JP2014134001A - Beam support structure of architectural structure - Google Patents

Beam support structure of architectural structure Download PDF

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JP2014134001A
JP2014134001A JP2013001828A JP2013001828A JP2014134001A JP 2014134001 A JP2014134001 A JP 2014134001A JP 2013001828 A JP2013001828 A JP 2013001828A JP 2013001828 A JP2013001828 A JP 2013001828A JP 2014134001 A JP2014134001 A JP 2014134001A
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beam support
building
support member
support structure
spherical
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JP5651198B2 (en
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Kingo Naito
勤伍 内藤
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YUNITEKKU KK
Unitec Corp
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YUNITEKKU KK
Unitec Corp
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Abstract

PROBLEM TO BE SOLVED: To provide an inexpensive beam support structure in which a plurality of functions such as an earthquake resistant function and a base isolation function or the earthquake resistant function and a vibration control function can be presented by a kind of beam support members.SOLUTION: A flexible beam support member (10) is formed by bundling a plurality of spring steel wires (11a). A lower end portion of the beam support member (10) is rigidly coupled to a foundation or downstairs beam (3) of an architectural structure, and an upper end portion of the beam support member (10) is connected to an upstairs beam (6) by a ball joint mechanism (12) so as to freely change a connection angle with respect to the upstairs beam (6). Preferably, a specific structure of the ball joint mechanism (12) is formed from a first joint member (21) including a spherical recess (21a) and a second joint member (22) including a spherical protrusion (22a) which is fitted to the spherical recess (21a) in a rotatable manner.

Description

本発明は、建築物の梁を支持する梁支持構造に関し、特に、地震対策がなされた柱として梁支持部材を用いる梁支持構造に関する。   The present invention relates to a beam support structure for supporting a beam of a building, and more particularly, to a beam support structure using a beam support member as a column for which an earthquake countermeasure is taken.

建築物の地震対策としては、周知のように耐震、制振及び免震構造がある。耐震構造は、たとえば補強金具あるいは補強板等により建築物の強度を高める構造であり(特許文献1等)、免震構造は、たとえば転がり部材あるいは空気層等により地面と建築物との間の振動伝達を断ち切る構造であり(特許文献2等)、制振構造は、建築物の振動をたとえばダンパーにより抑制する構造である(特許文献3等)。   As a well-known earthquake countermeasure for buildings, there are earthquake resistance, vibration control and seismic isolation structures. The seismic structure is a structure that enhances the strength of the building by, for example, reinforcing metal fittings or reinforcing plates (Patent Document 1, etc.), and the seismic isolation structure is a vibration between the ground and the building by, for example, a rolling member or an air layer The transmission is cut off (Patent Document 2, etc.), and the vibration control structure is a structure that suppresses the vibration of the building by, for example, a damper (Patent Document 3, etc.).

特開平11−050671号公報JP-A-11-050671 特開平11−315882号公報JP 11-315882 A 特開平11−350778号公報Japanese Patent Laid-Open No. 11-350778

前記いずれの地震対策構造も、製造及び設置に手間がかかると共に、部品コストが高くなるか、あるいは部品コストが廉価な場合は、耐震等の機能があまり期待できないことが多い。   In any of the above-mentioned earthquake countermeasure structures, it takes time to manufacture and install, and if the cost of parts becomes high or the cost of parts is low, it is often difficult to expect functions such as earthquake resistance.

本発明の目的は、一種類の梁支持部材により、耐震機能と免震機能、あるいは耐震機能と制振機能等、複数の機能を発揮させることができる、廉価な梁支持構造を提供するものである。また、建築物の各種仕様に合わせて簡単に梁支持部材の太さを変更できるようにすることも、本発明の目的の一つである。   An object of the present invention is to provide an inexpensive beam support structure that can exhibit a plurality of functions such as an earthquake resistance function and a seismic isolation function, or an earthquake resistance function and a vibration control function, by using a single type of beam support member. is there. Another object of the present invention is to make it possible to easily change the thickness of the beam support member according to various specifications of the building.

