JP3875924B2 - Long buckling restraint brace - Google Patents
Long buckling restraint brace Download PDFInfo
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- JP3875924B2 JP3875924B2 JP2002173862A JP2002173862A JP3875924B2 JP 3875924 B2 JP3875924 B2 JP 3875924B2 JP 2002173862 A JP2002173862 A JP 2002173862A JP 2002173862 A JP2002173862 A JP 2002173862A JP 3875924 B2 JP3875924 B2 JP 3875924B2
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- buckling
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Description
【0001】
【発明の属する技術分野】
本発明は、建築物等の鋼構造物に用いられるブレース材に関する。
【0002】
【従来の技術】
一般にブレース材は、柱と梁からなる軸組構造に斜めに張設され、両端が柱または梁に接合されることで軸組強度を高めるための部材として用いられる。このブレース材の耐震強度向上を狙って、鋼板または形鋼からなる芯材の両端部を除く周囲に鋼材またはコンクリートまたはこれらを組み合わせて形成される座屈拘束材を芯材と座屈拘束部材の接触面を非付着状態として、芯材の軸変形によるエネルギーを吸収する座屈拘束ブレースが複数提案されている。(例、特開平10−280559号、特開平10−306498号、特開2000−144900号等)
【0003】
【発明が解決しようとする課題】
座屈拘束ブレースにおいては、大空間建築などの耐震要素として用いる場合、その長さが長尺となり、製作、運搬が困難となる。座屈拘束部材を有しないブレースにおいても、その長さが長尺となると、製作、運搬が困難となり、また、圧縮軸耐力が大きくするために断面積、剛性が大きくなり、その結果不経済な設計となることが多い。ブレース材の長さが長尺になるのを避けるためにブレースを分割して直列に接合した場合には、製作・運搬の問題は解決できるが、接合部の剛性評価・部材としての曲げ剛性評価・圧縮軸耐力の算定は難しく、最適の断面での設計が困難となり、その結果不経済な設計となることが多い。
【0004】
本発明は、従来のブレース材の持つ問題点を解決することを目的とする。
【0005】
【問題を解決するための手段】
上記課題を解決するために、本第1発明は、座屈拘束軸力材において、芯となる鋼板または形鋼またはこれらを組み合わせてなる軸力芯材の周囲に鋼材またはコンクリートまたはこれらを組み合わせて形成する座屈拘束材を設けてなる座屈拘束ブレースと、座屈拘束材を持たない軸力部材を直列に接続するにあたって、両者の間を座屈拘束ブレースの座屈拘束材と軸力部材を曲げに対して剛に、座屈拘束ブレースの軸力芯材と軸力部材を軸力に対して剛に接続する機能を持つ繋ぎ材で接合することにより一体化して構成され、かつ前記繋ぎ材が、座屈拘束ブレースの軸力芯材の接合端部に形成された連結部と軸力部材の接合端部に形成された連結部とを連結部材により連結し、座屈拘束ブレースの座屈拘束材の接合端部の外周と軸力部材の接合端部の外周がカバー部材により連結する構成とされることを特徴とする。
【0006】
本第2発明は、座屈拘束軸力材において、芯となる鋼板または形鋼またはこれらを組み合わせてなる軸力芯材の周囲に鋼材またはコンクリートまたはこれらを組み合わせて形成する座屈拘束材を設けてなる座屈拘束ブレース同士を直列に接続するにあたって、両者の間を座屈拘束材同士を曲げに対して剛に、軸力芯材同士を軸力に対して剛に接続する機能を持つ繋ぎ材で接合することにより一体化して構成され、かつ前記繋ぎ材が、座屈拘束ブレースの軸力芯材の接合端部に形成された連結部同士を連結部材により連結し、座屈拘束ブレースの座屈拘束材の接合端部の外周同士がカバー部材により連結する構成とされることを特徴とする。
【0007】
本第3発明は、座屈拘束軸力材において、芯となる鋼板または形鋼またはこれらを組み合わせてなる軸力芯材の周囲に鋼材またはコンクリートまたはこれらを組み合わせて形成する座屈拘束材を設けてなる第1の座屈拘束ブレースと、座屈拘束材を持たない軸力部材の一端部とを、前記第1の座屈拘束ブレースの座屈拘束材と軸力部材を曲げに対して剛に、前記第1の座屈拘束ブレースの軸力芯材と軸力部材を軸力に対して剛に接続する機能を持つ第1の繋ぎ材で直列に接合し、前記軸力部材の他端部と、芯となる鋼板または形鋼またはこれらを組み合わせてなる軸力芯材の周囲に鋼材またはコンクリートまたはこれらを組み合わせて形成する座屈拘束材を設けてなる第2の座屈拘束ブレースとを、前記第2の座屈拘束ブレースの座屈拘束材と軸力部材の他端部とを曲げに対して剛に、前記第2の座屈拘束ブレースの軸力芯材と軸力部材の他端部とを軸力に対して剛に接続する機能を持つ第2の繋ぎ材で直列に接合し一体化して構成され、かつ前記第1および第2の各繋ぎ材が、座屈拘束ブレースの軸力芯材の接合端部に形成された連結部と軸力部材の接合端部に形成された連結部とを連結部材により連結し、座屈拘束ブレースの座屈拘束材の接合端部の外周と軸力部材の接合端部の外周がカバー部材により連結する構成とされることを特徴とする。
