JP2010070941A - Method and device for restraining horizontal force in base-isolating work - Google Patents

Method and device for restraining horizontal force in base-isolating work Download PDF

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JP2010070941A
JP2010070941A JP2008237807A JP2008237807A JP2010070941A JP 2010070941 A JP2010070941 A JP 2010070941A JP 2008237807 A JP2008237807 A JP 2008237807A JP 2008237807 A JP2008237807 A JP 2008237807A JP 2010070941 A JP2010070941 A JP 2010070941A
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foundation
seismic isolation
seismic
cylindrical
horizontal force
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JP5368040B2 (en
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Shunichi Yaginuma
俊一 柳沼
Michiro Uenaga
三千良 上長
Tatsuro Ishimaru
達朗 石丸
Takeshi Nishimura
剛 西村
Satoshi Iwamoto
聡 岩本
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Toda Corp
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Toda Corp
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Abstract

<P>PROBLEM TO BE SOLVED: To provide a method for restraining a horizontal force in base-isolating work, which enables a restraining force to be exerted in all directions by a simple constitution, and which can reduce the cost of members. <P>SOLUTION: In this method for restraining the horizontal force in the base-isolating work, a tubular earthquake-resisting plate 1 for being erected on a lower foundation 2 and an upper foundation 4 is formed in the base-isolating work of an existing building, and set on the lower foundation constructed during the base-isolating work; the upper foundation is constructed on the upper position of the lower foundation; after that, the tubular earthquake-resisting plate 1 is lifted upward from the lower foundation 2 and erected between the upper and lower foundations; subsequently, a grout material is infilled between the inside wall surface of the tubular earthquake-resisting plate 1 and the wall surfaces of the upper and lower foundations, so that they can be integrated together; and the existing building is restrained not to be displaced horizontally during earthquakes. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

本発明は、既存建物を免震化させる工事において、既存建物が地震等によって水平方向に移動しないように拘束する免震化工事における水平力拘束方法とその装置に関するものである。   The present invention relates to a horizontal force restraining method and apparatus for seismic isolation work for restraining an existing building from moving in the horizontal direction due to an earthquake or the like in a work for making the existing building seismic isolation.

従来、既存建物を免震化させる場合に、その免震化工事中に地震があった場合、前記既存建物が水平に移動しないように、拘束する必要があるので、地震時水平力の拘束方法としての従来例1は、既存建物の既存基礎と、その上の既存基礎梁との間に、耐力壁を構築し、耐力壁を養生した後に、既存基礎若しくは既存基礎梁の真下位置に別途構築した新設基礎と既存基礎梁との間に免震装置を設置し、この免震装置の取り付けが完了した後に、耐力壁を解体するという方法が知られている。また、従来例2として、図5に示すように、免震ピット内に設置する水平拘束材は、上下のコンクリート基礎にアンカーボルト等を設置して、鉄板等で両側から締め付けて固定する方法が知られている。この拘束材は、X方向とY方向とに設けられるものである。
特開2007−85021号公報
Conventionally, when an existing building is isolated, if there is an earthquake during the seismic isolation work, it is necessary to restrain the existing building so that it does not move horizontally. In conventional example 1, as a load bearing wall is constructed between the existing foundation of the existing building and the existing foundation beam above the existing foundation, and after the load bearing wall is cured, it is constructed separately under the existing foundation or the existing foundation beam. A method is known in which a seismic isolation device is installed between a newly-founded foundation and an existing foundation beam, and the bearing wall is disassembled after the installation of the seismic isolation device is completed. In addition, as shown in FIG. 5, as a conventional example 2, the horizontal restraint material installed in the seismic isolation pit is a method in which anchor bolts or the like are installed on the upper and lower concrete foundations and fastened from both sides with an iron plate or the like. Are known. This restraining material is provided in the X direction and the Y direction.
JP 2007-85021 A