上記課題を解決するために本発明は、ばね鋼製の複数の線材を束ねることにより、撓み可能な梁支持部材を構成し、前記梁支持部材の下端部は、建築物の基礎又は下階の梁にリジットに結合され、前記梁支持部材の上端部は、球継手機構により、上階の梁に、該上階の梁に対する接続角度変更自在に接続されている。   In order to solve the above-mentioned problems, the present invention constitutes a beam support member that can be bent by bundling a plurality of wire rods made of spring steel, and the lower end portion of the beam support member is a foundation of a building or a lower floor The upper end of the beam support member is connected to the beam on the upper floor by a ball joint mechanism so that the connection angle with respect to the beam on the upper floor can be changed.

上記梁支持構造において、好ましくは、次の構成を採用する。   In the beam support structure, preferably, the following configuration is adopted.

(a)前記球継手機構は、球面凹部を有すると共に前記梁支持部材の上端部に設けられた第1継手部材と、前記球面凹部に回転可能に嵌合する球面凸部を有すると共に前記上階の梁に固着された第2の継手部材とから構成されている。 (A) The ball joint mechanism has a spherical concave portion and a first joint member provided at an upper end portion of the beam support member, and a spherical convex portion rotatably fitted in the spherical concave portion and the upper floor. And a second joint member fixed to the beam.

(b)前記球面凹部を有する第1の継手部材は、球芯を通るほぼ垂直な面により2分割されている。 (B) The first joint member having the spherical concave portion is divided into two by a substantially vertical surface passing through the spherical core.

(c)前記第1の継手部材が前記梁支持部材側に設けられている構造において、前記第1の継手部材には下方に延びる接続筒が一体に設けられており、該接続筒に、前記複数の線材の上端部が、筒心方向に一定距離移動可能に、嵌合接続されている。
(d)前記梁支持部材は、リング状の金属製拘束部材により束ねられている。拘束部材として、リング状の帯鋼あるいは鉄筋を使用することができる。
(C) In the structure in which the first joint member is provided on the beam support member side, the first joint member is integrally provided with a connection tube extending downward, and the connection tube includes The upper ends of the plurality of wires are fitted and connected so as to be movable by a certain distance in the cylinder center direction.
(D) The beam support member is bundled by a ring-shaped metal restraining member. A ring-shaped steel strip or a reinforcing bar can be used as the restraining member.

(e)前記梁支持部材は、螺旋状の拘束部材により束ねられている。螺旋状の拘束部材として、たとえば、鉄筋を使用することができる。 (E) The beam support member is bundled by a helical restraining member. As the helical restraining member, for example, a reinforcing bar can be used.

(1)複数のばね鋼製線材を束ねて梁支持部材を構成しているので、梁の支持強度が向上し、それにより耐震機能が向上すると共に、ばね鋼の弾性力により、制振機能も発揮させることができる。 (1) Since a beam support member is formed by bundling a plurality of spring steel wires, the support strength of the beam is improved, thereby improving the seismic resistance function, and the damping function is also provided by the elastic force of the spring steel. It can be demonstrated.

(2)複数の線材を束ねて梁支持部材を構成しているので、束ねる線材の本数を変更することにより、建築物の仕様に合わせて、簡単に梁支持部材の太さを変更し、これにより耐震強度を変更することができる。 (2) Since the beam support member is configured by bundling a plurality of wires, the thickness of the beam support member can be easily changed according to the specifications of the building by changing the number of wires to be bundled. The seismic strength can be changed.

(3)梁支持部材の下端部は、リジットに築物の基礎又は下階の梁にリジットに結合し、上端部は、球継手機構により、上階の梁に結合しているので、横方向の荷重を受けた時、梁支持部材の上端部にかかる変形荷重(応力)は、球継手機構の回動動作により吸収され、軽減され、これにより、耐久性がさらに向上する。 (3) The lower end of the beam support member is rigidly connected to the foundation of the building or the lower floor beam, and the upper end is connected to the upper floor beam by a ball joint mechanism. When the load is received, the deformation load (stress) applied to the upper end portion of the beam support member is absorbed and reduced by the turning operation of the ball joint mechanism, thereby further improving the durability.

