

この際、前記2本の斜材も軽量形鋼で構成されており、当該斜材を構成する軽量形鋼は、そのフランジ外面間隔が前記下部横材を構成する軽量形鋼のフランジ内面間隔と同じ寸法を有し、当該斜材のそれぞれの一端が下部横材の両内側端近傍のフランジ内に挿入固着されており、また当該斜材のそれぞれ他端が、前記横材を構成する軽量形鋼と同寸法のフランジ内面間隔を有する軽量形鋼からなる斜材受け材のフランジ内に挿入固着されていることが好ましい。   At this time, the two diagonal members are also made of lightweight section steel, and the lightweight section steel constituting the diagonal member has a flange outer surface interval of the flange inner surface interval of the lightweight section steel constituting the lower cross member. A lightweight shape having the same dimensions, each one end of the diagonal member being inserted and fixed in a flange near both inner ends of the lower cross member, and each other end of the diagonal member constituting the cross member It is preferably inserted and fixed in a flange of a diagonal receiving member made of a lightweight steel having a flange inner surface interval of the same dimensions as steel.

また、本発明の住宅用制振装置は、上部および下部の2本の横材と、左部および右部の2本の縦材とが互いにピン接合されて矩形の枠体が形作られているとともに、下部横材の両内側端近傍にそれぞれの一端が固着され、他端がそれぞれ枠体の中央部方向に伸びる2本の下部斜材と、上部横材の両内側端近傍に一端が固着され、他端がそれぞれ枠体の中央部方向に伸びる2本の上部斜材が配され、前記2本の下部斜材の前記他端が両端に固着された下部斜材受け材の上面と、前記2本の上部斜材の前記他端が両端に固着された上部斜材受け材の下面との間にダンパーが取り付けられた制振装置であって、当該制振装置を構成する横材、縦材、下部斜材受け材、上部斜材受け材およびダンパーが軽量形鋼から構成されており、前記横材および縦材を構成する軽量形鋼は、その溝部を前記枠体の内側に向けて配されているとともに、前記ダンパーは、前記上部斜材受け材を構成する軽量形鋼のフランジ内面間隔と同じ寸法のフランジ外面間隔を有し、両フランジの中央部に長手方向に沿って複数の孔が連穿されており、両フランジの先端部が、溝部を下方に向けて配された軽量形鋼からなる上部斜材受け材のフランジ間に挿入されてドリルねじで上部斜材受け材を構成する軽量形鋼のフランジに取り付けられているとともに、当該ダンパーを構成する軽量形鋼のウエブ外面が溝部を下方に向けて配された軽量形鋼からなる下部斜材受け材のウエブ外面にドリルねじで取り付けられていることを特徴とする。   In the residential vibration damping device of the present invention, the upper and lower cross members and the left and right vertical members are pin-bonded to each other to form a rectangular frame. At the same time, one end is fixed in the vicinity of both inner ends of the lower cross member, the other end is fixed in the vicinity of both inner ends of the upper cross member, and two lower diagonal members each extending in the direction of the center of the frame. Two upper diagonal members each having the other end extending in the direction of the central portion of the frame, and the upper surface of the lower diagonal member receiving member having the other ends of the two lower diagonal members fixed to both ends, A damping device in which a damper is attached between a lower surface of an upper diagonal material receiving material in which the other ends of the two upper diagonal materials are fixed to both ends, and a cross member constituting the damping device; The vertical member, the lower diagonal member receiving member, the upper diagonal member receiving member and the damper are made of lightweight steel. The lightweight section steel is arranged with the groove portion facing the inside of the frame body, and the damper is a flange having the same dimension as the flange inner surface interval of the lightweight section steel constituting the upper diagonal material receiving member. A plurality of holes are formed along the longitudinal direction at the center of both flanges with a spacing between the outer surfaces, and the tops of both flanges are made of lightweight steel with the grooves facing downwards. It is inserted between the flanges of the material receiver and is attached to the flange of the lightweight section steel that constitutes the upper diagonal member receiver with a drill screw, and the outer surface of the lightweight section steel that constitutes the damper faces the groove downward It is characterized in that it is attached to the outer surface of the web of the lower diagonal material receiving member made of lightweight section steel arranged with a drill screw.

この際、前記上部斜材および下部斜材も軽量形鋼で構成されており、当該各斜材を構成する軽量形鋼は、そのフランジ外面間隔が前記上部横材および下部横材を構成する軽量形鋼のフランジ内面間隔と同じ寸法を有し、下部斜材のそれぞれの一端が下部横材の両内側端近傍のフランジ内に挿入固着されており、また当該下部斜材のそれぞれ他端が、前記横材を構成する軽量形鋼と同寸法のフランジ内面間隔を有する軽量形鋼からなる下部斜材受け材のフランジ内に挿入固着されているとともに、上部斜材のそれぞれの一端が上部横材の両内側端近傍のフランジ内に挿入固着されており、また当該上部斜材のそれぞれ他端が、軽量形鋼からなる上部斜材受け材のウエブ外面に固着されていることが好ましい。 At this time, the upper diagonal member and the lower diagonal member are also made of lightweight section steel, and the lightweight section steel constituting each diagonal member has a lightweight outer surface interval between the flanges of the upper and lower cross members. It has the same dimensions as the flange inner surface interval of the section steel, each one end of the lower diagonal member is inserted and fixed in the flange near both inner ends of the lower cross member, and each other end of the lower diagonal member is Each of the upper diagonal members is fixedly inserted into the flange of the lower diagonal receiving member made of a lightweight steel having a flange inner surface spacing of the same dimension as the lightweight steel constituting the horizontal member. It is preferable that the other end of the upper diagonal member is fixed to the outer surface of the web of the upper diagonal member made of lightweight steel.

前記のいずれの態様にあっても、前記縦材を構成する軽量形鋼のフランジ外面間隔が、上部および下部の2本の横材を構成する軽量形鋼のフランジ内面間隔と同じ寸法を有し、軽量形鋼で構成された縦材の端部フランジが上部および下部の2本の横材の端部フランジ内に挿入された状態で溶接接合されていることが好ましい。
前記縦材を構成する軽量形鋼のフランジ内面間隔が、上部および下部の2本の横材を構成する軽量形鋼のフランジ外面間隔と同じ寸法を有し、軽量形鋼で構成された上部および下部の2本の横材の端部フランジが縦材の端部フランジ内に挿入された状態で接合されていてもよい。
In any of the above aspects, the flange outer surface interval of the lightweight section steel constituting the longitudinal member has the same dimension as the flange inner surface interval of the lightweight section steel constituting the upper and lower two cross members. It is preferable that the end flanges of the vertical members made of light-weight steel are welded in a state of being inserted into the end flanges of the two upper and lower cross members.
The flange inner surface interval of the lightweight section steel constituting the longitudinal member has the same dimension as the flange outer surface interval of the lightweight section steel constituting the upper and lower two cross members, and the upper portion made of the lightweight section steel and The end flanges of the two lower cross members may be joined in a state of being inserted into the end flanges of the vertical member.

さらに、本発明の住宅用制振装置は、上部、下部および中間部の3本の横材と、左部および右部の2本の縦材とが互いにピン接合されて矩形の枠体が形作られているとともに、中間部横材の両上側端近傍にそれぞれの一端が固着され、他端がそれぞれ中間部横材の中央上部方向に伸びる2本の上部斜材が配され、当該2本の上部斜材の前記他端が両端に固着された上部斜材受け材の上面と前記上部横材の中央部下面との間に上部ダンパーが、また、中間部横材の両下側端近傍にそれぞれの一端が固着され、他端がそれぞれ中間部横材の中央下部方向に伸びる2本の下部斜材が配され、当該2本の下部斜材の前記他端が両端に固着された下部斜材受け材の下面と前記下部横材の中央部上面との間に下部ダンパーが取り付けられた制振装置であって、当該制振装置を構成する上部および下部の2本の横材、縦材、上部斜材受け材および下部斜材受け材ならびに二つのダンパーが軽量形鋼から構成されており、前記上部および下部の2本の横材ならびに縦材を構成する軽量形鋼は、その溝部を前記枠体の内側に向けて配されているとともに、前記上部ダンパーは、前記上部横材を構成する軽量形鋼のフランジ内面間隔と同じ寸法のフランジ外面間隔を有し、両フランジの中央部に長手方向に沿って複数の孔が連穿されており、両フランジの先端部が上部横材のフランジ間に挿入されてドリルねじで上部横材を構成する軽量形鋼のフランジに取り付けられているとともに、当該ダンパーを構成する軽量形鋼のウエブ下面が前記上部斜材受け材を構成する軽量形鋼のウエブ外面にドリルねじで取り付けられており、前記下部ダンパーは、前記下部横材を構成する軽量形鋼のフランジ内面間隔と同じ寸法のフランジ外面間隔を有し、両フランジの中央部に長手方向に沿って複数の孔が連穿されており、両フランジの先端部が下部横材のフランジ間に挿入されてドリルねじで下部横材を構成する軽量形鋼のフランジに取り付けられているとともに、当該ダンパーを構成する軽量形鋼のウエブ外面が前記下部斜材受け材を構成する軽量形鋼のウエブ外面にドリルねじで取り付けられているものであってもよい。   Further, in the residential vibration damping device of the present invention, a rectangular frame is formed by pin-joining three cross members of an upper part, a lower part and an intermediate part and two vertical members of a left part and a right part. In addition, one upper end of each intermediate cross member is fixed in the vicinity of both upper ends, and two upper diagonal members each having the other end extending in the center upper direction of the intermediate cross member are arranged. There is an upper damper between the upper surface of the upper diagonal member receiving the other end of the upper diagonal member fixed to both ends and the lower surface of the central portion of the upper horizontal member, and in the vicinity of both lower ends of the intermediate horizontal member. Two lower diagonal members each having one end fixed and the other end extending in the middle lower direction of the intermediate cross member are arranged, and the other ends of the two lower diagonal members are fixed to both ends. A vibration damping device in which a lower damper is attached between a lower surface of a material receiving member and an upper surface of a central portion of the lower cross member. The upper and lower two cross members, the vertical member, the upper diagonal member receiving member and the lower diagonal member receiving member and the two dampers constituting the vibration damping device and the two dampers are made of lightweight section steel. The light weight steels constituting the two cross members and the vertical member are arranged with the groove portions facing the inside of the frame body, and the upper damper is made of the light weight steel constituting the upper cross member. It has a flange outer surface spacing of the same dimensions as the flange inner surface spacing, and a plurality of holes are continuously drilled along the longitudinal direction at the center of both flanges, and the tip of both flanges is inserted between the flanges of the upper cross member Are attached to the flange of the lightweight section steel constituting the upper cross member with a drill screw, and the lower surface of the lightweight section steel constituting the damper is connected to the outer surface of the lightweight section steel constituting the upper diagonal member receiving member. With drill screw The lower damper has a flange outer surface spacing of the same dimension as the flange inner surface spacing of the lightweight steel forming the lower cross member, and has a plurality of holes along the longitudinal direction at the center of both flanges. Is inserted in between the flanges of the lower cross member and is attached to the lightweight steel flange that forms the lower cross member with a drill screw, and the lighter that constitutes the damper The outer surface of the section steel web may be attached to the outer surface of the lightweight section steel constituting the lower diagonal receiving member by a drill screw.