【0008】
本第4発明は、座屈拘束軸力材において、座屈拘束材を持たない第1の軸力部材と、芯となる鋼板または形鋼またはこれらを組み合わせてなる軸力芯材の周囲に鋼材またはコンクリートまたはこれらを組み合わせて形成する座屈拘束材を設けてなる座屈拘束ブレースの一端部とを、前記座屈拘束ブレースの座屈拘束材と前記第1の軸力部材を曲げに対して剛に、前記座屈拘束ブレースの軸力芯材の一端部と第1の軸力部材とを軸力に対して剛に接続する機能を持つ第1の繋ぎ材で直列に接合し、前記座屈拘束ブレースの他端部と、座屈拘束材を持たない第2の軸力部材とを、前記座屈拘束ブレースの座屈拘束材と前記第2の軸力部材を曲げに対して剛に、前記座屈拘束ブレースの軸力芯材と第2の軸力部材を軸力に対して剛に接続する機能を持つ第2の繋ぎ材で直列に接合し一体化して構成され、かつ前記第1および第2の各繋ぎ材が、座屈拘束ブレースの軸力芯材の接合端部に形成された連結部と軸力部材の接合端部に形成された連結部とを連結部材により連結し、座屈拘束ブレースの座屈拘束材の接合端部の外周と軸力部材の接合端部の外周がカバー部材により連結する構成とされることを特徴とする。
【0009】
本第5発明は、本第1〜第4発明のいずれか1つの発明の座屈拘束軸力材において、座屈拘束ブレースの軸力芯材の降伏軸力に対して、より過大な圧縮軸耐力を有する座屈拘束材を持たない軸力部材を組み合わせることで、座屈拘束された軸力芯材の降伏を先行させることを特徴とする。
【0010】
本第6発明は、本第1〜第5発明のいずれか1つの発明の座屈拘束軸力材において、座屈拘束ブレースの軸力芯材の座屈拘束材として鋼管及びその内部に充填されるコンクリートを用い、前記軸力芯材とコンクリートの間に、軸力芯材と座屈拘束材間の軸力伝達を防ぐ緩衝材が挿入されていることを特徴とする。
【0011】
本第7発明は、本第1〜第6発明のいずれか1つの発明の座屈拘束軸力材において、座屈拘束ブレースの軸力芯材としてH形鋼材または鋼板または鋼板によって組み立てられた断面十字断面の鋼材を用い、座屈拘束材として鋼管またはコンクリートまたはこれらを組み合わせて形成された座屈拘束材を用いることを特徴とする。
【0012】
本第8発明は、本第1〜第7発明のいずれか1つの発明の座屈拘束軸力材において、座屈拘束材を持たない軸力部材の接合端部の断面形状を、座屈拘束ブレースの座屈拘束材の断面形状と同じ断面形状とすることを特徴とする。
【0013】
【作用】
本発明の構成により、長尺ブレース部材を複数のブレース材に分割できるので、製作および輸送の簡便化を図ることができる。
また、直列に複数のブレース材を、連結部材とカバー部材とによる繋ぎ材で接合して構成される長尺ブレース部材は、少なくとも1つを座屈拘束部材を設けた座屈拘束ブレース材とすることにより、部材としての圧縮軸耐力・引張軸耐力が座屈拘束部材を設けた座屈拘束ブレース材と同等になるので、部材の剛性および耐力の調整が容易となり、部材の最適化を図ることができる。
【0014】
さらに、座屈拘束材を設けた座屈拘束ブレース材と座屈拘束部材を持たない軸力部材を、連結部材とカバー部材とによる繋ぎ材で接合して構成される長尺ブレース部材は、各々の長さおよび断面を変化させることによって、部材の軸剛性、座屈耐力を自由に調整することができる。
また、ブレース材の接合部は、軸力のみを伝達し、座屈に対しては、夫々のブレース材の接合端部外周間を連結するカバー部材が抵抗するため、ブレース材の接合部の曲げ剛性を考慮する必要がない。
【0015】
【発明の実施の形態】
本発明の実施形態を図により説明する。
〈実施例1〉
図1は、座屈拘束材を設けた座屈拘束ブレース1と座屈拘束材を持たない軸力部材2を直列に繋ぎ材で接合して構成される本発明の実施例1の長尺座屈拘束ブレース3の斜視図である。この実施例の座屈拘束ブレース1は、鋼板または形鋼またはこれらを組み合わせてなる軸力芯材4の両端部に連結部5を形成し、軸力芯材4の両端連結部5を除く外周に緩衝材(アンボンド材)を取付け、軸力芯材4をその両端連結部5が突出するように鋼管6内に配置し、軸力芯材4と鋼管6との間隙に、コンクリート7とを充填固化させ、軸力芯材4とコンクリート7との接触面が非付着状態され、鋼管6とコンクリート7が座屈拘束材8を構成する。軸力部材2は、鋼管、形鋼等で構成され座屈拘束材を持たない。軸力部材2の両端部には連結部9を形成する。座屈拘束ブレース1の軸力芯材4の一方の連結部5と軸力部材2の一方の連結部9とを、連結部材10で連結する。この連結部材10による座屈拘束ブレース1と軸力部材2と接合部は、互いの軸力のみを伝達する。座屈拘束ブレース1の座屈拘束材8としての鋼管6の接合端部外周と軸力部材2の接合端部外周との間に2つに分割されたカバー部材11、11を配置し、溶接等の固着手段により接合する。カバー部材11による接合部は、曲げ応力に対して抵抗する。前記連結部材10とカバー部材11が本発明の繋ぎ材12を構成する。