(4)構成(a)によると、梁支持部材の上端部に前記球面凹部を有する第1の継手部材が設けられ、上階の梁に球面凸部を有する第2の継手部材が設けられているので、球面凹部と球面凸部の配置が上下逆の場合に比べ、梁の支持が安定する。 (4) According to the configuration (a), the first joint member having the spherical concave portion is provided at the upper end portion of the beam support member, and the second joint member having the spherical convex portion is provided on the upper floor beam. Therefore, the support of the beam is stabilized as compared with the case where the spherical concave portion and the spherical convex portion are arranged upside down.

(5)構成(b)によると、球面凹部を有する第1の継手部材が2分割構造であるので、球面凹部内への球面凸部の組み付けが、容易である。 (5) According to the configuration (b), since the first joint member having the spherical concave portion has a two-part structure, the spherical convex portion can be easily assembled into the spherical concave portion.

(6)構成(c)によると、下側の第1の継手部材には下方に延びる接続筒が設けられ、該接続筒内に、前記複数の線材の上端部が、筒心方向に一定距移動可能に、嵌合支持されているので、梁支持部材の組み付け時、梁の高さに応じて、前記移動可能距離内で、梁支持部材の全高を自動的に調節でき、梁支持部材の組み付けが容易である。 (6) According to the configuration (c), the lower first joint member is provided with a connecting tube extending downward, and the upper ends of the plurality of wire rods are provided in the connecting tube at a predetermined distance in the tube center direction. Because it is movably fitted and supported, the total height of the beam support member can be automatically adjusted within the movable distance according to the beam height when the beam support member is assembled. Easy to assemble.

(7)構成(d)及び(e)によると、リング状の帯鋼あるいは鉄筋、または螺旋状の鉄筋等よりなる拘束部材により、線材を束ねているので、施工中あるいは施工後に、梁支持部材がばらけることはなく、取り扱いが容易になると共に、強度低下を防ぐことができる。 (7) According to the constitutions (d) and (e), the wire support member is bundled by a restraining member made of a ring-shaped steel strip, a reinforcing bar, or a helical reinforcing bar. It is easy to handle and prevent strength from being lowered.

本発明の一実施の形態であって、建築物の補強用の柱として用いた梁支持部材の正面図である。It is one Embodiment of this invention, Comprising: It is a front view of the beam support member used as a pillar for reinforcement of a building. 図1のII-II断面図である。It is II-II sectional drawing of FIG. 図1の梁支持部材の上端部の拡大図である。It is an enlarged view of the upper end part of the beam support member of FIG. 図3のIV-IV断面図である。FIG. 4 is a sectional view taken along line IV-IV in FIG. 3. 第2の継手部材の平面図である。It is a top view of the 2nd joint member. 図3のVI-VI断面図である。It is VI-VI sectional drawing of FIG. 本発明の変形例であり、図1と同様の正面図である。It is a modification of this invention, and is a front view similar to FIG.

本発明の一実施形態を、図1乃至図6に基づいて説明する。図1は鉄骨造建築物の補強用の柱として梁支持部材を用いた例を示している。図1において、鉄骨造建築物は、捨てコンクリート1の上にこれと一体にコンクリート基礎2が形成されており、コンクリート基礎2の中にH鋼製の基礎梁(床梁)3が埋め込まれ、基礎梁3の上に複数本の鉄骨柱5が鉛直状態にリジットに立設されている。複数本の鉄骨柱5の上端部にH鋼製の梁6がリジットに連結されている。   An embodiment of the present invention will be described with reference to FIGS. FIG. 1 shows an example in which a beam support member is used as a reinforcing column for a steel structure building. In FIG. 1, in a steel structure building, a concrete foundation 2 is formed integrally with a discarded concrete 1, and an H steel foundation beam (floor beam) 3 is embedded in the concrete foundation 2. A plurality of steel columns 5 are erected on the foundation beam 3 in a vertical state. An H steel beam 6 is connected to the upper ends of the plurality of steel columns 5 in a rigid manner.