この際、前記上部斜材および下部斜材も軽量形鋼で構成されており、当該各斜材を構成する軽量形鋼は、そのフランジ外面間隔が前記上部横材、下部横材を構成する軽量形鋼のフランジ内面間隔と同じ寸法を有し、上部斜材および下部斜材のそれぞれの一端が中間部横材の両上側端近傍部および両下側端近傍に固着されており、また当該上部斜材および下部斜材のそれぞれの他端が、前記上部横材、下部横材を構成する軽量形鋼と同寸法のフランジ内面間隔を有する軽量形鋼からなる上部斜材受け材および下部斜材受け材の各フランジ内に挿入固着されているものが好ましい。   At this time, the upper diagonal member and the lower diagonal member are also made of lightweight section steel, and the lightweight section steel constituting each of the oblique members has a lightweight outer surface spacing between the upper cross member and the lower cross member. It has the same dimension as the flange inner surface spacing of the section steel, and one end of each of the upper diagonal member and the lower diagonal member is fixed to both the upper end vicinity and both lower end ends of the intermediate cross member. The upper diagonal member and the lower diagonal member, each of the diagonal member and the lower diagonal member are made of a lightweight shape steel having flange inner surface intervals of the same dimensions as the lightweight shape steel constituting the upper transverse member and the lower transverse member. What is inserted and fixed in each flange of a receiving material is preferable.

さらにまた、本発明の住宅用制振装置は、上部、下部および中間部の3本の横材と、左部および右部の2本の縦材とが互いにピン接合されて矩形の枠体が形作られているとともに、中間部横材の両上側端近傍にそれぞれの一端が固着され、他端がそれぞれ中間部横材の中央上部方向に伸びる2本の上部下方斜材が配され、当該2本の上部下方斜材の前記他端が両端に固着された上部下方斜材受け材の上面と、上部横材の両内側端近傍にそれぞれの一端が固着され、他端がそれぞれ上部横材の中央下部方向に伸びる2本の上部上方斜材が配され、当該2本の上部上方斜材の前記他端が両端に固着された上部上方斜材受け材の下面との間に上部ダンパーが、また、下部横材の両内側端近傍に一端が固着され、他端がそれぞれ下部横材の中央上部方向に伸びる2本の下部下方斜材が配され、当該2本の下部下方斜材の前記他端が両端に固着された下部下方斜材受け材の上面と、中間部横材の両下側端近傍に一端が固着され、他端がそれぞれ中間部横材の中央下部方向に伸びる2本の下部上方斜材が配され、当該2本の下部上方斜材の前記他端が両端に固着された下部上方斜材受け材の下面との間に下部ダンパーが取り付けられた制振装置であって、当該制振装置を構成する上部および下部の2本の横材、縦材、各4つの斜材受け材および二つのダンパーが軽量形鋼から構成されており、前記上部および下部の2本の横材ならびに縦材を構成する軽量形鋼は、その溝部を前記枠体の内側に向けて配されているとともに、前記上部ダンパーは、前記上部横材を構成する軽量形鋼のフランジ内面間隔と同じ寸法のフランジ外面間隔を有し、両フランジの中央部に長手方向に沿って複数の孔が連穿されており、両フランジの先端部が上部上方斜材受け材を構成する軽量形鋼のフランジ間に挿入されてドリルねじで上部上方斜材受け材のフランジに取り付けられているとともに、当該ダンパーを構成する軽量形鋼のウエブ下面が前記上部下方斜材受け材を構成する軽量形鋼のウエブ外面にドリルねじで取り付けられており、前記下部ダンパーは、前記下部横材を構成する軽量形鋼のフランジ内面間隔と同じ寸法のフランジ外面間隔を有し、両フランジの中央部に長手方向に沿って複数の孔が連穿されており、両フランジの先端部が下部下方斜材受け材を構成する軽量形鋼のフランジ間に挿入されてドリルねじで下部下方斜材受け材のフランジに取り付けられているとともに、当該ダンパーを構成する軽量形鋼のウエブ外面が前記下部上方斜材受け材を構成する軽量形鋼のウエブ外面にドリルねじで取り付けられていてもよい。   Furthermore, the vibration damping device for a house according to the present invention has a rectangular frame body in which three cross members of the upper part, the lower part and the middle part and two vertical members of the left part and the right part are joined to each other. And two upper lower diagonal members each having one end fixed in the vicinity of both upper ends of the intermediate cross member and extending at the other end toward the central upper portion of the intermediate cross member. One end of each upper lower diagonal member is fixed to the upper surface of the upper lower diagonal receiving member, which is fixed to both ends, and both inner ends of the upper horizontal member. Two upper upper diagonal members extending in the center lower direction are disposed, and an upper damper is disposed between the lower surfaces of the upper upper diagonal receiving materials in which the other ends of the two upper upper diagonal members are fixed to both ends. Also, one end is fixed in the vicinity of both inner ends of the lower cross member, and the other end is at the center upper side of the lower cross member Two lower lower diagonal members extending to the upper surface of the lower lower diagonal receiving member with the other ends of the two lower lower diagonal members fixed to both ends, and both lower ends of the intermediate cross member Two lower upper diagonal members each having one end fixed in the vicinity and the other end extending toward the center lower part of the intermediate cross member are arranged, and the other ends of the two lower upper diagonal members are fixed to both ends. A vibration damping device having a lower damper attached between the lower upper diagonal material receiving material and a lower damper. The upper and lower two transverse members, vertical members, and four diagonal members constituting the vibration damping device. The receiving member and the two dampers are made of a lightweight section steel, and the lightweight section steel constituting the two upper and lower cross members and the longitudinal member is arranged with the groove portion facing the inside of the frame body. The upper damper has a flange inner surface of a lightweight section steel that constitutes the upper cross member. Lightweight type with flange outer surface spacing of the same dimension as the gap, with multiple holes drilled along the longitudinal direction at the center of both flanges, and the tip of both flanges constituting the upper upper diagonal receiving material Lightweight shape inserted between steel flanges and attached to the flange of the upper upper diagonal receiving material with a drill screw, and the lower surface of the lightweight steel constituting the damper constitutes the upper lower diagonal receiving material It is attached to the outer surface of the steel web with a drill screw, and the lower damper has a flange outer surface interval of the same dimension as the flange inner surface interval of the lightweight steel forming the lower cross member, and is long at the center of both flanges. A plurality of holes are continuously drilled along the direction, and the front ends of both flanges are inserted between the lightweight steel flanges constituting the lower lower diagonal receiving material, and the lower lower diagonal receiving material flange is formed by a drill screw. In addition, the outer surface of the light-weight steel that forms the damper may be attached to the outer surface of the light-weight steel that forms the lower upper diagonal material receiving member with a drill screw.

前記のいずれの態様にあっても、上部および下部の2本の横材を構成する軽量形鋼のフランジ外面間隔が、前記縦材を構成する軽量形鋼のフランジ内面間隔と同じ寸法を有し、軽量形鋼で構成された上部および下部の2本の横材の端部フランジが縦材の端部フランジ内に挿入された状態で溶接接合されていることが好ましい。
また、中間部横材を構成する軽量形鋼のフランジ外面間隔も、前記縦材を構成する軽量形鋼のフランジ内面間隔と同じ寸法を有し、軽量形鋼で構成された中間部横材の端部フランジが縦材の端部フランジ内に挿入された状態で溶接接合されていることが好ましい。
In any of the above-described aspects, the flange outer surface interval of the lightweight section steel constituting the two upper and lower cross members has the same dimension as the flange inner surface interval of the lightweight section steel constituting the longitudinal member. It is preferable that the end flanges of the two upper and lower cross members made of lightweight section steel are welded and joined in a state of being inserted into the end flanges of the vertical members.
Further, the flange outer surface interval of the lightweight section steel constituting the intermediate cross member has the same dimension as the flange inner surface interval of the lightweight section steel constituting the longitudinal member, and the intermediate cross member made of the lightweight section steel has the same dimension. It is preferable that the end flange is welded in a state of being inserted into the end flange of the longitudinal member.

上記のようないずれの態様の住宅用制振装置にあっても、軽量形鋼からなる前記斜材受け材、前記下部斜材受け材、あるいは前記上部下方斜材受け材および下部上方斜材受け材のウエブ外面両端に、上部上方斜材受け材および下部下方斜材受け材を構成する軽量形鋼のフランジ内面間隔と同じ寸法のフランジ外面間隔を有する軽量形鋼の一端が溶接法またはドリルねじ接合で固着され、他端が上部上方斜材受け材および下部下方斜材受け材の両フランジ間に遊挿された倒れ止め材が配されていることが好ましい。ダンパーを構成する軽量形鋼の両端に残存させた両フランジを上部および下部の横材の両フランジ間に遊挿させて倒れ止め材としてもよい。   In any of the above-described residential vibration damping devices, the diagonal material receiving material, the lower diagonal material receiving material, or the upper lower diagonal material receiving material and the lower upper diagonal material material that are made of lightweight steel. One end of a lightweight section steel having a flange outer surface spacing of the same dimension as the flange inner surface spacing of the lightweight section steel constituting the upper upper diagonal receiving material and the lower lower diagonal receiving material is welded or drilled at both ends of the outer web surface It is preferable that an anti-falling material that is fixed by bonding and loosely inserted between both flanges of the upper upper diagonal material receiving material and the lower lower diagonal material receiving material is disposed. The two flanges left at both ends of the lightweight steel constituting the damper may be loosely inserted between the flanges of the upper and lower cross members to serve as a fall-preventing material.

上記いずれの態様にあっても、ダンパーの両フランジに連穿されている各孔は、それぞれ当該ダンパーの長手方向に沿って長く、その両側部に鋭角の応力集中部を有していることが好ましい。
また、ダンパーを構成する軽量形鋼のダンパー部の両端にウエブ、フランジが残存され、当該残存部のダンパー部から分離された両フランジを上部横材、上部斜材受け材、上部上方斜材受け材、下部下方斜材受け材、または下部横材の両フランジ間に遊挿させる形態で倒れ止め材が配置されていることが好ましい。
In any of the above aspects, each hole continuously drilled in both flanges of the damper is long along the longitudinal direction of the damper, and has acute stress concentration portions on both sides thereof. preferable.
In addition, webs and flanges remain on both ends of the lightweight steel damper part that constitutes the damper, and both flanges separated from the damper part of the remaining part are connected to the upper cross member, the upper diagonal member, and the upper upper diagonal member. It is preferable that the fall-preventing material is arranged in such a manner that it is loosely inserted between the flanges of the material, the lower lower diagonal material receiving material , or the lower lateral material.

さらに、各部材を構成する軽量形鋼はめっき鋼板から形作られていることが好ましい。めっき鋼板としては、Zn系、特にZn−Al−Mg系の合金めっきが施されているものが好ましい。
なお、本明細書中で、例えば「フランジ内面間隔と同じ寸法のフランジ外面間隔を有し」のような記載における「同じ寸法」とは、一方の形鋼のフランジ内に他の形鋼のフランジ部がガタツキなく挿入できる大きさの関係を示すものである。
Furthermore, it is preferable that the lightweight section steel which comprises each member is formed from the plated steel plate. As the plated steel sheet, those plated with Zn, particularly Zn—Al—Mg alloy are preferable.
In the present specification, for example, “the same dimension” in a description such as “having the flange outer surface spacing of the same dimension as the flange inner surface spacing” means that the flange of one shape steel is in the flange of the other shape steel. It shows the relationship of the size that the part can be inserted without rattling.