【0016】
〈実施例2〉
図2は、座屈拘束材8を有する座屈拘束ブレース1同士を直列に繋ぎ材12で接合して構成される本発明の実施例2の長尺座屈拘束ブレース13の平面図である。この実施例2は、座屈拘束材8を有する一方の座屈拘束ブレース1の軸力芯材4の一端の連結部5と、座屈拘束材8を有する他方の座屈拘束ブレース1の軸力芯材4の一端の連結部5とを、連結部材10で連結する。この連結部材10による座屈拘束ブレース1同士の接合部は、互いの軸力のみを伝達する。一方の座屈拘束ブレース1の座屈拘束材8としての鋼管6の接合端部外周と、他方の座屈拘束ブレース1の座屈拘束材8としての鋼管6の接合端部外周との間に2つに分割されたカバー部材11、11を配置し、溶接等の固着手段により接合する。カバー部材11による接合部は、曲げ応力に対して抵抗する。前記連結部材10とカバー部材11が本発明の繋ぎ材12を構成する。
【0017】
〈実施例3〉
図4は、座屈拘束材8を有する第1の座屈拘束ブレース1と、座屈拘束材を持たない軸力部材2と、座屈拘束材8を有する第2の座屈拘束ブレース1を直列に繋ぎ材12で接合して構成される本発明の実施例3の長尺座屈拘束ブレース14を示す平面図である。この実施例は、座屈拘束材8を有する第1の座屈拘束ブレース1の軸力芯材4の一端の連結部5と、軸力部材2の一方の連結部9とを連結部材10により連結し、この連結部材10による第1の座屈拘束ブレース1と軸力部材2の接合部は、互いの軸力のみを伝達する。第1の座屈拘束ブレース1の座屈拘束材8としての鋼管6の接合端部外周と軸力部材2の接合端部外周との間に2つに分割されたカバー部材11、11を配置し、溶接等の固着手段により接合する。カバー部材11による接合部は、曲げ応力に対して抵抗する。前記連結部材10とカバー部材11が本発明の繋ぎ材12を構成する。軸力部材2の他端の連結部9と、第2の座屈拘束ブレース1の軸力芯材4の連結部5とが連結部材10で連結され、この連結部材10による第2の座屈拘束ブレース1と軸力部材2の接合部は、互いの軸力のみを伝達する。第2の座屈拘束ブレース1の座屈拘束材8としての鋼管6の接合端部外周と軸力部材2の接合端部外周との間に2つに分割されたカバー部材11、11を配置し、溶接等の固着手段により接合する。カバー部材11による接合部は、曲げ応力に対して抵抗する。
【0018】
〈実施例4〉
図3は、座屈拘束材8を持たない第1の軸力部材2と、座屈拘束材8を有する座屈拘束ブレース1と、座屈拘束材8を持たない第2の軸力部材2を直列に繋ぎ材12で接合して構成される本発明の実施例4の長尺座屈拘束ブレース15を示す平面図である。この実施例は、第1の軸力部材2の連結部9と、座屈拘束材8を有する座屈拘束ブレース1の軸力芯材4の一端の連結部5を連結部材10で連結し、この連結部材10による第1の軸力部材2と座屈拘束ブレース1との接合部は、互いの軸力のみを伝達する。第1の軸力部材2の接合端部外周と座屈拘束ブレース1の鋼管6の接合端部外周との間に2つに分割されたカバー部材11、11を配置し、溶接等の固着手段により接合する。カバー部材11による接合部は、曲げ応力に対して抵抗する。座屈拘束ブレース1の軸力芯材4の他端の連結部5と、第2の軸力部材2の連結部9とが連結部材10で連結し、この連結部材10による第2の軸力部材2と座屈拘束ブレース1との接合部は、互いの軸力のみを伝達する。第2の軸力部材2の接合端部外周と座屈拘束ブレース1の鋼管6の接合端部外周との間に2つに分割されたカバー部材11、11を配置し、溶接等の固着手段により接合する。カバー部材11による接合部は、曲げ応力に対して抵抗する。
【0019】
本発明において使用される座屈拘束ブレース1の一例を、図5〜図7により説明する。図5〜図7に示される座屈拘束ブレース1は、帯状鋼板からなる軸力芯材4が、4角形断面の鋼管6に挿通され、かつ軸力芯材4の両端部における巾方向中央の両面に、軸力芯材4の端部の塑性座屈を防止するための鋼製リブプレート16が溶接により固着され、前記軸力芯材4とその軸力芯材4の長手方向の一端部に固定されたリブプレート16とにおける鋼管6内に位置する部分に、型枠剥離剤、オイルペイント、アスファルト等からなる付着防止膜17が塗布形成され、前記鋼管6にコンクリート7が充填され、そのコンクリート7と前記鋼管6とにより座屈拘束材8を構成し、さらに、軸力芯材4の両端部及びリブプレート16における鋼管6から突出した部分にボルト挿通孔を有する連結部5を構成したものである。また、座屈拘束ブレース1の他の例としては、特開平10−306498号公報、特開平10−280559号公報、特開2000−144900号公報、特開2002−88910号公報、特開平11−29978号公報、特開平11−36444号公報、特開2000−21320号公報等に開示されたものがある。