鉄骨柱5の近傍に、補強用の柱として梁支持部材10が鉛直状態に配置されている。梁支持部材10は、複数本(たとえば数百本)のばね鋼製の線材11aを複数の帯鋼11bで束ねてなる円柱状の線材結束体11と、ステンレス鋼等の金属製の上側接続筒13と、ステンレス鋼等の金属製の下側接続筒14と、から構成されている。下側接続筒14は基礎梁3にリジットに接続されている。一方、上側接続筒13は、球継手機構12を介して、上側の梁6に接続されており、球継手機構12の屈曲動作により、梁6に対する梁支持部材10の接続角度が変更自在となっている。ばね鋼製の線材11aの線径は、たとえば1mm乃至12mmφ程度のものが使用される。勿論、このような線径の線材に限定されるものではない。   In the vicinity of the steel column 5, a beam support member 10 is arranged in a vertical state as a reinforcing column. The beam support member 10 includes a cylindrical wire bundle 11 formed by bundling a plurality of (for example, several hundred) spring steel wires 11a with a plurality of steel strips 11b, and an upper connecting tube made of metal such as stainless steel. 13 and a lower connecting tube 14 made of metal such as stainless steel. The lower connection cylinder 14 is rigidly connected to the foundation beam 3. On the other hand, the upper connection cylinder 13 is connected to the upper beam 6 via the ball joint mechanism 12, and the connection angle of the beam support member 10 to the beam 6 can be changed by the bending operation of the ball joint mechanism 12. ing. The wire diameter of the spring steel wire 11a is, for example, about 1 mm to 12 mmφ. Of course, the wire is not limited to such a wire diameter.

図2は図1のII-II断面図であり、下側接続筒14は、基礎梁3の上方から、基礎梁3の上壁部3aの貫通孔及びウエブ3bの切欠き内に挿通され、下壁部3cの上面に至り、溶接により基礎梁3に固着されている。下側接続筒14は、基礎梁3と共に基礎コンクリート2内に埋め込まれているが、下側接続筒14の上端部は、基礎コンクリート2の上面から上方に突出している。また、下側接続筒14の上半部の外周面には、複数枚の金属補強板15が周方向に等間隔を置いて固着されており、各金属補強板15は、溶接により基礎梁3の上壁部3aに固着されている。   2 is a cross-sectional view taken along the line II-II in FIG. 1, and the lower connecting tube 14 is inserted from above the foundation beam 3 into the through hole of the upper wall portion 3a of the foundation beam 3 and the cutout of the web 3b. It reaches the upper surface of the lower wall portion 3c and is fixed to the foundation beam 3 by welding. The lower connection cylinder 14 is embedded in the foundation concrete 2 together with the foundation beam 3, but the upper end portion of the lower connection cylinder 14 protrudes upward from the upper surface of the foundation concrete 2. A plurality of metal reinforcing plates 15 are fixed to the outer peripheral surface of the upper half portion of the lower connecting cylinder 14 at equal intervals in the circumferential direction, and each metal reinforcing plate 15 is welded to the base beam 3 by welding. Is fixed to the upper wall 3a.

線材結束体11の下端部は、下側接続筒14内に上方から挿入され、基礎梁3の下壁部3cの上面まで至っており、下側接続筒14内に注入されたグラウト材により、下側接続筒14に固着されている。   The lower end portion of the wire bundle 11 is inserted into the lower connection tube 14 from above and reaches the upper surface of the lower wall portion 3c of the foundation beam 3. The grout material injected into the lower connection tube 14 The side connection cylinder 14 is fixed.

線材結束体11の上端部は、上側接続筒13内に、一定距離だけ筒芯方向(上下方向)移動可能に嵌合接続されている。   The upper end portion of the wire bundle 11 is fitted and connected in the upper connecting cylinder 13 so as to be movable in the cylinder core direction (vertical direction) by a certain distance.