本発明で提供される制振装置は、その上下および両側の端面が平らな矩形体で形作られている。このため、木造の住宅やプレハブ等の鉄骨造りの住宅を建築する際、柱間に組み込むことによって、当該住宅の制振機能を低コストで大幅に向上することが可能になる。
また、既存住宅へも、組み込み予定の壁部を撤去するのみで、簡便に組み込むことができ、既存住宅に優れた制振機能を低コストで付加することができる。さらに、本発明の制振装置を構成する2本の横材および2本の縦材がその端部で互いにピン接合されているため、横振動を受けたときに縦材に対する横材の回動が可能となって、振動エネルギーのダンパーへの伝達が円滑に行え、制振機能を一段と向上できる。上記ピン接合をドリルねじ接合等の乾式接合とするため、溶接接合の際に必要となる設備が不要であり、また接合にかかる手間も低減でき、施工性の向上、コストの低減に資する。
The vibration damping device provided by the present invention is formed of a rectangular body whose upper and lower end surfaces are flat. For this reason, when building a steel-framed house such as a wooden house or a prefabricated structure, it is possible to significantly improve the vibration control function of the house at low cost by incorporating it between the pillars.
Moreover, it can be simply incorporated into the existing house simply by removing the wall part to be incorporated, and an excellent vibration control function can be added to the existing house at low cost. Furthermore, since the two cross members and the two vertical members constituting the vibration damping device of the present invention are pin-bonded to each other at their ends, the rotation of the cross member with respect to the vertical member when subjected to the horizontal vibration Therefore, vibration energy can be smoothly transmitted to the damper, and the vibration control function can be further improved. Since the above-described pin joint is a dry joint such as a drill screw joint, facilities required for the welding joint are unnecessary, and the labor for joining can be reduced, which contributes to improvement in workability and cost reduction.

振動エネルギーのダンパーへの伝達が円滑に行えるため、ダンパー部の塑性化がはっきりと確認できることになり、制振装置に必要とされる性能設計が、製品に十分に反映されるという効果をも付随する。
さらにまた、本発明で提供される制振装置は、その上下および両側の端面が平らな矩形体で形作られている。このため、木造の住宅やプレハブ等の鉄骨造りの住宅を建築する際、柱間に組み込むことによって、当該住宅の制振機能を低コストで大幅に向上することが可能になる。また、既存住宅へも、組み込み予定の壁部を撤去するのみで、簡便に組み込むことができ、既存住宅に優れた制振機能を低コストで付加することができる。さらに、ダンパー部分だけでなく、制振装置全体の取替えや分解も可能であり、「リサイクル」、「エコ」、「地域にやさしい」制振装置を提供できる。
Since vibration energy can be smoothly transferred to the damper, the plasticity of the damper can be clearly confirmed, and the performance design required for the vibration damping device is fully reflected in the product. To do.
Furthermore, the vibration damping device provided by the present invention is formed of a rectangular body whose upper and lower end surfaces are flat. For this reason, when building a steel-framed house such as a wooden house or a prefabricated structure, it is possible to significantly improve the vibration control function of the house at low cost by incorporating it between the pillars. Moreover, it can be simply incorporated into the existing house simply by removing the wall part to be incorporated, and an excellent vibration control function can be added to the existing house at low cost. Furthermore, not only the damper part, but also the entire damping device can be replaced and disassembled, and a “recycling”, “eco” and “locally friendly” damping device can be provided.

本発明者等は、新築あるいは既存にかかわらず、一般の住宅に制振機能を付与すべく、簡素な構造の制振装置について鋭意検討を重ねてきた。
その過程で、上下および両側の端面が平らな矩形体で形作られた制振装置であれば、住宅等の小規模建築物の柱間に組み込むことによって、当該住宅等に制振機能を容易に付加することができること、および、その矩形体は軽量形鋼で構築することにより安価に提供できることを見出し、本発明に到達した。
なお、本明細書中では、上記住宅等の小規模建築物として、住宅の他に、コンビニエンスストアなどの低層(3階以下)の店舗や物置、小屋などを想定している。
以下、本発明住宅用制振装置の好ましい形態について説明する。
The present inventors have intensively studied a vibration damping device having a simple structure in order to impart a vibration damping function to a general house regardless of whether it is newly built or existing.
In the process, if it is a vibration control device that has a flat rectangular shape on the top and bottom and both sides, it can be easily incorporated into the pillars of a small building such as a house to easily provide a vibration control function to the house. It has been found that it can be added, and that the rectangular body can be provided at low cost by being constructed of a lightweight steel.
In the present specification, as a small-scale building such as the above-mentioned house, in addition to a house, a low-rise store (3 floors or less) such as a convenience store, a storeroom, a shed or the like is assumed.
Hereinafter, a preferable embodiment of the vibration damping device for a house of the present invention will be described.

本発明住宅用制振装置では、図2、3に示す通り、枠体は上部および下部の2本の横材11,12と、左部および右部の2本の縦材13,14とが互いにピン接合されて矩形に形作られている。そして、枠内に、下部横材12の両内側端近傍にそれぞれ一端が固着され、他端がそれぞれ枠体の中央部方向に伸びる2本の斜材15,15’と、当該2本の斜材の前記他端が両端に固着された斜材受け材16、および下端が前記斜材受け材16の上面に固着され、上端が前記上部横材11の中央部下面に固着されたダンパー17が配された構造となっている。   In the housing vibration damping device of the present invention, as shown in FIGS. 2 and 3, the frame is composed of two upper and lower cross members 11 and 12, and left and right two vertical members 13 and 14. Pinned together to form a rectangle. In the frame, two diagonal members 15, 15 'each having one end fixed in the vicinity of both inner ends of the lower cross member 12 and the other end extending in the direction of the central portion of the frame, and the two diagonal members. A diagonal receiving member 16 having the other end fixed to both ends, and a damper 17 having a lower end fixed to the upper surface of the diagonal receiving member 16 and an upper end fixed to the lower surface of the central portion of the upper cross member 11. It has a distributed structure.

縦材13,14を構成する軽量形鋼は、そのフランジ外面間隔が横材11,12を構成する軽量形鋼のフランジ内面間隔と同じになる寸法を有し、軽量形鋼で構成された縦材13,14の端部フランジが横材11,12の端部フランジ内に挿入された状態で各フランジに対して一個ずつのドリルねじやボルト・ナットでピン10接合されて、矩形を形作っている。横材11,12を構成する軽量形鋼は、そのフランジ外面間隔が縦材13,14を構成する軽量形鋼のフランジ内面間隔と同じになる寸法を有し、軽量形鋼で構成された横材11,12の端部フランジが縦材13,14の端部フランジ内に挿入された状態でピン接合されていてもよい。
斜材15,15’も軽量形鋼で構成されており、そのフランジ外面間隔が前記横材11,12を構成する軽量形鋼のフランジ内面間隔と同じ寸法を有し、当該斜材15,15’の一端が下部横材12の側端近傍のフランジ内に挿入され、溶接接合またはドリルねじ接合で固着されている。
The lightweight section steel that constitutes the longitudinal members 13 and 14 has a dimension in which the flange outer surface interval is the same as the flange inner surface interval of the lightweight section steel that constitutes the transverse members 11 and 12, and is composed of a lightweight section steel. With the end flanges of the members 13 and 14 inserted into the end flanges of the cross members 11 and 12, the pin 10 is joined to each flange by one drill screw, bolt and nut to form a rectangle. Yes. The lightweight section steel that forms the cross members 11 and 12 has a dimension in which the flange outer surface interval is the same as the flange inner surface interval of the lightweight section steel that forms the longitudinal members 13 and 14, and is made of a lightweight section steel. The end flanges of the members 11 and 12 may be pin-joined in a state of being inserted into the end flanges of the longitudinal members 13 and 14.
The diagonal members 15 and 15 'are also made of a lightweight section steel, and the flange outer surface interval has the same dimension as the flange inner surface interval of the lightweight section steel constituting the transverse members 11 and 12, and the diagonal members 15, 15 One end of 'is inserted into a flange near the side end of the lower cross member 12 and fixed by welding or drill screw joining.

またこの斜材15,15’の他端は、前記横材11,12を構成する軽量形鋼と同寸法のフランジ内面間隔を有する軽量形鋼からなる斜材受け材16のフランジ内に挿入され、溶接接合またはドリルねじ接合で固着されている。
斜材受け材16の上面と上部横材11の中央部下面との間に、本発明の特徴の一つであるダンパー17が、ドリルねじ18で着脱可能に取り付けられている。すなわち、ダンパー17を構成する軽量形鋼のフランジ外面間隔は、上部横材11のフランジ内面間隔と同じ寸法とされ、図4に示すように、両フランジの先端部が上部横材11のフランジ間に挿入されてドリルねじ18で横材を構成する軽量形鋼のフランジに、着脱可能な状態で取り付けられている。また、このダンパー17を構成する軽量形鋼のウエブ下面が前記斜材受け材16を構成する軽量形鋼のウエブ外面にドリルねじ18で着脱可能な状態で取り付けられている。
The other ends of the diagonal members 15 and 15 'are inserted into the flanges of the diagonal member 16 made of a lightweight steel having a flange inner surface spacing of the same dimensions as the lightweight steels constituting the transverse members 11 and 12. It is fixed by welding joint or drill screw joint.
A damper 17, which is one of the features of the present invention, is detachably attached with a drill screw 18 between the upper surface of the diagonal member receiving member 16 and the lower surface of the central portion of the upper cross member 11. In other words, the flange outer surface spacing of the lightweight section steel constituting the damper 17 is the same dimension as the flange inner surface spacing of the upper cross member 11, and as shown in FIG. 4, the leading ends of both flanges are between the flanges of the upper cross member 11. Is attached to a lightweight steel flange that is inserted into the flange and constitutes a cross member with a drill screw 18 in a detachable state. Further, the lower surface of the lightweight section steel constituting the damper 17 is attached to the outer surface of the lightweight section steel constituting the oblique material receiving member 16 in a detachable state with a drill screw 18.

軽量形鋼から形作られたダンパー17には、その両フランジの中央部に複数の孔20が連穿されている。この孔の存在によって、ダンパー17が、変形時にダンパーの塑性変形によりエネルギーを吸収することにより、制振装置としての機能を果たすことになる。
エネルギー吸収量をより多くして制振機能を向上させるためには、ダンパー17を形作る鋼板の機械的性質にもよるが、連穿される孔の形状を工夫する必要がある。孔に挟まれるフランジ部材料が塑性変形する際に応力集中を受けやすい孔形状とすること、また孔の数やダンパーの板厚を調整することによって建物や設置場所に適したエネルギー吸収性能を発揮することができる。具体的には、当該ダンパーの長手方向に沿って長く、その孔の両側部に鋭角の応力集中部を有している形状とすることが好ましい。
A plurality of holes 20 are continuously formed in the center portion of both flanges of the damper 17 formed from a lightweight steel. Due to the presence of the holes, the damper 17 functions as a vibration damping device by absorbing energy by plastic deformation of the damper during deformation.
In order to increase the amount of energy absorption and improve the vibration damping function, it is necessary to devise the shape of the hole to be continuously drilled depending on the mechanical properties of the steel plate forming the damper 17. By making the hole shape that is easily subject to stress concentration when the flange material sandwiched between the holes undergoes plastic deformation, and adjusting the number of holes and the plate thickness of the damper, energy absorption performance suitable for buildings and installation locations is demonstrated. can do. Specifically, it is preferable that the shape is long along the longitudinal direction of the damper and has acute stress concentration portions on both sides of the hole.