【0020】
本発明において使用する軸力部材2としては、断面円形又は矩形の鋼管、H形鋼等であるが、少なくとも座屈拘束ブレース1の接合端部の断面形状を、座屈拘束ブレース1の座屈拘束材8の断面形状と同じ断面形状とする。前記のように構成することにより、座屈拘束ブレース1と軸力部材2を連結する2つに分割されたカバー部材11による接合が容易になる。
【0021】
本発明において、座屈拘束ブレース1と軸力部材2を直列に接合して長尺座屈拘束ブレースとする際、座屈拘束ブレース1の軸力芯材4の降伏軸力に対して、軸力部材2の圧縮軸耐力をより大きいものとすることにより、座屈拘束ブレース1の軸力芯材4の降伏を、軸力部材2よりも先行させるようにする。
【0022】
【発明の効果】
本発明の構成により、長尺ブレース部材を複数のブレース材に分割できるので、製作および輸送の簡便化を図ることができる。
また、直列に複数のブレース材を、連結部材とカバー部材とによる繋ぎ材で接合して構成される長尺ブレース部材は、少なくとも1つを座屈拘束部材を設けた座屈拘束ブレース材とすることにより、部材としての圧縮軸耐力・引張軸耐力が座屈拘束部材を設けた座屈拘束ブレース材と同等になるので、部材の剛性および耐力の調整が容易となり、部材の最適化を図ることができる。
さらに、座屈拘束材を設けた座屈拘束ブレース材と座屈拘束部材を持たない軸力部材を、連結部材とカバー部材とによる繋ぎ材で接合して構成される長尺ブレース部材は、各々の長さおよび断面を変化させることによって、部材の軸剛性、座屈耐力を自由に調整することができる。
また、ブレース材の接合部は、軸力のみを伝達し、座屈に対しては、夫々のブレース材の接合端部外周間を連結するカバー部材が抵抗するため、ブレース材の接合部の曲げ剛性を考慮する必要がない。
【図面の簡単な説明】
【図1】 本発明の実施例1に係る長尺座屈拘束ブレースの斜視図
【図2】 本発明の実施例2に係る長尺座屈拘束ブレースの平面図
【図3】 本発明の実施例4に係る長尺座屈拘束ブレースの平面図
【図4】 本発明の実施例3に係る長尺座屈拘束ブレースの平面図
【図5】 本発明の座屈拘束ブレースの一例を示す断面図
【図6】 図5のA―A断面図
【図7】 図5のB―B断面図
【符号の説明】
1:座屈拘束ブレース
2:軸力部材
3:長尺座屈拘束ブレース
4:軸力芯材
5:連結部
6:鋼管
7:コンクリート
8:座屈拘束材
9:軸力部材の連結部
10:連結部材
11:カバー部材
12:繋ぎ材
13:長尺座屈拘束ブレース
14:長尺座屈拘束ブレース
15:長尺座屈拘束ブレース
16:鋼製リブプレート
17:変形吸収用弾性材[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a brace material used for a steel structure such as a building.
[0002]
[Prior art]
In general, a brace material is used as a member for increasing the strength of a shaft by being obliquely stretched on a shaft structure composed of columns and beams and joining both ends to the columns or beams. With the aim of improving the seismic strength of this brace material, a buckling restraint material formed by combining steel or concrete or a combination of these around the core excluding both ends of the core made of steel plate or section steel is used for the core material and the buckling restraint member. A plurality of buckling-restrained braces have been proposed that absorb energy due to axial deformation of the core material with the contact surface being non-adhered. (For example, JP-A-10-280559, JP-A-10-306498, JP-A-2000-144900, etc.)