図3は、球継手機構12及び上側接続筒13の拡大正面図、図4及び図6は、それぞれ図3のIV-IV及びVI-VI断面図、図5は、上側の第2の継手部材22の平面図である。図3において、球継手機構12は、球面凹部21aを有する第1の継手部材21と、球面凸部22aを有する前記第2の継手部材22とから構成されており、球面凸部22aは球面凹部21a内にほぼ全方向に回転自在に嵌合している。なお、球面凹部21a内にグリース等の潤滑剤を塗布する場合もある。   3 is an enlarged front view of the ball joint mechanism 12 and the upper connecting cylinder 13, FIGS. 4 and 6 are sectional views taken along lines IV-IV and VI-VI in FIG. 3, respectively, and FIG. 5 is an upper second joint member. 22 is a plan view of 22. FIG. In FIG. 3, the ball joint mechanism 12 is composed of a first joint member 21 having a spherical concave portion 21a and the second joint member 22 having a spherical convex portion 22a. The spherical convex portion 22a is a spherical concave portion. It fits in 21a so as to be rotatable in almost all directions. In some cases, a lubricant such as grease may be applied to the spherical recess 21a.

上側接続筒13の上面にはベース板23が溶接により固着されており、該ベース板23の上面に、球継手機構12の第1の継手部材21が、複数のボル25により固着されている。   A base plate 23 is fixed to the upper surface of the upper connecting cylinder 13 by welding, and a first joint member 21 of the ball joint mechanism 12 is fixed to the upper surface of the base plate 23 by a plurality of bolts 25.

図4において、下側の第1の継手部材21は、球芯O1を通る垂直面D1により2分割された構造となっており、両分割ピース21d、21dは、一対のボルト26及び一対のナット27により結合されている。   In FIG. 4, the lower first joint member 21 has a structure divided into two by a vertical surface D1 passing through the spherical core O1, and the two divided pieces 21d and 21d include a pair of bolts 26 and a pair of nuts. 27.

図6において、球面凸部22aを有する上側の第2の継手部材22は、上端に円板状のフランジ部22bを一体に有しており、該フランジ部22bは上階のH鋼製の梁6の下壁部に、複数のボルト30及びナット31により固着されている。   In FIG. 6, the upper second joint member 22 having the spherical convex portion 22a integrally has a disk-like flange portion 22b at the upper end, and the flange portion 22b is an upper steel beam made of H steel. A plurality of bolts 30 and nuts 31 are fixed to the lower wall portion of 6.

図5は、第2の継手部材22のフランジ部22bが円板状であることを明確にしている。   FIG. 5 clarifies that the flange portion 22b of the second joint member 22 has a disk shape.

上記構成による梁支持部材10は、自然状態ではばね鋼の復元力により鉛直方向に延びる直線状に維持されており、所定以上の水平方向の揺れあるいは荷重に対し、ばね鋼製の線材11a自体の弾性変形範囲内で撓むと共に、球面凹部21aと球面凸部22aが相対的に回転することにより、球継手機構12が屈曲する。揺れが終わり、あるいは横荷重が取り除かれると、元の直線状態に復元する。   The beam support member 10 having the above-described configuration is maintained in a straight line extending in the vertical direction by the restoring force of the spring steel in a natural state, and the spring steel wire 11a itself is subjected to a horizontal swing or load of a predetermined level or more. While bending within the elastic deformation range, the spherical concave portion 21a and the spherical convex portion 22a rotate relatively, whereby the ball joint mechanism 12 is bent. When the shaking ends or the lateral load is removed, the original straight state is restored.

図2において、地震が発生した場合、補強用柱として立設された梁支持部材10は、既存の鉄骨柱5の強度を補強するので、建築物の耐震機能を向上させることができるのは勿論のこと、水平方向の揺れに対しては、ばね鋼製線材11aの弾性機能により、水平方向に撓み、また、上端の球継手機構12の屈強作用により、梁支持部材10にかかる横荷重(応力)を軽減する。その後、鉛直姿勢に復元するので、水平方向の揺れに対しても高い制振機能及び免震機能を発揮でき、揺れによる建築物の破壊を防止する。   In FIG. 2, when an earthquake occurs, the beam support member 10 erected as a reinforcing column reinforces the strength of the existing steel column 5, so that it is possible to improve the earthquake resistance function of the building. For horizontal shaking, the lateral load (stress) applied to the beam support member 10 is deflected in the horizontal direction by the elastic function of the spring steel wire 11a and the bending action of the ball joint mechanism 12 at the upper end. ). After that, since it is restored to a vertical posture, it can exhibit a high damping function and seismic isolation function against horizontal shaking, and prevents the destruction of the building due to shaking.