このようなフランジに複数の孔が連穿された軽量形鋼製ダンパーの製作は、適宜幅の鋼板の両側部に複数の孔を連穿した後、当該鋼板にロールで曲げ加工を施し、その後に、適宜長さに切断することにより形作られる。
また、上記斜材受け材16のウエブ外面両端に倒れ止め材19,19’が固着されていることが好ましい。倒れ止め材19,19’は、ダンパーが左右に振動する際に、振動方向のみの水平移動とするために、倒れ止め材は上下方向の突っ張り材として働き、さらに振動方向と直交方向に横倒れすることを防止する。この倒れ止め材19,19’がないとダンパー17はそれ自体を形作る軽量形鋼の長手方向とフランジ面に垂直な方向に変形横倒れして、連穿孔を有するフランジ部鋼板がきれいに塑性変形せず、効率的にエネルギー吸収をすることができなくなる。
A lightweight steel damper with a plurality of holes continuously drilled in such a flange is formed by continuously drilling a plurality of holes on both sides of a steel plate having an appropriate width, and then bending the steel plate with a roll. In addition, it is formed by cutting to a suitable length.
Further, it is preferable that the fall-preventing materials 19 and 19 ′ are fixed to both ends of the outer surface of the oblique material receiving material 16. When the damper vibrates left and right, the anti-falling materials 19 and 19 ′ move horizontally only in the vibration direction, so that the anti-falling material acts as a vertical tension material and further falls sideways in a direction perpendicular to the vibration direction. To prevent. Without the anti-falling materials 19 and 19 ', the damper 17 deforms and falls in the longitudinal direction of the light-weight steel forming itself and the direction perpendicular to the flange surface, and the flange-part steel plate having continuous drilling is plastically deformed cleanly. Therefore, energy cannot be absorbed efficiently.

この倒れ止め材19,19’を形作る軽量形鋼には、上部横材11を構成する軽量形鋼のフランジ内面間隔と同じ寸法のフランジ外面間隔を有する軽量形鋼が用いられる。倒れ止め材19,19’の下端が斜材受け材16のウエブ外面に溶接法またはドリルねじ接合で固着され、上端が上部横材11を構成する軽量形鋼の両フランジ間に遊挿されている。
上記態様では、倒れ止め材19,19’は斜材受け材16のウエブ外面に設けられているが、ダンパー自体に取り付けたもよい。この場合には、図5に示すように、ダンパーを構成する軽量形鋼のダンパー17部の両端にウエブ、フランジを残存させ、この両フランジを上部横材11の両フランジ間に遊挿させる形態で倒れ止め材とすることができる。
後記のように、不幸にも地震等の被害を受け、振動エネルギーを吸収することにより破損したダンパー17を取り外し、新たなダンパー17を再び組み込む際、前記倒れ止め材19,19’がドリルねじで斜材受け材16のウエブ上面に取り付けられていると、あるいは前記倒れ止め材19,19’がダンパー自体に取り付けられていると、前記ダンパー17の交換が行いやすくなる。
As the lightweight steel that forms the fall-preventing members 19 and 19 ′, a lightweight steel having a flange outer surface spacing of the same dimension as the flange inner surface spacing of the lightweight steel constituting the upper cross member 11 is used. The lower ends of the fall-preventing members 19, 19 ′ are fixed to the outer surface of the oblique member receiving member 16 by welding or drill screw joining, and the upper ends are loosely inserted between both flanges of the lightweight section steel constituting the upper cross member 11. Yes.
In the above embodiment, the fall-preventing materials 19 and 19 'are provided on the outer surface of the web of the diagonal material receiving material 16, but may be attached to the damper itself. In this case, as shown in FIG. 5, a web and a flange remain at both ends of the damper 17 portion of the lightweight section steel constituting the damper, and both the flanges are loosely inserted between both flanges of the upper cross member 11. Can be used as an anti-falling material.
As will be described later, when the damper 17 is unfortunately damaged by an earthquake or the like and is damaged by absorbing vibration energy, and the new damper 17 is re-installed, the fall-preventing materials 19 and 19 'are drill screws. When the oblique material receiving member 16 is attached to the upper surface of the web, or when the fall-preventing materials 19 and 19 'are attached to the damper itself, the damper 17 can be easily replaced.

次に、本発明住宅用制振装置の他の好ましい形態について説明する。
図6に示すように、ダンパーを矩形枠体の略中央部に配してもよい。また、図7,8に示すように、矩形枠体内に二つのダンパーを配してもよい。
まず、ダンパーを矩形枠体の略中央部に配した住宅用制振装置について、その構造を詳しく説明する。
Next, another preferred embodiment of the residential vibration damping device of the present invention will be described.
As shown in FIG. 6, the damper may be disposed at a substantially central portion of the rectangular frame. Moreover, as shown in FIGS. 7 and 8, two dampers may be arranged in the rectangular frame.
First, a detailed description will be given of the structure of a residential vibration damping device in which a damper is arranged at a substantially central portion of a rectangular frame.

図6に示すように、枠体は上部および下部の2本の横材31,32と、左部および右部の2本の縦材33,34とが互いにピン接合されて矩形に形作られている。横材31,32と縦材33,34とのサイズの関係、および接合態様については、前記図2,3で説明した関係と同じで構わない。そして、枠内に、下部横材32の両内側端近傍にそれぞれ一端が固着され、他端がそれぞれ枠体の中央部方向に伸びる2本の下部斜材35,35’と、上部横材31の両内側端近傍に一端が固着され、他端がそれぞれ枠体の中央部方向に伸びる2本の上部斜材36,36’が配されている。
前記2本の下部斜材35,35’の他端に両端が固着された下部斜材受け材37の上面と、前記2本の上部斜材36,36’の他端に両端が固着された上部斜材受け材38の下面との間にダンパー39が配された構造となっている。
As shown in FIG. 6, the frame body is formed into a rectangular shape by pin-joining two cross members 31 and 32 at the upper and lower portions and two vertical members 33 and 34 at the left and right portions. Yes. The size relationship between the cross members 31 and 32 and the vertical members 33 and 34 and the joining mode may be the same as those described with reference to FIGS. In the frame, two lower diagonal members 35 and 35 ′ having one end fixed in the vicinity of both inner ends of the lower cross member 32 and the other ends extending in the direction of the central portion of the frame, and the upper cross member 31. Two upper diagonal members 36, 36 ′ having one end fixed in the vicinity of both inner ends and the other ends extending toward the center of the frame are arranged.
Both ends of the two lower diagonal members 35, 35 'are fixed to the upper surface of the lower diagonal member receiving member 37 fixed to the other ends of the two lower diagonal members 35, 35' and the other ends of the two upper diagonal members 36, 36 '. A damper 39 is arranged between the lower diagonal of the upper diagonal material receiving member 38.

前記態様と同様、縦材33,34を構成する軽量形鋼は、そのフランジ外面間隔が横材31,32を構成する軽量形鋼のフランジ内面間隔と同じになる寸法を有し、軽量形鋼で構成された縦材33,34の端部フランジが横材31,32の端部フランジ内に挿入された状態で各フランジに対して一個ずつのドリルねじ40やボルト・ナットでピン接合されて、矩形を形作っている。
下部斜材35,35’も軽量形鋼で構成されており、そのフランジ外面間隔が前記横材31,32を構成する軽量形鋼のフランジ内面間隔と同じ寸法を有し、当該下部斜材35,35’の一端が下部横材32の側端近傍のフランジ内に挿入され、溶接接合またはドリルねじ接合で固着されている。
Similar to the above-described embodiment, the lightweight section steel constituting the longitudinal members 33 and 34 has a dimension such that the flange outer surface spacing is the same as the flange inner surface spacing of the lightweight section steel constituting the transverse members 31 and 32. The end flanges of the vertical members 33 and 34 constituted by the above are inserted into the end flanges of the cross members 31 and 32 and are pin-connected to each flange by one drill screw 40 or bolt / nut. , Forming a rectangle.
The lower diagonal members 35, 35 ′ are also made of a lightweight section steel, and the flange outer surface interval has the same dimension as the flange inner surface interval of the lightweight section steel constituting the transverse members 31, 32. , 35 'are inserted into flanges near the side edges of the lower cross member 32 and fixed by welding or drill screw joining.

またこの下部斜材35,35’の他端は、前記横材51,52を構成する軽量形鋼と同寸法のフランジ内面間隔を有する軽量形鋼からなる下部斜材受け材37のフランジ内に挿入され、溶接接合またはドリルねじ接合で固着されている。
上部斜材36,36’も軽量形鋼で構成されており、そのフランジ外面間隔が前記横材31,32を構成する軽量形鋼のフランジ内面間隔と同じ寸法を有し、当該上部斜材36,36’の一端が上部横材31の内側端近傍のフランジ内に挿入され、溶接接合またはドリルねじ接合で固着されている。そして、それぞれの他端は上部斜材受け材38の上面に溶接接合により固着されている。
Further, the other ends of the lower diagonal members 35 and 35 ′ are in the flanges of the lower diagonal member receiving member 37 made of a lightweight section steel having a flange inner surface interval of the same dimensions as the lightweight section steels constituting the transverse members 51 and 52. Inserted and secured by welding joint or drill screw joint.
The upper diagonal members 36, 36 ′ are also made of lightweight section steel, and the flange outer surface interval has the same dimension as the flange inner surface interval of the lightweight section steel constituting the transverse members 31, 32. , 36 'is inserted into the flange near the inner end of the upper cross member 31 and fixed by welding or drill screw joining. Each other end is fixed to the upper surface of the upper diagonal material receiving member 38 by welding.

下部斜材受け材37の上面と上部斜材受け材38の下面との間に、本発明の特徴の一つであるダンパー39が、図示しないドリルねじで、前記態様と同様に着脱可能に取り付けられている。
軽量形鋼から形作られたダンパー39の有孔形状や、倒れ止め材が取り付けられていることが好ましいことについても前記態様と全く同様である。
なお、図6および上記記載で説明する態様では、下部斜材受け材37の上面にダンパー39を形作る軽量形鋼のウエブ外面を固着し、ダンパー39を形作る軽量形鋼のフランジを上部斜材受け材38のフランジ間に挿入固着しているが、全く逆になる形態を採用してもよいことは言及するまでもない。
A damper 39, which is one of the features of the present invention, is detachably attached between the upper surface of the lower diagonal material receiving member 37 and the lower surface of the upper diagonal material receiving material 38 with a drill screw (not shown) in the same manner as in the above embodiment. It has been.
The perforated shape of the damper 39 formed from a light-weight steel and the fact that it is preferable that a fall-preventing material is attached are exactly the same as in the above embodiment.
In the embodiment described in FIG. 6 and the above description, the outer surface of the lightweight steel that forms the damper 39 is fixed to the upper surface of the lower diagonal material receiving member 37, and the lightweight steel flange that forms the damper 39 is attached to the upper diagonal material receiver. Needless to say, although it is inserted and fixed between the flanges of the material 38, a completely opposite configuration may be adopted.

住宅用制振装置の、住宅への実際の取り付け態様についての説明は後記するが、一つの壁面に本発明住宅用制振装置を複数個取り付けてもよい。
上記で説明した構造の本発明住宅用制振装置を一つの壁面に二個取り付ける場合、図2,3あるいは図6で説明した住宅用制振装置の縦材の長さを住宅階高さの半分のサイズとすれば足りるし、一つの壁面に三個取り付ける場合には縦材の長さを住宅階高さの三分の一のサイズとすれば足りる。
A description of an actual mounting mode of the house vibration control device to the house will be described later, but a plurality of the home vibration control devices of the present invention may be attached to one wall surface.
When two damping devices for a house according to the present invention having the structure described above are attached to one wall surface, the length of the vertical member of the damping device for a house explained in FIG. Half the size is enough, and when three pieces are attached to one wall, the length of the vertical members is one third of the height of the residential floor.