[0003]
[Problems to be solved by the invention]
In a buckling restrained brace, when used as an earthquake-resistant element such as a large space building, the length becomes long and it is difficult to manufacture and transport. Even in a brace that does not have a buckling restraining member, if the length is long, it is difficult to manufacture and transport, and the cross-sectional area and rigidity are increased because the compression shaft strength is increased, which is uneconomical. It is often a design. If the braces are divided and joined in series to avoid the length of the brace material being long, the manufacturing and transport problems can be solved, but the rigidity evaluation of the joints and the bending rigidity evaluation of the members are possible.・ Calculation of compressive shaft strength is difficult, and it is difficult to design with the optimal cross section, which often results in uneconomical design.
[0004]
An object of this invention is to solve the problem which the conventional brace material has.
[0005]
[Means for solving problems]
In order to solve the above-described problems, the first invention is a buckling-restrained axial force material in which a steel material, concrete, or a combination thereof is provided around an axial force core material that is a steel plate or a shape steel that is a core or a combination thereof. When connecting a buckling-restrained brace formed with a buckling-restraining material and an axial force member without a buckling-restraining material in series, the buckling-restraining material and the axial-strength member of the buckling-restraining brace are connected between the two. rigidly against bending, it is constructed integrally by joining with ties having a function of connecting the axial force core material and the axial force member buckling restrained brace rigidly relative axial force, and the connecting The material connects the connecting portion formed at the joining end portion of the axial force core material of the buckling-restrained brace and the connecting portion formed at the joining end portion of the axial force member by the connecting member, and the buckling-restrained brace seat Contact between the outer periphery of the joint end of the bending restraint and the axial force member Wherein the outer periphery of the end portion is configured to be coupled with the cover member.
[0006]
According to the second aspect of the present invention, in the buckling-restrained axial force material, a buckling-restraining material formed by combining a steel material, concrete, or a combination thereof is provided around a core steel plate, a shaped steel, or a combination of these. When connecting the buckling-restrained braces in series, a connection that has the function of connecting the buckling-restraining materials rigidly to bending between the two and the axial core members rigidly connecting to the axial force. The connecting members are connected to each other by connecting members formed at the joint ends of the axial force core members of the buckling-restrained brace using a connecting member. The outer peripheries of the joining end portions of the buckling restraining material are connected by a cover member .
[0007]
According to the third aspect of the present invention, in the buckling-restrained axial force material, a buckling-restraining material formed by combining steel material, concrete, or a combination thereof is provided around the core steel plate, the shape steel, or the axial force core material that is a combination thereof. The first buckling restraint brace and the one end portion of the axial force member not having the buckling restraint material are rigidly bent against the bending of the buckling restraint material and the axial force member of the first buckling restraint brace. And connecting the axial force core material of the first buckling-restraining brace and the axial force member in series with a first connecting member having a function of rigidly connecting to the axial force, and connecting the other end of the axial force member And a second buckling-restrained brace provided with a buckling-restraining material formed by combining steel, concrete, or a combination thereof around a core steel plate or section steel, or an axial force core material that is a combination thereof. The buckling restraint material of the second buckling restraint brace A function of rigidly connecting the other end portion of the axial force member with respect to the bending, and rigidly connecting the axial force core member of the second buckling restraint brace and the other end portion of the axial force member with respect to the axial force. A connecting portion formed by joining and integrating in series with a second connecting member having the first connecting member and the second connecting member formed at the joint end of the axial force core member of the buckling restraint brace; The connecting portion formed at the joining end portion of the axial force member is connected by the connecting member, and the outer periphery of the joining end portion of the buckling restraining material of the buckling restraint brace and the outer periphery of the joining end portion of the axial force member are covered by the cover member. It is set as the structure connected .
[0008]
The fourth invention is a buckling-restrained axial force material in which a first axial force member that does not have a buckling-restraining material, a steel plate or a section steel that is a core, or a steel material around an axial force core material that is a combination thereof. Or, one end portion of a buckling restraint brace formed by providing a buckling restraint material formed of concrete or a combination thereof, and bending the buckling restraint material of the buckling restraint brace and the first axial force member Rigidly joining one end of the axial force core member of the buckling-restraining brace and the first axial force member in series with a first connecting member having a function of rigidly connecting to the axial force, the seat The other end portion of the buckling restraint brace and the second axial force member having no buckling restraint material are made rigid with respect to the bending of the buckling restraint material of the buckling restraint brace and the second axial force member. The function of rigidly connecting the axial force core member of the buckling restrained brace and the second axial force member to the axial force. One second joined in series tether is configured integrally to, and the first and second of each connecting member is a connecting portion formed in the joint end portion of the axial force the core material of the buckling-restrained braces The connecting portion formed at the joining end portion of the axial force member is connected by the connecting member, and the outer periphery of the joining end portion of the buckling restraining material of the buckling restraint brace and the outer periphery of the joining end portion of the axial force member are covered by the cover member. It is set as the structure connected .