図1及び図2に示す梁支持部材10は、建築物の仕様に応じて、線材結束体11を構成する線材11aの本数を変更し、それにより簡単に線材結束体11の直径(面積)を変更することができる。   The beam support member 10 shown in FIG.1 and FIG.2 changes the number of the wire 11a which comprises the wire binding body 11 according to the specification of a building, and makes the diameter (area) of the wire binding body 11 easy by it. Can be changed.

[変形例]
図7は本発明の変形例であり、線材11aを束ねる拘束部材11bとして、螺旋状の鉄筋を利用した構造である。その他の構造は、前記実施の形態と同様である。
[Modification]
FIG. 7 shows a modified example of the present invention, which has a structure using a helical rebar as the restraining member 11b for bundling the wire 11a. Other structures are the same as those in the above embodiment.

[その他の実施の形態]
本発明に係る梁支持部材が使用される建築物としては、木造家屋、鉄筋コンクリート造りの高層階ビル、鉄骨造り建築物の他に、プラント用建築物、鉄道、道路の効果用建築物等、各種建築物における梁支持構造に適用可能である。
[Other embodiments]
As a building in which the beam support member according to the present invention is used, there are various types of buildings such as a wooden building, a reinforced concrete high-rise building, a steel building, a plant building, a railway, a road effect building, etc. It can be applied to beam support structures in buildings.

2 コンクリート基礎
3 基礎梁
5 鉄骨柱
6 梁
10 梁支持部材
11 線材結束体
11a ばね鋼製線材
11b 帯鋼(拘束部材の一例)
12 球継手機構
13 上側接続筒
14 下側接続筒
21 第1の継手部材
21a 球面凹部
22 第2の継手部材
22a 球面凸部
2 Concrete foundation 3 Foundation beam 5 Steel column 6 Beam 10 Beam support member 11 Wire bundle 11a Spring steel wire 11b Band steel (an example of restraint member)
12 Ball joint mechanism 13 Upper connection cylinder 14 Lower connection cylinder 21 First joint member 21a Spherical concave portion 22 Second joint member 22a Spherical convex portion

上記課題を解決するために本発明は、ばね鋼製の複数の線材を束ねることにより、撓み可能な梁支持部材を構成し、前記梁支持部材の下端部は、建築物の基礎又は下階の梁にリジットに結合され、前記梁支持部材の上端部は、球継手機構により、上階の梁に、該上階の梁に対する接続角度が変更自在に接続されており、前記球継手機構は、球面凹部を有すると共に前記梁支持部材の上端部に設けられた第1の継手部材と、前記球面凹部にほぼ全方向に回転自在に嵌合する球面凸部を有すると共に前記上階の梁の下壁部分に固着された第2の継手部材とから構成されているIn order to solve the above-mentioned problems, the present invention forms a beam support member that can be bent by bundling a plurality of wire rods made of spring steel, and the lower end portion of the beam support member is formed on the foundation or lower floor of a building. The upper end of the beam support member is connected to the beam by a ball joint mechanism, and the connection angle with respect to the beam on the upper floor is variably connected to the upper floor beam by the ball joint mechanism. A first joint member provided at the upper end of the beam support member with a spherical recess, and a spherical protrusion that fits in the spherical recess so as to be rotatable in almost all directions, and below the upper floor beam. And a second joint member fixed to the wall portion .

(a)前記球面凹部を有する第1の継手部材は、球芯を通るほぼ垂直な面により2分割されている。 (A) The first joint member having the spherical concave portion is divided into two by a substantially vertical surface passing through the spherical core.