一つの壁面に本発明住宅用制振装置を二個取り付けるのではなく、矩形枠体内に二つのダンパーを配したものとしてもよい。
図7は、図3,4の態様で配するダンパーを、上下逆態様で二個配したものである。
図8は、図6の態様で配するダンパーを、上下二段で配したものである。
それぞれについて、詳細に説明する。
Rather than attaching two damping devices for a house of the present invention to one wall surface, two dampers may be arranged in a rectangular frame.
FIG. 7 shows a configuration in which two dampers arranged in the manner of FIGS. 3 and 4 are arranged in an upside down manner.
FIG. 8 shows a configuration in which the dampers arranged in the form of FIG. 6 are arranged in two upper and lower stages.
Each will be described in detail.

図7では、枠体は上部および下部の2本の横材41,42と、左部および右部の2本の縦材43,44とが互いにピン接合されて矩形に形作られている。横材および縦材の好ましいサイズ関係は、縦材43,44を構成する軽量形鋼のフランジ内面間隔を、上部および下部の2本の横材41,42を構成する軽量形鋼のフランジ外面間隔と同じ寸法を有するものとすることが好ましい。そして、軽量形鋼で構成された上部および下部の2本の横材の端部フランジを縦材の端部フランジ内に挿入された状態で各フランジに対して一個ずつのドリルねじ50やボルト・ナットでピン接合されて、矩形を形作っている。   In FIG. 7, the frame body is formed in a rectangular shape by pinning two cross members 41 and 42 at the upper and lower portions and two vertical members 43 and 44 at the left and right portions. The preferred size relationship between the cross member and the vertical member is that the inner surface distance of the lightweight section steel constituting the longitudinal members 43 and 44 and the outer flange distance of the lightweight section steel constituting the upper and lower two cross members 41 and 42 are as follows. It is preferable to have the same dimensions as. And, with the end flanges of the two upper and lower cross members made of lightweight steel inserted into the end flanges of the vertical members, one drill screw 50, one bolt, Pinned with nuts to form a rectangle.

この態様では、また、枠内中央部に中間部横材45が配されている。この中間部横材も、2本の横材41,42を構成する軽量形鋼と同じサイズの軽量形鋼で構成し、その端部フランジを縦材のフランジ内に挿入された状態でドリルねじやボルト・ナットでピン50接合されている。中間部横材としては、軽量形鋼の替わりにH型鋼を用いてもよい。この際には、フランジ外面間隔を、縦材を構成する軽量形鋼のフランジ内面間隔と同じにする必要がある。
中間部横材45の両上側端近傍にそれぞれの一端が固着され、他端がそれぞれ中間部横材45の中央上部方向に伸びる2本の上部斜材46,46’が配されている。そして、前記2本の上部斜材46,46’のそれぞれの他端に上部斜材受け材48の両端が固着されている。
2本の上部斜材46,46’も、軽量形鋼で構成することが好ましく、そのサイズを中間部横材を構成する軽量形鋼と同じサイズとすれば、その端部フランジを中間部横材のフランジ内に挿入された状態で溶接接合またはドリルねじ接合することができる。
In this aspect, the intermediate cross member 45 is also arranged at the center in the frame. This intermediate cross member is also made of a light weight steel of the same size as the light weight steel forming the two cross members 41, 42, and the end flange is inserted into the vertical flange and the drill screw Pins 50 are joined with bolts and nuts. As the intermediate cross member, H-shaped steel may be used instead of the lightweight steel. In this case, it is necessary to make the flange outer surface interval the same as the flange inner surface interval of the lightweight section steel constituting the vertical member.
Two upper diagonal members 46, 46 ′ each having one end fixed in the vicinity of both upper side ends of the intermediate cross member 45 and the other ends extending in the center upper direction of the intermediate cross member 45 are arranged. Both ends of the upper diagonal member 46, 46 'are fixed to the other ends of the two upper diagonal members 46, 46'.
It is preferable that the two upper diagonal members 46, 46 'are also made of lightweight section steel. If the size is the same as that of the lightweight section steel constituting the intermediate section member, the end flange thereof is arranged in the middle section. It can be welded or drill screwed while inserted into the flange of the material.

さらに、上部斜材受け材48の上面と上部横材41の中央部下面との間に、ダンパー49が、図示しないドリルねじで着脱可能に取り付けられている。上部斜材受け材48も軽量形鋼で構成し、そのサイズを上部横材を構成する軽量形鋼と同じサイズとすれば、その端部フランジを上部斜材受け材のフランジ内に挿入された状態で溶接接合またはドリルねじ接合することができる。
軽量形鋼から形作られたダンパー49の有孔形状や、倒れ止め材が取り付けられていることが好ましいことについても前記態様と全く同様である。
Further, a damper 49 is detachably attached with a drill screw (not shown) between the upper surface of the upper diagonal member receiving member 48 and the lower surface of the central portion of the upper cross member 41. If the upper diagonal material receiving material 48 is also made of a lightweight section steel, and its size is the same as the lightweight shape steel constituting the upper cross member, its end flange is inserted into the flange of the upper diagonal material receiving material. In the state, it can be welded or drilled.
The perforated shape of the damper 49 formed from a lightweight section steel and the fact that it is preferable that a fall-preventing material is attached are exactly the same as in the above embodiment.

本態様では、上記ダンパー49の他に二つ目のダンパー49’が取り付けられているが、この取り付け態様は、基本的には、中間部横材45を対称軸として線対称の関係となっている。
中間部横材45として、フランジ外面間隔を縦材を構成する軽量形鋼のフランジ内面間隔と同じ、すなわち横材を構成する軽量形鋼のフランジ外面間隔と同じにしたH形鋼を配した場合には、中間部横材45を対称軸として上下が全く対称関係になっているが、軽量形鋼を配した場合には、中間部横材45の両下側端近傍への下部斜材47,47’の固着が溶接接合態様となる。
In this aspect, in addition to the damper 49, a second damper 49 'is attached. This attachment aspect basically has a line-symmetric relationship with the intermediate cross member 45 as the axis of symmetry. Yes.
When the H-section steel having the same flange outer surface spacing as that of the lightweight section steel constituting the vertical member, that is, the same as the outer flange distance of the lightweight section steel constituting the transverse member, is disposed as the intermediate cross member 45. However, when a lightweight section steel is provided, the lower diagonal member 47 near both lower ends of the intermediate member 45 is provided. , 47 'is a welded joint mode.

図8では、枠体は上部および下部の2本の横材51,52と、左部および右部の2本の縦材53,54とが互いにピン接合されて矩形に形作られている。横材および縦材の好ましいサイズ関係は、図7態様と同様である。横材51,52の端部が縦材53,54のフランジ内に挿入された状態でドリルねじやボルト・ナットでピン61接合されている。この態様でも、枠内中央部に中間部横材55が配されている。中間部横材55も横材51,52と同じサイズの軽量形鋼で構成され、図7と同じ態様で、縦材53,54のフランジ内に挿入された状態で溶接接合されていることが好ましい。中間部横材55は、前記と同様のH形鋼であってもよい。
中間部横材55の両上側端近傍にそれぞれの一端が固着され、他端がそれぞれ中間部横材55の中央上部方向に伸びる2本の上部下方斜材56,56’が配されている。また、上部横材51の両内側端近傍にそれぞれの一端が固着され、他端がそれぞれ枠体の中央部方向に伸びる2本の上部上方斜材57,57’が配されている。
In FIG. 8, the frame body is formed in a rectangular shape by pinning two cross members 51 and 52 at the top and bottom and two vertical members 53 and 54 at the left and right. The preferable size relationship between the cross member and the vertical member is the same as that in the embodiment of FIG. The ends of the cross members 51 and 52 are inserted into the flanges of the vertical members 53 and 54, and the pin 61 is joined by a drill screw or a bolt / nut. Also in this aspect, the intermediate cross member 55 is arranged at the center in the frame. The intermediate cross member 55 is also made of a lightweight section steel of the same size as the cross members 51 and 52, and is welded and joined in a state inserted in the flanges of the vertical members 53 and 54 in the same manner as in FIG. preferable. The intermediate cross member 55 may be the same H-shaped steel as described above.
Two upper lower diagonal members 56, 56 ′ are arranged in the vicinity of both upper ends of the intermediate cross member 55, and the other ends extend in the center upper direction of the intermediate cross member 55. In addition, two upper upper diagonal members 57 and 57 ′ are arranged in the vicinity of both inner ends of the upper cross member 51, and the other upper ends are extended in the direction of the center portion of the frame body.

さらに、前記2本の上部下方斜材56,56’の他端に両端が固着された上部下方斜材受け材58の上面と、前記2本の上部上方斜材57,57’の他端に両端が固着された上部上方斜材受け材59の下面との間にダンパー50が、図示しないドリルねじで、前記態様と同様に着脱可能に取り付けられている。
上部下方斜材56,56’、上部上方斜材57,57’、上部下方斜材受け材58、および上部上方斜材受け材59も軽量形鋼で構成されることが好ましく、それらの横材51や中間部横材55に対するサイズ関係および固着態様についても、前記図7で説明したものと同じ態様とすることが好ましい。
Further, on the upper surface of the upper lower diagonal material receiving member 58 fixed at both ends to the other ends of the two upper lower diagonal materials 56, 56 ', and on the other end of the two upper upper diagonal materials 57, 57'. A damper 50 is detachably attached with a drill screw (not shown) between the lower surface of the upper upper diagonal receiving member 59 to which both ends are fixed in the same manner as in the above-described embodiment.
The upper lower diagonal members 56, 56 ′, the upper upper diagonal members 57, 57 ′, the upper lower diagonal member receiving member 58, and the upper upper diagonal member receiving member 59 are also preferably made of lightweight steel, and their cross members It is preferable that the size relationship with respect to 51 and the intermediate cross member 55 and the fixing manner are the same as those described with reference to FIG.

軽量形鋼から形作られたダンパー60の有孔形状や、倒れ止め材が取り付けられていることが好ましいこと、さらにはその好ましい設置態様についても前記態様と全く同様である。
本態様でも、上記ダンパー60の他に二つ目のダンパー60’が取り付けられているが、この取り付け態様も、前記図7の態様と同様、基本的には、中間部横材55を対称軸として線対称の関係となっている。
It is preferable that the perforated shape of the damper 60 formed from lightweight steel and that the anti-falling material is attached, and the preferred installation mode is exactly the same as the above mode.
Also in this embodiment, a second damper 60 ′ is attached in addition to the damper 60. In this attachment manner as well, in the same manner as in the embodiment shown in FIG. As shown in FIG.

本発明の住宅制振装置を構成する2本の横材および2本の縦材がその端部で互いにピン接合されている。また、2本の横材の間に中間部横材が配されたものにあっても、当該中間部横材の端部は縦材にピン接合されている。すなわち、横材と縦材とが互いに回動できる構造となっている。このため、横振動を受けたとき、横材が縦材に対して回動する形となって、振動エネルギーのダンパーへの伝達が円滑に行え、制振装置としての機能が一段と向上する。   The two cross members and the two vertical members constituting the housing vibration damping device of the present invention are pin-bonded to each other at their end portions. Further, even in the case where the intermediate cross member is disposed between the two cross members, the end of the intermediate cross member is pin-bonded to the vertical member. That is, the cross member and the vertical member can be rotated with respect to each other. For this reason, when a horizontal vibration is received, the cross member rotates with respect to the vertical member, so that vibration energy can be smoothly transmitted to the damper, and the function as a vibration damping device is further improved.