[0009]
The fifth invention is a buckling-restrained axial force member according to any one of the first to fourth inventions, wherein the compression shaft is more excessive than the yield axial force of the axial force core material of the buckling-restraining brace. By combining an axial force member that does not have a buckling constraining material having proof stress, yielding of the axial force core material constrained by buckling is preceded.
[0010]
According to a sixth aspect of the present invention, in the buckling-restrained axial force material according to any one of the first to fifth aspects of the invention, the steel pipe and the inside thereof are filled as a buckling-restraining material for the axial force core material of the buckling-restrained brace. A concrete is used, and a cushioning material for preventing axial force transmission between the axial force core material and the buckling restraint material is inserted between the axial force core material and the concrete.
[0011]
The seventh aspect of the present invention is the buckling-restrained axial force member according to any one of the first to sixth aspects of the present invention, wherein the cross-section is made of an H-shaped steel material, a steel plate or a steel plate as the axial force core material of the buckling-restrained brace. A cross-section steel material is used, and a buckling restraint material formed by combining a steel pipe or concrete or a combination thereof is used as the buckling restraint material .
[0012]
In the eighth aspect of the present invention, in the buckling-restrained axial force member of any one of the first to seventh aspects of the invention, the cross-sectional shape of the joint end portion of the axial force member that does not have the buckling-restraining member is The cross-sectional shape is the same as the cross-sectional shape of the brace buckling restraint material.
[0013]
[Action]
According to the configuration of the present invention, the long brace member can be divided into a plurality of brace members, so that the manufacture and transportation can be simplified.
Further, a long brace member constituted by joining a plurality of brace members in series with a connecting member and a cover member is a buckling restrained brace member provided with a buckling restraining member. As a result, the compression shaft strength / tensile shaft strength as a member is equivalent to that of a buckling-restrained brace material provided with a buckling-restraining member, making it easy to adjust the rigidity and proof strength of the member, and to optimize the member Can do.
[0014]
Further, the axial force member with no buckling-restrained brace and buckling restraint member provided with buckling restraint member, connecting member and the cover member and configured elongated brace member are joined by ties by the By changing the length and cross section of each member, the axial rigidity and buckling strength of the member can be freely adjusted.
In addition, the brace material joint transmits only the axial force, and the bending of the joint of the brace material resists buckling because the cover member connecting the outer periphery of the joint end of each brace material resists. There is no need to consider rigidity.
[0015]
DETAILED DESCRIPTION OF THE INVENTION
An embodiment of the present invention will be described with reference to the drawings.
<Example 1>
FIG. 1 shows a long seat according to a first embodiment of the present invention in which a buckling-restraining brace 1 provided with a buckling-restraining material and an axial force member 2 having no buckling-restraining material are joined in series with a connecting material. It is a perspective view of the bending restraint brace 3. FIG. The buckling-restraining brace 1 of this embodiment has a connecting portion 5 formed at both ends of an axial force core 4 made of a steel plate, a shape steel, or a combination thereof, and the outer periphery excluding the both ends connecting portion 5 of the axial force core 4. A shock absorbing material (unbonded material) is attached to the steel tube 6 and the axial force core material 4 is disposed in the steel pipe 6 so that the connecting portions 5 at both ends thereof protrude, and the concrete 7 is placed in the gap between the axial force core material 4 and the steel pipe 6. The contact surface between the axial force core material 4 and the concrete 7 is not adhered, and the steel pipe 6 and the concrete 7 constitute the buckling restraint material 8. The axial force member 2 is made of a steel pipe, a shape steel or the like and does not have a buckling restraining material. Connecting portions 9 are formed at both ends of the axial force member 2. One connecting portion 5 of the axial force core member 4 of the buckling restrained brace 1 and one connecting portion 9 of the axial force member 2 are connected by a connecting member 10. The buckling restraint brace 1, the axial force member 2, and the joint portion by the connecting member 10 transmit only the mutual axial force. Between the outer periphery of the joining end of the steel pipe 6 as the buckling restraining material 8 of the buckling restraining brace 1 and the outer periphery of the joining end of the axial force member 2, the cover members 11 and 11 divided into two are arranged and welded. It joins by the fixing means, such as. The joint portion by the cover member 11 resists bending stress. The connecting member 10 and the cover member 11 constitute the connecting material 12 of the present invention.
[0016]
<Example 2>
FIG. 2 is a plan view of a long buckling restraint brace 13 of Example 2 of the present invention configured by joining buckling restraint braces 1 having a buckling restraint member 8 in series with a connecting member 12. In the second embodiment, the connecting portion 5 at one end of the axial force core member 4 of one buckling restraint brace 1 having the buckling restraint member 8 and the shaft of the other buckling restraint brace 1 having the buckling restraint member 8 are used. The connecting member 5 is connected to the connecting portion 5 at one end of the force core material 4. The joint portion between the buckling restrained braces 1 by the connecting member 10 transmits only the mutual axial force. Between the outer periphery of the joint end portion of the steel pipe 6 as the buckling restraint member 8 of the one buckling restraint brace 1 and the outer periphery of the joint end portion of the steel tube 6 as the buckling restraint member 8 of the other buckling restraint brace 1. The cover members 11 and 11 divided into two parts are arranged and joined by fixing means such as welding. The joint portion by the cover member 11 resists bending stress. The connecting member 10 and the cover member 11 constitute the connecting material 12 of the present invention.