(b)前記第1の継手部材が前記梁支持部材側に設けられている構造において、前記第1の継手部材には下方に延びる接続筒が一体に設けられており、該接続筒に、前記複数の線材の上端部が、筒心方向に一定距離移動可能に、嵌合接続されている。 (B) In the structure in which the first joint member is provided on the beam support member side, the first joint member is integrally provided with a connection tube extending downward, and the connection tube includes The upper ends of the plurality of wires are fitted and connected so as to be movable by a certain distance in the cylinder center direction.

(c)前記梁支持部材は、リング状の金属製拘束部材により束ねられている。拘束部材として、リング状の帯鋼あるいは鉄筋を使用することができる。 (C) before Kihari support member are bundled by a ring-shaped metal restraining member. A ring-shaped steel strip or a reinforcing bar can be used as the restraining member.

(d)前記梁支持部材は、螺旋状の拘束部材により束ねられている。螺旋状の拘束部材として、たとえば、鉄筋を使用することができる。 (D) The beam support member is bundled by a helical restraining member. As the helical restraining member, for example, a reinforcing bar can be used.

(4)梁支持部材の上端部に前記球面凹部を有する第1の継手部材が設けられ、上階の梁に球面凸部を有する第2の継手部材が設けられているので、球面凹部と球面凸部の配置が上下逆の場合に比べ、梁の支持が安定する。 (4) Since the first joint member having the spherical concave portion is provided at the upper end of the beam support member and the second joint member having the spherical convex portion is provided at the upper floor beam, the spherical concave portion and the spherical surface are provided. The support of the beam is more stable than in the case where the protrusions are arranged upside down.

(5)構成(a)によると、球面凹部を有する第1の継手部材が2分割構造であるので、球面凹部内への球面凸部の組み付けが、容易である。 (5) According to the configuration (a) , since the first joint member having the spherical concave portion has a two-part structure, the spherical convex portion can be easily assembled into the spherical concave portion.

(6)構成(b)によると、下側の第1の継手部材には下方に延びる接続筒が設けられ、該接続筒内に、前記複数の線材の上端部が、筒心方向に一定距移動可能に、嵌合支持されているので、梁支持部材の組み付け時、梁の高さに応じて、前記移動可能距離内で、梁支持部材の全高を自動的に調節でき、梁支持部材の組み付けが容易である。 (6) According to the configuration (b) , the lower first joint member is provided with a connecting tube extending downward, and the upper ends of the plurality of wire rods are arranged at a predetermined distance in the tube center direction in the connecting tube. Because it is movably fitted and supported, the total height of the beam support member can be automatically adjusted within the movable distance according to the beam height when the beam support member is assembled. Easy to assemble.

(7)構成(c)及び(d)によると、リング状の帯鋼あるいは鉄筋、または螺旋状の鉄筋等よりなる拘束部材により、線材を束ねているので、施工中あるいは施工後に、梁支持部材がばらけることはなく、取り扱いが容易になると共に、強度低下を防ぐことができる。
(7) According to the configurations (c) and (d) , the wire support member is bundled by a restraining member made of a ring-shaped steel strip or reinforcing bar, or a spiral reinforcing bar. It is easy to handle and prevent strength from being lowered.

Claims (6)