本発明住宅用制振装置を構成する各部材は、Znめっき、Alめっき、Zn−Al合金めっき、あるいはZn−Al−Mg合金めっきが施された鋼板で構成されていることが好ましい。特に、Al:4.0〜10.0質量%、Mg:1.0〜4.0質量%を含み、残部がZnからなるもの、さらに微量のTiやBを含むもの、あるいはさらにSiを含むZn−Al−Mg系合金めっきが施された鋼板で構成されていることが好ましい。
耐久性能、防火耐火性能に優れためっき鋼板を素材とすることにより、本発明の住宅用制振装置は、高価なゴム等を用いたものと比べて低コストで耐久性に優れ、防火耐火性能がある建築住宅の付加価値を高めることができる。
Each member constituting the residential vibration damping device of the present invention is preferably composed of a steel plate to which Zn plating, Al plating, Zn—Al alloy plating, or Zn—Al—Mg alloy plating is applied. In particular, Al: 4.0 to 10.0% by mass, Mg: 1.0 to 4.0% by mass, the balance being made of Zn, further containing a trace amount of Ti or B, or further containing Si It is preferably composed of a steel plate on which a Zn—Al—Mg alloy plating is applied.
By using plated steel sheets with excellent durability and fire and fire resistance performance, the residential vibration damping device of the present invention is low in cost and superior in durability compared to those using expensive rubber, etc., and fire and fire resistance performance. There is an added value in the built house.

高耐食性のZn−Al−Mg系合金めっき鋼板は、Mg含有亜鉛系腐食生成物で切断端面も覆われるため、打抜き,加工等で生じた切断端面や下地露出部においても優れた耐食性を維持できる。
なお、特に、溶接時の熱影響でめっき層が無くなった溶接部や熱影響部等、耐食性の点で不安がある場合には、当該部位を溶射法で被覆することが好ましい。被覆金属層としては特に限定されるものではないが、Al−Zn系合金やAl−Mg系合金を溶射被覆することが好ましい。
High corrosion resistance Zn-Al-Mg alloy-plated steel sheet is also covered with Mg-containing zinc-based corrosion products, so that the cut end surface is covered with the Mg-containing zinc-based corrosion product. .
In particular, when there is anxiety in terms of corrosion resistance, such as a welded part or a heat-affected part in which the plating layer has disappeared due to the thermal influence during welding, it is preferable to coat the part with a thermal spraying method. Although it does not specifically limit as a coating metal layer, It is preferable to spray-coat an Al-Zn type alloy and an Al-Mg type alloy.

次に、本発明住宅用制振装置の使用態様について説明する。
例えば、木造の住宅を新築する際にあっては、図9に示すように、本発明住宅用制振装置を、柱21と梁22で囲まれた開口部内に、特に柱21に密着させて組み込む。前記開口部と本発明住宅用制振装置との寸法が合致するように装置全体幅寸法を調整したり、柱21に曲げ応力を伝えないようにする場合には、間に添え柱23を介在させて組み込むことが好ましい。そして、本発明住宅用制振装置の左右縦材13,14を柱21にドリルねじ等で固定する。縦材13,14を柱21に直接固定するのではなく、図9に示すように、L字形の固定アングル24を用いて固定してもよい。この場合は、L字型固定アングル24の一側がドリルねじ等で横材12に固定され、他側がドリルねじ等で柱21または添え柱23に固定される。
Next, the usage mode of the vibration damping device for a house of the present invention will be described.
For example, when constructing a new wooden house, as shown in FIG. 9, the vibration damping device for a house of the present invention is closely attached to the column 21 and the column 21 and in particular, to the column 21. Include. When adjusting the overall width of the device so that the dimensions of the opening and the vibration damping device of the present invention match, or preventing the bending stress from being transmitted to the column 21, an auxiliary column 23 is interposed therebetween. It is preferable to incorporate them. Then, the left and right vertical members 13 and 14 of the vibration damping device for a house of the present invention are fixed to the column 21 with a drill screw or the like. The vertical members 13 and 14 may not be directly fixed to the column 21 but may be fixed using an L-shaped fixed angle 24 as shown in FIG. In this case, one side of the L-shaped fixed angle 24 is fixed to the cross member 12 with a drill screw or the like, and the other side is fixed to the column 21 or the auxiliary column 23 with a drill screw or the like.

地震等の振動エネルギーを制振装置に十分に吸収させるには、柱21と本発明住宅用制振装置の縦材縦材13,14を固定させ、層間変位振動を確実に制振装置に伝達させることが肝要となる。
本発明住宅用制振装置では、矩形の枠体が軽量形鋼で構築され、しかもその四側端面に軽量形鋼のいわゆるウエブ部が配される形態となっている。このため、前記柱21の側面、あるいはL字型固定アングル24の端面との密なる固定が容易となる。
In order to sufficiently absorb vibration energy such as earthquakes in the damping device, the column 21 and the vertical members 13 and 14 of the housing damping device of the present invention are fixed, and the interlayer displacement vibration is reliably transmitted to the damping device. It is important to make it happen.
In the housing vibration damping device of the present invention, the rectangular frame is constructed of a lightweight steel, and the so-called web portion of the lightweight steel is arranged on the four side end surfaces. For this reason, the fixation to the side surface of the column 21 or the end surface of the L-shaped fixed angle 24 is facilitated.

柱・梁に囲まれた間口部の上側のみに本発明住宅用制振装置を組み込んで下側を開放することが可能なことが本発明の特徴的な実施態様である。すなわち、窓を設けるための開口部がある柱・梁構造であっても組み込みが可能な制振装置であり、新築住宅の場合、制振装置を組み込まない従来の場合と同様の窓の数を確保することができる。
さらに、エネルギー吸収量をより多くするためには、例えば図9に示すように、柱21と梁22で囲まれた一つの開口部内に、腰窓を設ける空間の上下に二つ本発明住宅用制振装置を組み込むことが好ましい。柱21と梁22で囲まれた窓を設ける予定のない開口部内には三つの本発明住宅用制振装置を組み込むことが好ましい。
なお、本発明住宅用制振装置は小面積壁への設置が可能であるので、建築物全体にバランス良く配置できる。すなわち、上下階方向、水平方向のバランスの取れた振れ制御設計のもとで、適宜箇所に組み込むことができる。
It is a characteristic embodiment of the present invention that it is possible to open the lower side by incorporating the vibration damping device of the present invention only at the upper side of the frontage part surrounded by the columns and beams. In other words, it is a vibration control device that can be installed even in a pillar / beam structure with an opening for providing a window. In the case of a new house, the number of windows is the same as in the conventional case where the vibration control device is not installed. Can be secured.
Furthermore, in order to increase the amount of energy absorption, for example, as shown in FIG. 9, two openings are provided above and below a space in which a waist window is provided in one opening surrounded by a pillar 21 and a beam 22. It is preferable to incorporate a damping device. It is preferable to incorporate three damping devices for a house of the present invention in an opening where no window is planned to be surrounded by the column 21 and the beam 22.
In addition, since the damping device for houses of the present invention can be installed on a small area wall, it can be arranged in a well-balanced manner throughout the building. In other words, it can be incorporated at appropriate locations under a shake control design that balances the upper and lower floor directions and the horizontal direction.

ところで、上記は新築住宅に組み込む態様を説明しているが、既存の住宅の改修の場合であっても窓部分の簡単な施工により組み込むことが可能で、窓の数を減らす必要もない。すなわち、既存住宅の腰窓が設けられた壁面の腰窓部よりも下側の壁材を撤去し、柱と梁および腰窓の下基部で囲まれた開口部内に本発明住宅用制振装置を組み込むことができる。腰窓の高さを低くすることが許される場合には、窓枠の上端部にも本発明住宅用制振装置を組み込んでもよい。   By the way, although the above has demonstrated the aspect integrated in a new house, even if it is a case of repair of the existing house, it can be integrated by simple construction of a window part and it is not necessary to reduce the number of windows. That is, the wall material on the lower side than the lumbar window portion of the wall surface provided with the lumbar window of the existing house is removed, and the vibration damping device for the house of the present invention is placed in the opening surrounded by the pillar, the beam and the lower base of the lumbar window Can be incorporated. When it is allowed to reduce the height of the waist window, the house vibration damping device of the present invention may be incorporated in the upper end portion of the window frame.

また、掃き出し窓が設けられた既存住宅にあっては、窓枠の上端部にそのまま、あるいは窓枠の側部に付設した添え柱の上端に本発明住宅用制振装置を組み込ことができる。
さらに、窓が設けられていない壁面にあっては、壁材を撤去して露出された柱と梁とで囲まれた開口部内に本発明住宅用制振装置を組み込ことができる。
このように、既存住宅にあっても部分的な改修工事で容易に制振機能を付加することができる。
以上に説明したように本発明による制振装置は、木造あるいはプレハブの住宅等の小規模建築物に、新築住宅、既存住宅にかかわらず簡便に取り付けることができる。
Moreover, in the existing house provided with the sweep-out window, the vibration damping device for a house of the present invention can be incorporated as it is at the upper end of the window frame or at the upper end of a supporting post attached to the side of the window frame. .
Furthermore, in the wall surface in which the window is not provided, the vibration damping device for a housing of the present invention can be incorporated into the opening surrounded by the pillar and the beam exposed by removing the wall material.
As described above, even in an existing house, a vibration damping function can be easily added by partial renovation work.
As described above, the vibration damping device according to the present invention can be easily attached to a small-scale building such as a wooden or prefabricated house regardless of whether it is a new house or an existing house.

さらに、本発明住宅用制振装置は、制振機能を果たすダンパー17が軽量形鋼から形作られ、その両フランジの先端部が上部横材11のフランジ間に挿入されてドリルねじで横材を構成する軽量形鋼のフランジに、着脱可能な状態で取り付けられ、また、そのウエブ下面が斜材受け材16を構成する軽量形鋼のウエブ上面にドリルねじで着脱可能な状態で取り付けられている。
したがって、不幸にも地震等の被害を受け、振動エネルギーを吸収することにより破損したダンパー17を容易に取り外し、新たなダンパー17を再び組み込むことで、被害を受けた住宅に制振機能を再び付与することができる。
Further, in the housing vibration damping device of the present invention, the damper 17 that performs the vibration damping function is formed from a light-weight steel, and the front ends of both flanges are inserted between the flanges of the upper cross member 11 and the cross member is formed with a drill screw. It is attached in a removable state to the light-weight steel flange, and the lower surface of the web is attached in a removable state with a drill screw to the upper surface of the light-weight steel web constituting the diagonal material receiving member 16. .
Therefore, unfortunately damaged by earthquakes, etc., by absorbing vibration energy, the damaged damper 17 can be easily removed, and a new damper 17 is installed again to regain the vibration control function to the damaged house. can do.