[0017]
<Example 3>
FIG. 4 shows a first buckling restraint brace 1 having a buckling restraint 8, an axial force member 2 not having a buckling restraint 8, and a second buckling restraint brace 1 having a buckling restraint 8. It is a top view which shows the elongate buckling restraint brace 14 of Example 3 of this invention comprised by joining with the connecting material 12 in series. In this embodiment, a connecting portion 5 at one end of the axial force core member 4 of the first buckling-restraining brace 1 having a buckling restricting member 8 and one connecting portion 9 of the axial force member 2 are connected by a connecting member 10. The joint portion between the first buckling restraint brace 1 and the axial force member 2 by the connection member 10 transmits only the mutual axial force. The cover members 11 and 11 divided into two are arranged between the outer periphery of the joining end portion of the steel pipe 6 as the buckling restraining material 8 of the first buckling restraining brace 1 and the outer periphery of the joining end portion of the axial force member 2. Then, they are joined by fixing means such as welding. The joint portion by the cover member 11 resists bending stress. The connecting member 10 and the cover member 11 constitute a tether 1 2 of the present invention. The connecting portion 9 at the other end of the axial force member 2 and the connecting portion 5 of the axial force core member 4 of the second buckling restraint brace 1 are connected by a connecting member 10, and the second buckling by the connecting member 10. The joint portion of the restraining brace 1 and the axial force member 2 transmits only the mutual axial force. The cover members 11 and 11 divided into two are arranged between the outer periphery of the joining end of the steel pipe 6 as the buckling restraining material 8 of the second buckling restraining brace 1 and the outer periphery of the joining end of the axial force member 2. Then, they are joined by fixing means such as welding. The joint portion by the cover member 11 resists bending stress.
[0018]
<Example 4>
FIG. 3 shows a first axial force member 2 that does not have a buckling restraint 8, a buckling restraint brace 1 that has a buckling restraint 8, and a second axial force member 2 that does not have a buckling restraint 8. It is a top view which shows the elongate buckling restraint brace 15 of Example 4 of this invention comprised by joining with the connecting material 12 in series. In this embodiment, the connecting portion 9 of the first axial force member 2 and the connecting portion 5 at one end of the axial force core member 4 of the buckling restraint brace 1 having the buckling restraint member 8 are connected by the connecting member 10. The joint between the first axial force member 2 and the buckling restrained brace 1 by the connecting member 10 transmits only the mutual axial force. The cover member 11 divided into two is arrange | positioned between the joining end part outer periphery of the 1st axial force member 2, and the joining end part outer periphery of the steel pipe 6 of the buckling restraint brace 1, and fixing means, such as welding To join. The joint portion by the cover member 11 resists bending stress. The connecting portion 5 at the other end of the axial force core member 4 of the buckling restrained brace 1 and the connecting portion 9 of the second axial force member 2 are connected by a connecting member 10, and a second axial force by the connecting member 10 is obtained. The joint between the member 2 and the buckling restrained brace 1 transmits only the mutual axial force. A cover member 11, 11 divided into two is arranged between the outer periphery of the joint end of the second axial force member 2 and the outer periphery of the joint end of the steel pipe 6 of the buckling restraint brace 1, and fixing means such as welding To join. The joint portion by the cover member 11 resists bending stress.
[0019]
An example of the buckling restrained brace 1 used in the present invention will be described with reference to FIGS. 5 to 7, an axial force core material 4 made of a strip-shaped steel plate is inserted into a steel pipe 6 having a quadrangular cross section, and at the center in the width direction at both ends of the axial force core material 4. Steel rib plates 16 for preventing plastic buckling of the end portion of the axial force core material 4 are fixed to both surfaces by welding, and the axial force core material 4 and one end portion of the axial force core material 4 in the longitudinal direction are fixed. An adhesion preventing film 17 made of a mold release agent, oil paint, asphalt or the like is applied and formed on a portion of the rib plate 16 fixed to the steel pipe 6 and the steel pipe 6 is filled with concrete 7, The buckling constraining material 8 is constituted by the concrete 7 and the steel pipe 6, and the connecting portion 5 having bolt insertion holes at both ends of the axial force core material 4 and the rib plate 16 protruding from the steel pipe 6 is constituted. Is. Other examples of the buckling restrained brace 1 include Japanese Patent Laid-Open Nos. 10-306498, 10-280559, 2000-144900, 2002-88910, and 11- Some are disclosed in Japanese Patent Application Publication No. 29978, Japanese Patent Application Laid-Open No. 11-36444, Japanese Patent Application Laid-Open No. 2000-21320, and the like.