ばね鋼製の複数の線材を束ねることにより、撓み可能な梁支持部材を構成し、
前記梁支持部材の下端部は、建築物の基礎又は下階の梁にリジットに結合され、
前記梁支持部材の上端部は、球継手機構により、上階の梁に、該上階の梁に対する接続角度が変更自在に接続されている、ことを特徴とする建築物の梁支持構造。
By bundling a plurality of spring steel wires, a flexible beam support member is constructed,
The lower end of the beam support member is rigidly coupled to the beam of the building foundation or lower floor,
A beam support structure for a building, wherein an upper end portion of the beam support member is connected to an upper floor beam by a ball joint mechanism so that a connection angle with the upper floor beam can be changed.
請求項1記載の建築物の梁支持構造において、
前記球継手機構は、球面凹部を有すると共に前記梁支持部材の上端部に設けられた第1継手部材と、前記球面凹部に回転可能に嵌合する球面凸部を有すると共に前記上階の梁に固着された第2の継手部材とから構成されている、建築物の梁支持構造。
The building beam support structure according to claim 1,
The spherical joint mechanism has a spherical concave portion and a first joint member provided at an upper end portion of the beam support member, a spherical convex portion rotatably fitted in the spherical concave portion, and a beam on the upper floor. A beam support structure for a building, which is composed of a fixed second joint member.
請求項1又は2に記載の建築物の梁支持構造において、
前記球面凹部を有する第1の継手部材は、球芯を通るほぼ垂直な面により2分割されている、建築物の梁支持構造。
In the beam support structure of the building of Claim 1 or 2,
The first joint member having the spherical concave portion is divided into two by a substantially vertical plane passing through the spherical core, and the building beam support structure.
請求項2又は3に記載の建築物の梁支持構造において、
前記球面凹部を有する第1の継手部材には、下方に延びる接続筒が一体に形成されており、
該接続筒内に、前記複数の線材の上端部が、筒心方向に一定距離移動可能に、嵌合接続されている、建築物の梁支持構造。
In the beam support structure of the building according to claim 2 or 3,
The first joint member having the spherical concave portion is integrally formed with a connecting tube extending downward.
A beam support structure for a building, wherein upper ends of the plurality of wire rods are fitted and connected in the connecting cylinder so as to be movable by a predetermined distance in the cylinder center direction.
請求項1乃至4のいずれか一つに記載の建築物の梁支持構造において、
前記梁支持部材は、リング状の金属製拘束部材により束ねられている、建築物の梁支持構造。
In the building beam support structure according to any one of claims 1 to 4,
The beam support member is a building beam support structure that is bundled by a ring-shaped metal restraining member.
請求項1乃至4のいずれか一つに記載の建築物の梁支持構造において、
前記梁支持部材は、螺旋状の拘束部材により束ねられている、建築物の梁支持構造。
In the building beam support structure according to any one of claims 1 to 4,
The beam support member is a building beam support structure in which the beam support member is bundled by a helical restraining member.
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CN106930590A (en) * 2016-09-21 2017-07-07 中国地震局工程力学研究所 New spatial network ball node device with damping function
CN111255119A (en) * 2020-01-19 2020-06-09 鞍钢中电建筑科技股份有限公司 Steel frame structure supporting device, steel frame structure and steel frame structure forming method
CN114892995A (en) * 2022-04-29 2022-08-12 中建三局第三建设工程有限责任公司 Installation method of drum joint, steel structure latticed shell and construction method of assembly unit of steel structure latticed shell
CN114991323A (en) * 2022-07-18 2022-09-02 中国建筑西南设计研究院有限公司 Anti-falling anti-seismic building ground anti-seismic joint device and structure
CN118390858A (en) * 2024-06-26 2024-07-26 安徽锐明建设集团股份有限公司 Repair component for ancient architecture and repair method thereof

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Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN106930590A (en) * 2016-09-21 2017-07-07 中国地震局工程力学研究所 New spatial network ball node device with damping function
CN111255119A (en) * 2020-01-19 2020-06-09 鞍钢中电建筑科技股份有限公司 Steel frame structure supporting device, steel frame structure and steel frame structure forming method
CN114892995A (en) * 2022-04-29 2022-08-12 中建三局第三建设工程有限责任公司 Installation method of drum joint, steel structure latticed shell and construction method of assembly unit of steel structure latticed shell
CN114892995B (en) * 2022-04-29 2023-08-08 中建三局第三建设工程有限责任公司 Drum node installation method, steel structure net shell and construction method of assembly unit of steel structure net shell
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CN114991323B (en) * 2022-07-18 2024-03-12 中国建筑西南设计研究院有限公司 Anti-falling anti-seismic floor anti-seismic joint device and structure
CN118390858A (en) * 2024-06-26 2024-07-26 安徽锐明建设集团股份有限公司 Repair component for ancient architecture and repair method thereof

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