従来の制振構造物(特許文献1参照)の概略構造を説明する正面図Front view for explaining the schematic structure of a conventional damping structure (see Patent Document 1) 本発明住宅用制振装置の概略構造を説明する正面図The front view explaining the schematic structure of the damping device for houses of the present invention 本発明住宅用制振装置の概略構造を説明する斜視図The perspective view explaining the schematic structure of the damping device for houses of the present invention 本発明住宅用制振装置のダンパー取付け部側面図Damper mounting portion side view of the vibration damping device for a house of the present invention 本発明住宅用制振装置におけるダンパー倒れ止め材の設置態様を説明する図The figure explaining the installation aspect of the damper fall-prevention material in the damping device for housings of the present invention 本発明住宅用制振装置の第二の概略構造を説明する正面図The front view explaining the 2nd schematic structure of the damping device for houses of the present invention 本発明住宅用制振装置の第三の概略構造を説明する正面図Front view for explaining a third schematic structure of the vibration damping device for a house of the present invention 本発明住宅用制振装置の第四の概略構造を説明する正面図Front view illustrating a fourth schematic structure of the vibration damping device for a house of the present invention 本発明住宅用制振装置の取付け態様を説明する正面図The front view explaining the attachment aspect of the damping device for houses of this invention

符号の説明Explanation of symbols

11,12:横材 13,14:縦材 15,15’:斜材
16:斜材受け材 17:ダンパー 18:ドリルねじ
19,19’:倒れ止め材 20:孔 10:ピン
21:柱 22:梁 23:添え柱 24:L字型アングル
31,32:横材 33,34:縦材 35,35’:下部斜材
36,36’:上部斜材 37:下部斜材受け材 38:上部斜材受け材 39:ダンパー 40:ピン
41,42:横材 43,44:縦材 45:中間横材
46,46’:上部斜材 47,47’:上部斜材 48:上部斜材受け材 48’:下部斜材受け材 49,49’:ダンパー 50:ピン
51,52:横材 53,54:縦材 55:中間横材
56,56’:上部下方斜材 57,57’:上部下方斜材
58:上部下方斜材受け材 59:上部上方斜材受け材
60,60’:ダンパー 61:ピン
11, 12: Cross member 13, 14: Vertical member 15, 15 ': Diagonal member
16: Diagonal material receiving material 17: Damper 18: Drill screw
19, 19 ': Fall prevention material 20: Hole 10: Pin
21: pillar 22: beam 23: accessory pillar 24: L-shaped angle
31, 32: Cross member 33, 34: Vertical member 35, 35 ': Lower diagonal member
36, 36 ': Upper diagonal material 37: Lower diagonal material receiving material 38: Upper diagonal material receiving material 39: Damper 40: Pin
41, 42: Cross member 43, 44: Vertical member 45: Intermediate cross member
46, 46 ': Upper diagonal material 47, 47': Upper diagonal material 48: Upper diagonal material receiving material 48 ': Lower diagonal material receiving material 49, 49': Damper 50: Pin
51, 52: Cross member 53, 54: Vertical member 55: Intermediate cross member
56, 56 ': Upper lower diagonal material 57, 57': Upper lower diagonal material
58: Upper lower diagonal receiving material 59: Upper upper diagonal receiving material
60, 60 ': Damper 61: Pin

Claims (10)