[0020]
The axial force member 2 used in the present invention is a steel pipe having a circular or rectangular cross section, an H-shaped steel, or the like, but at least the cross-sectional shape of the joint end of the buckling constraining brace 1 is the buckling of the buckling constraining brace 1. The cross-sectional shape is the same as the cross-sectional shape of the restraining material 8. By comprising as mentioned above, joining by the cover member 11 divided | segmented into two which connects the buckling restraint brace 1 and the axial force member 2 becomes easy.
[0021]
In the present invention, when the buckling-restrained brace 1 and the axial force member 2 are joined in series to form a long buckling-restrained brace, the axial force core 4 of the buckling-restraining brace 1 has a shaft with respect to the yield axial force. by the compression axis strength of the force member (2) and the larger ones, the yield of the axial force the core 4 of the buckling-restrained braces 1, so that prior to causing than axial force member 2.
[0022]
【The invention's effect】
According to the configuration of the present invention, the long brace member can be divided into a plurality of brace members, so that the manufacture and transportation can be simplified.
Further, a long brace member constituted by joining a plurality of brace members in series with a connecting member and a cover member is a buckling restrained brace member provided with a buckling restraining member. As a result, the compression shaft strength / tensile shaft strength as a member is equivalent to that of a buckling-restrained brace material provided with a buckling-restraining member, making it easy to adjust the rigidity and proof strength of the member, and to optimize the member Can do.
Further, the axial force member with no buckling-restrained brace and buckling restraint member provided with buckling restraint member, connecting member and the cover member and configured elongated brace member are joined by ties by the By changing the length and cross section of each member, the axial rigidity and buckling strength of the member can be freely adjusted.
In addition, the brace material joint transmits only the axial force, and the bending of the joint of the brace material resists buckling because the cover member connecting the outer periphery of the joint end of each brace material resists. There is no need to consider rigidity.
[Brief description of the drawings]
FIG. 1 is a perspective view of a long buckling restrained brace according to Embodiment 1 of the present invention. FIG. 2 is a plan view of a long buckling restrained brace according to Embodiment 2 of the present invention. section showing an example of a buckling restraint brace embodiments plan view of the elongate buckling restrained brace according to 3 [5] the present invention of a plan view of a long buckling restrained brace [4] the present invention according to example 4 FIG. 6 is a cross-sectional view taken along the line AA in FIG. 5. FIG. 7 is a cross-sectional view taken along the line BB in FIG.
1: Buckling restraint brace 2: Axial force member 3: Long buckling restraint brace 4: Axial force core material 5: Connection part 6: Steel pipe 7: Concrete 8: Buckling restraint material 9: Connection part of axial force member 10 : Connecting member 11: Cover member 12: Tie 13: Long buckling restrained brace 14: Long buckling restrained brace 15: Long buckling restrained brace 16: Steel rib plate 17: Elastic material for deformation absorption
Claims (8)
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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JP2002173862A JP3875924B2 (en) | 2002-06-14 | 2002-06-14 | Long buckling restraint brace |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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JP2002173862A JP3875924B2 (en) | 2002-06-14 | 2002-06-14 | Long buckling restraint brace |
Publications (2)
Publication Number | Publication Date |
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JP2004019195A JP2004019195A (en) | 2004-01-22 |
JP3875924B2 true JP3875924B2 (en) | 2007-01-31 |
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JP2002173862A Expired - Lifetime JP3875924B2 (en) | 2002-06-14 | 2002-06-14 | Long buckling restraint brace |
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JP2015178708A (en) * | 2014-03-19 | 2015-10-08 | 大和ハウス工業株式会社 | Joining structure of split type buckling restraining brace |
TWI564458B (en) * | 2014-08-08 | 2017-01-01 | 賴裕光 | The anchored-axially loaded energy dissipation element. |
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TWI414667B (en) * | 2010-07-05 | 2013-11-11 | Nat Applied Res Laboratories | Modular buckling system |
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JP5934033B2 (en) * | 2012-06-18 | 2016-06-15 | 大和ハウス工業株式会社 | Seismic reinforcement structure and method using compression braces |
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JP7336610B1 (en) * | 2023-02-13 | 2023-08-31 | 日鉄エンジニアリング株式会社 | buckling restraint brace |
JP7485843B1 (en) | 2023-09-20 | 2024-05-16 | 日鉄エンジニアリング株式会社 | Buckling Restrained Brace |
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2002
- 2002-06-14 JP JP2002173862A patent/JP3875924B2/en not_active Expired - Lifetime
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
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JP2015178708A (en) * | 2014-03-19 | 2015-10-08 | 大和ハウス工業株式会社 | Joining structure of split type buckling restraining brace |
TWI564458B (en) * | 2014-08-08 | 2017-01-01 | 賴裕光 | The anchored-axially loaded energy dissipation element. |
JP2018003535A (en) * | 2016-07-07 | 2018-01-11 | 株式会社横河住金ブリッジ | Division unit of buckling restriction brace, and buckling restriction brace |
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