上部および下部の2本の横材と、左部および右部の2本の縦材とが互いにピン接合されて矩形の枠体が形作られているとともに、下部横材の両内側端近傍にそれぞれの一端が固着され、他端がそれぞれ枠体の中央部方向に伸びる2本の斜材が配され、当該2本の斜材のそれぞれの他端が両端に固着された斜材受け材の上面と前記上部横材の中央部下面との間にダンパーが取り付けられた制振装置であって、当該制振装置を構成する横材、縦材、斜材受け材およびダンパーが軽量形鋼から構成されており、前記横材および縦材を構成する軽量形鋼は、その溝部を前記枠体の内側に向けて配されているとともに、前記ダンパーは、前記横材を構成する軽量形鋼のフランジ内面間隔と同じ寸法のフランジ外面間隔を有し、両フランジの中央部に長手方向に沿って複数の孔が連穿されており、両フランジの先端部が上部横材のフランジ間に挿入されてドリルねじで上部横材を構成する軽量形鋼のフランジに取り付けられているとともに、当該ダンパーを構成する軽量形鋼のウエブ外面が溝部を下方に向けて配された軽量形鋼からなる前記斜材受け材のウエブ外面にドリルねじで取り付けられていることを特徴とする住宅用制振装置。   The upper and lower cross members and the left and right vertical members are joined to each other to form a rectangular frame, and near the inner ends of the lower cross member, respectively. Two diagonal members each having one end thereof fixed and the other end extending in the direction of the central portion of the frame are disposed, and the upper surface of the diagonal member receiving member having the other ends fixed to both ends of the two diagonal members. Damping device in which a damper is attached between the upper cross member and the lower surface of the central portion of the upper cross member, and the cross member, the vertical member, the diagonal member receiving member, and the damper constituting the vibration control device are made of lightweight section steel The lightweight section steel that constitutes the transverse member and the longitudinal member is disposed with the groove portion facing the inside of the frame body, and the damper is a flange of the lightweight section steel that constitutes the transverse member. Has the same flange outer surface interval as the inner surface interval, and is long at the center of both flanges. A plurality of holes are continuously drilled along the direction, and the tip ends of both flanges are inserted between the flanges of the upper cross member and attached to the lightweight steel flange constituting the upper cross member with a drill screw. Further, the outer surface of the lightweight section steel that constitutes the damper is attached to the outer surface of the oblique material receiving member made of the lightweight section steel with the groove portion facing downward by a drill screw. Damping device. 前記2本の斜材も軽量形鋼で構成されており、当該斜材を構成する軽量形鋼は、そのフランジ外面間隔が前記下部横材を構成する軽量形鋼のフランジ内面間隔と同じ寸法を有し、当該斜材のそれぞれの一端が下部横材の両内側端近傍のフランジ内に挿入固着されており、また当該斜材のそれぞれ他端が、前記横材を構成する軽量形鋼と同寸法のフランジ内面間隔を有する軽量形鋼からなる斜材受け材のフランジ内に挿入固着されている請求項1に記載の住宅用制振装置。   The two diagonal members are also made of lightweight section steel, and the lightweight section steel constituting the diagonal member has the same flange outer surface interval as the flange inner surface interval of the lightweight section steel constituting the lower cross member. One end of each diagonal member is inserted and fixed in a flange near both inner ends of the lower cross member, and the other end of the diagonal member is the same as the lightweight section steel constituting the cross member. 2. The dampening device for a house according to claim 1, wherein the vibration damping device is fixedly inserted into a flange of a diagonal member made of lightweight steel having a flange inner surface interval of dimensions. 上部および下部の2本の横材と、左部および右部の2本の縦材とが互いにピン接合されて矩形の枠体が形作られているとともに、下部横材の両内側端近傍にそれぞれの一端が固着され、他端がそれぞれ枠体の中央部方向に伸びる2本の下部斜材と、上部横材の両内側端近傍にそれぞれの一端が固着され、他端がそれぞれ枠体の中央部方向に伸びる2本の上部斜材が配され、前記2本の下部斜材の前記他端が両端に固着された下部斜材受け材の上面と、前記2本の上部斜材の前記他端が両端に固着された上部斜材受け材の下面との間にダンパーが取り付けられた制振装置であって、当該制振装置を構成する横材、縦材、下部斜材受け材、上部斜材受け材およびダンパーが軽量形鋼から構成されており、前記横材および縦材を構成する軽量形鋼は、その溝部を前記枠体の内側に向けて配されているとともに、前記ダンパーは、前記上部斜材受け材を構成する軽量形鋼のフランジ内面間隔と同じ寸法のフランジ外面間隔を有し、両フランジの中央部に長手方向に沿って複数の孔が連穿されており、両フランジの先端部が、溝部を下方に向けて配された軽量形鋼からなる上部斜材受け材のフランジ間に挿入されてドリルねじで上部斜材受け材を構成する軽量形鋼のフランジに取り付けられているとともに、当該ダンパーを構成する軽量形鋼のウエブ外面が溝部を下方に向けて配された軽量形鋼からなる下部斜材受け材のウエブ外面にドリルねじで取り付けられていることを特徴とする住宅用制振装置。   The upper and lower cross members and the left and right vertical members are joined to each other to form a rectangular frame, and near the inner ends of the lower cross member, respectively. One end of each of the two lower diagonal members extending in the direction of the central portion of the frame body and the other end of each of the upper cross members are fixed to each other in the vicinity of both inner ends, and the other end is the center of the frame body. Two upper diagonal members extending in the direction of the section, the upper surface of the lower diagonal receiving member with the other ends of the two lower diagonal members fixed to both ends, and the other of the two upper diagonal members A damping device in which a damper is attached between the lower surface of the upper diagonal material receiving member whose ends are fixed to both ends, and a transverse member, a vertical member, a lower diagonal material receiving material, and an upper portion that constitute the damping device. The diagonal material receiving material and the damper are made of light-weight steel, and the light-weight steel constituting the cross member and the vertical member is The groove portion is arranged facing the inner side of the frame body, and the damper has a flange outer surface interval of the same dimension as a flange inner surface interval of the lightweight section steel constituting the upper diagonal material receiving member. A plurality of holes are continuously drilled along the longitudinal direction at the center of the flange, and the front ends of both flanges are inserted between the flanges of the upper diagonal receiving member made of lightweight steel with the groove facing downward It is attached to the flange of the lightweight section steel that constitutes the upper diagonal material receiving member with a drill screw, and the lightweight outer surface of the lightweight section steel that constitutes the damper is arranged with the groove portion facing downwards. A dampening device for a house characterized by being attached to the outer surface of the web of the lower diagonal material receiving member with a drill screw. 前記上部斜材および下部斜材も軽量形鋼で構成されており、当該各斜材を構成する軽量形鋼は、そのフランジ外面間隔が前記上部横材および下部横材を構成する軽量形鋼のフランジ内面間隔と同じ寸法を有し、下部斜材のそれぞれの一端が下部横材の両内側端近傍のフランジ内に挿入固着されており、また当該下部斜材のそれぞれ他端が、前記横材を構成する軽量形鋼と同寸法のフランジ内面間隔を有する軽量形鋼からなる下部斜材受け材のフランジ内に挿入固着されているとともに、上部斜材のそれぞれの一端が上部横材の両内側端近傍のフランジ内に挿入固着されており、また当該上部斜材のそれぞれ他端が、軽量形鋼からなる上部斜材受け材のウエブ外面に固着されている請求項3に記載の住宅用制振装置。 The upper diagonal member and the lower diagonal member are also made of lightweight section steel, and the lightweight section steel constituting each oblique member has a flange outer surface interval of the lightweight section steel constituting the upper transverse member and the lower transverse member. The lower diagonal member has the same dimension as the flange inner surface interval, and one end of each lower diagonal member is inserted and fixed in a flange near both inner ends of the lower horizontal member, and each other end of the lower diagonal member is connected to the horizontal member. Are inserted and fixed in the flange of the lower diagonal member made of a lightweight steel having the same distance as the inner surface of the lightweight steel, and each end of the upper diagonal is inside the upper cross member. 4. The residential control according to claim 3, wherein the housing is inserted and fixed in a flange in the vicinity of the end, and each other end of the upper diagonal member is fixed to the outer surface of the upper diagonal member receiving member made of lightweight steel. Shaker. 上部、下部および中間部の3本の横材と、左部および右部の2本の縦材とが互いにピン接合されて矩形の枠体が形作られているとともに、中間部横材の両上側端近傍にそれぞれの一端が固着され、他端がそれぞれ中間部横材の中央上部方向に伸びる2本の上部斜材が配され、当該2本の上部斜材の前記他端が両端に固着された上部斜材受け材の上面と前記上部横材の中央部下面との間に上部ダンパーが、また、中間部横材の両下側端近傍にそれぞれの一端が固着され、他端がそれぞれ中間部横材の中央下部方向に伸びる2本の下部斜材が配され、当該2本の下部斜材の前記他端が両端に固着された下部斜材受け材の下面と前記下部横材の中央部上面との間に下部ダンパーが取り付けられた制振装置であって、当該制振装置を構成する上部および下部の2本の横材、縦材、上部斜材受け材および下部斜材受け材ならびに二つのダンパーが軽量形鋼から構成されており、前記上部および下部の2本の横材ならびに縦材を構成する軽量形鋼は、その溝部を前記枠体の内側に向けて配されているとともに、前記上部ダンパーは、前記上部横材を構成する軽量形鋼のフランジ内面間隔と同じ寸法のフランジ外面間隔を有し、両フランジの中央部に長手方向に沿って複数の孔が連穿されており、両フランジの先端部が上部横材のフランジ間に挿入されてドリルねじで上部横材を構成する軽量形鋼のフランジに取り付けられているとともに、当該ダンパーを構成する軽量形鋼のウエブ下面が前記上部斜材受け材を構成する軽量形鋼のウエブ外面にドリルねじで取り付けられており、前記下部ダンパーは、前記下部横材を構成する軽量形鋼のフランジ内面間隔と同じ寸法のフランジ外面間隔を有し、両フランジの中央部に長手方向に沿って複数の孔が連穿されており、両フランジの先端部が下部横材のフランジ間に挿入されてドリルねじで下部横材を構成する軽量形鋼のフランジに取り付けられているとともに、当該ダンパーを構成する軽量形鋼のウエブ外面が前記下部斜材受け材を構成する軽量形鋼のウエブ外面にドリルねじで取り付けられていることを特徴とする住宅用制振装置。   The upper, lower, and middle three cross members and the left and right vertical members are joined together to form a rectangular frame, and both upper sides of the intermediate cross member. One upper end of each of the two upper diagonal members is fixed to both ends. The upper damper is fixed between the upper surface of the upper diagonal member and the lower surface of the central portion of the upper cross member, and one end of each of the intermediate cross members is fixed in the vicinity of both lower ends, and the other end is intermediate. Two lower diagonal members extending in the lower direction of the center of the horizontal member, and the lower surface of the lower diagonal member and the center of the lower horizontal member are fixed to both ends of the two lower diagonal members. A damping device having a lower damper attached between the upper surface and the upper surface of the part, the upper and lower parts constituting the damping device. The lower two cross members, the vertical member, the upper diagonal member and the lower diagonal member and the two dampers are made of lightweight steel, and the upper and lower two horizontal members and the vertical member are The lightweight section steel that is configured is arranged with its groove portion facing the inside of the frame body, and the upper damper has a flange outer surface spacing of the same dimension as a flange inner surface spacing of the lightweight section steel that constitutes the upper cross member. A plurality of holes are continuously formed along the longitudinal direction at the center portion of both flanges, and the top ends of both flanges are inserted between the flanges of the upper cross member to form the upper cross member with a drill screw. A lightweight lower surface of the lightweight steel that forms the damper is attached to the outer surface of the lightweight structural steel that constitutes the upper diagonal member with a drill screw. damper Has a flange outer surface interval of the same size as the flange inner surface interval of the lightweight steel constituting the lower cross member, and a plurality of holes are continuously drilled along the longitudinal direction at the center of both flanges. The front end of the lower cross member is inserted between the flanges of the lower cross member and attached to the flange of the light weight steel forming the lower cross member with a drill screw. A dampening device for a house, characterized in that it is attached to the outer surface of a light-weight steel web constituting the material receiving material with a drill screw. 前記上部斜材および下部斜材も軽量形鋼で構成されており、当該各斜材を構成する軽量形鋼は、そのフランジ外面間隔が前記上部横材、下部横材を構成する軽量形鋼のフランジ内面間隔と同じ寸法を有し、上部斜材および下部斜材のそれぞれの一端が中間部横材の両上側端近傍部および両下側端近傍に固着されており、また当該上部斜材および下部斜材のそれぞれの他端が、前記上部横材、下部横材を構成する軽量形鋼と同寸法のフランジ内面間隔を有する軽量形鋼からなる上部斜材受け材および下部斜材受け材の各フランジ内に挿入固着されている請求項5に記載の住宅用制振装置。   The upper diagonal member and the lower diagonal member are also made of lightweight section steel. The lightweight section steel constituting each oblique member has a flange outer surface interval of the lightweight section steel constituting the upper transverse member and the lower transverse member. It has the same dimension as the flange inner surface interval, and one end of each of the upper diagonal member and the lower diagonal member is fixed to the vicinity of both upper and lower ends of the intermediate cross member, Each of the other ends of the lower diagonal member has an upper diagonal member and a lower diagonal member made of a lightweight section steel having a flange inner surface spacing of the same dimensions as the lightweight section steel constituting the upper transverse member and the lower transverse member. 6. The residential vibration damping device according to claim 5, which is inserted and fixed in each flange. 上部、下部および中間部の3本の横材と、左部および右部の2本の縦材とが互いにピン接合されて矩形の枠体が形作られているとともに、中間部横材の両上側端近傍にそれぞれの一端が固着され、他端がそれぞれ中間部横材の中央上部方向に伸びる2本の上部下方斜材が配され、当該2本の上部下方斜材の前記他端が両端に固着された上部下方斜材受け材の上面と、上部横材の両内側端近傍に一端が固着され、他端がそれぞれ上部横材の中央下部方向に伸びる2本の上部上方斜材が配され、当該2本の上部上方斜材の前記他端が両端に固着された上部上方斜材受け材の下面との間に上部ダンパーが、また、下部横材の両内側端近傍にそれぞれの一端が固着され、他端がそれぞれ下部横材の中央上部方向に伸びる2本の下部下方斜材が配され、当該2本の下部下方斜材の前記他端が両端に固着された下部下方斜材受け材の上面と、中間部横材の両下側端近傍に一端が固着され、他端がそれぞれ中間部横材の中央下部方向に伸びる2本の下部上方斜材が配され、当該2本の下部上方斜材の前記他端が両端に固着された下部上方斜材受け材の下面との間に下部ダンパーが取り付けられた制振装置であって、当該制振装置を構成する上部および下部の2本の横材、縦材、各4つの斜材受け材および二つのダンパーが軽量形鋼から構成されており、前記上部および下部の2本の横材ならびに縦材を構成する軽量形鋼は、その溝部を前記枠体の内側に向けて配されているとともに、前記上部ダンパーは、前記上部横材を構成する軽量形鋼のフランジ内面間隔と同じ寸法のフランジ外面間隔を有し、両フランジの中央部に長手方向に沿って複数の孔が連穿されており、両フランジの先端部が上部上方斜材受け材を構成する軽量形鋼のフランジ間に挿入されてドリルねじで上部上方斜材受け材のフランジに取り付けられているとともに、当該ダンパーを構成する軽量形鋼のウエブ下面が前記上部下方斜材受け材を構成する軽量形鋼のウエブ外面にドリルねじで取り付けられており、前記下部ダンパーは、前記下部横材を構成する軽量形鋼のフランジ内面間隔と同じ寸法のフランジ外面間隔を有し、両フランジの中央部に長手方向に沿って複数の孔が連穿されており、両フランジの先端部が下部下方斜材受け材を構成する軽量形鋼のフランジ間に挿入されてドリルねじで下部下方斜材受け材のフランジに取り付けられているとともに、当該ダンパーを構成する軽量形鋼のウエブ外面が前記下部上方斜材受け材を構成する軽量形鋼のウエブ外面にドリルねじで取り付けられていることを特徴とする住宅用制振装置。   The upper, lower, and middle three cross members and the left and right vertical members are joined together to form a rectangular frame, and both upper sides of the intermediate cross member. Two upper lower diagonal members each having one end fixed in the vicinity of the ends and the other ends extending in the center upper direction of the intermediate cross member are arranged, and the other ends of the two upper lower diagonal members are arranged at both ends. Two upper upper diagonal members are arranged, one end of which is fixed to the upper surface of the upper lower diagonal material receiving member and the vicinity of both inner ends of the upper horizontal material, and the other ends of which extend toward the lower center of the upper horizontal material. An upper damper is provided between the two upper upper diagonal members and the lower surface of the upper upper diagonal member fixed to both ends, and one end of each of the two upper upper diagonal members is provided near both inner ends of the lower cross member. Two lower lower diagonal members, which are fixed and each of the other ends extend toward the upper center of the lower cross member, are arranged, One end of each of the two lower lower diagonal members is fixed to the upper surface of the lower lower diagonal material receiving member fixed to both ends, and both lower ends of the intermediate cross member. Two lower upper diagonal members extending in the lower direction of the center of the cross member are arranged, and the lower portion of the lower upper diagonal member is fixed to the lower surface of the lower upper diagonal receiving member fixed to both ends. A damping device to which a damper is attached, wherein the upper and lower two cross members, vertical members, four diagonal members and two dampers constituting the damping device are made of lightweight section steel. The light weight steel constituting the two upper and lower cross members and the vertical member is arranged with the groove portion facing the inside of the frame body, and the upper damper is formed of the upper cross member. The flange outer surface spacing has the same dimensions as the flange inner surface spacing of the lightweight section steel A plurality of holes are continuously drilled along the longitudinal direction at the center of both flanges, and the top ends of both flanges are inserted between the flanges of the lightweight steel that forms the upper upper diagonal receiving material It is attached to the flange of the upper diagonal material receiving material, and the lower surface of the lightweight steel forming the damper is attached to the outer surface of the light weight steel forming the upper lower diagonal receiving material with a drill screw. The lower damper has a flange outer surface interval of the same dimension as the flange inner surface interval of the lightweight steel forming the lower cross member, and a plurality of holes are continuously drilled along the longitudinal direction at the center portion of both flanges. The front ends of both flanges are inserted between the lightweight steel flanges constituting the lower lower diagonal receiving member and attached to the lower lower diagonal receiving member flange with a drill screw. A dampening device for a house, characterized in that the outer surface of the light-weight steel forming the par is attached to the outer surface of the light-weight steel forming the lower upper diagonal receiving member with a drill screw. 前記ダンパーの両フランジに連穿されている各孔は、それぞれ当該ダンパーの長手方向に沿って長く、その両側部に鋭角の応力集中部を有している請求項1〜7のいずれか1項に記載の住宅用制振装置。   8. Each of the holes continuously formed in both flanges of the damper is long along the longitudinal direction of the damper, and has acute stress concentration portions on both sides thereof. The vibration damping device for houses as described in 4. 前記ダンパーを構成する軽量形鋼のダンパー部の両端にウエブ、フランジが残存され、当該残存部のダンパー部から分離された両フランジを上部横材、上部斜材受け材、上部上方斜材受け材、下部下方斜材受け材、または下部横材の両フランジ間に遊挿させる形態で倒れ止め材が配置されている請求項1〜8のいずれか1項に記載の住宅用制振装置。 A web and a flange remain on both ends of the damper part of the lightweight section steel constituting the damper, and both flanges separated from the damper part of the remaining part are an upper cross member, an upper diagonal material receiving material, and an upper upper diagonal material receiving material. The housing damping device according to any one of claims 1 to 8, wherein a fall-preventing material is arranged in a form of loose insertion between both flanges of the lower lower diagonal member or the lower horizontal member. 各部材を構成する軽量形鋼はめっき鋼板から形作られている請求項1〜9のいずれか1項に記載の住宅用制振装置。   The dampening device for a house according to any one of claims 1 to 9, wherein the lightweight section steel constituting each member is formed from a plated steel sheet.
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CN108952282A (en) * 2017-05-27 2018-12-07 南京理工大学 It is a kind of to surrender damping mild steel damper stage by stage

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