しかし、従来の免震化工事における水平力拘束方法では、例えば、従来例1では耐力壁を構築するのに、コンクリート硬化までの時間が掛かり、免震化工事完了後の解体撤去工事に、狭いスペースでの工事なので手間が掛かるという課題がある。更に、解体したコンクリートブロックの廃棄にも、廃棄場所の確保とそこまでの運搬にも手間とコストが嵩むことになる。従来例2では、狭いピット内に多くの拘束材が設置されて、免震装置の取り付け工事に支障が出るとともに、点検やメンテナンス時にピット内空間を有効に使用することができないという課題がある。本発明に係る免震化工事における水平力拘束方法は、このような課題を解決するために提案されたものである。   However, in the conventional horizontal force restraint method in the seismic isolation work, for example, in the conventional example 1, it takes time to harden the concrete to construct the bearing wall, and it is narrow for the demolition removal work after the seismic isolation work is completed. There is a problem that it takes time and effort because it is a construction in space. Furthermore, both the disposal of the dismantled concrete block, the securing of the disposal place and the transportation up to that, the labor and cost increase. In Conventional Example 2, there are problems that many restraints are installed in a narrow pit, which hinders the installation work of the seismic isolation device and that the space in the pit cannot be used effectively during inspection and maintenance. The horizontal force restraining method in the seismic isolation work according to the present invention has been proposed in order to solve such a problem.

本発明に係る免震化工事における水平力拘束方法の上記課題を解決して目的を達成するための要旨は、既存建物の免震化工事において、下部基礎と上部基礎とに架設する筒状耐震プレートを形成し、前記免震工事中に構築した下部基礎に前記筒状耐震プレートをセットし、前記下部基礎の上位置に上部基礎を構築した後、前記筒状耐震プレートを前記下部基礎から上に持ち上げて前記上部・下部基礎の間に架設し、その後、この筒状耐震プレートの内側壁面と前記上部・下部基礎の壁面との間にグラウト材を充填して一体化し、前記既存建物が地震時において水平方向に移動しないように拘束することである。   The gist for solving the above-mentioned problems of the horizontal force restraint method in the seismic isolation work according to the present invention is to achieve the purpose of the cylindrical seismic resistance to be installed between the lower foundation and the upper foundation in the seismic isolation work of the existing building. After forming the plate, setting the cylindrical seismic plate on the lower foundation constructed during the seismic isolation work, and constructing the upper foundation above the lower foundation, the cylindrical seismic plate is moved up from the lower foundation. And then erected between the upper and lower foundations, and then the grout material is filled and integrated between the inner wall surface of the cylindrical seismic plate and the wall surfaces of the upper and lower foundations. It is restraining not to move in the horizontal direction at the time.

前記下部基礎と上部基礎との間の隙間にグラウト材が侵入しないように、前記隙間を構成する前記下部基礎と上部基礎との周囲壁面に、封止材が設けられること、;
免震化工事の完了後に、筒状耐震プレートを下部基礎側に押し下げ、上部・下部基礎と筒状耐震プレートとの間に充填させたグラウト材を撤去して、前記上部・下部基礎における水平方向の拘束を解除し、既存建物を免震化させること、;
前記筒状耐震プレートは、筒体の下部開口部から上部開口部に至って開口面積が拡大するようにテーパ状に形成されていること、;
前記筒状耐震プレートは、免震化工事の完了後に下部基礎側に押し下げられてそのまま維持されること、;
を含むものである。
A sealing material is provided on a peripheral wall surface of the lower foundation and the upper foundation constituting the gap so that a grout material does not enter the gap between the lower foundation and the upper foundation;
After the seismic isolation work is completed, the cylindrical seismic plate is pushed down to the lower foundation side, the grout material filled between the upper and lower foundations and the cylindrical seismic plate is removed, and the horizontal direction of the upper and lower foundations is removed. Removing the restriction of the building and making the existing building seismic isolation;
The tubular seismic plate is formed in a tapered shape so that the opening area is enlarged from the lower opening of the tubular body to the upper opening;
The cylindrical seismic plate is pushed down to the lower foundation after the seismic isolation work is completed;
Is included.

本発明に係る免震化工事における水平力拘束装置の要旨は、免震化工事をする既存建物に設けられた下部基礎の周囲を囲繞する大きさの剛性で一体的な筒体であって、この筒体の開口部を下位置から上位置に向けて拡開するようにテーパ状になっていることである。   The gist of the horizontal force restraint device in the seismic isolation work according to the present invention is a rigid and integral cylinder that surrounds the lower foundation provided in the existing building that performs the seismic isolation work, The opening of the cylinder is tapered so as to expand from the lower position toward the upper position.

本発明の免震化工事における水平力拘束方法によれば、筒状耐震プレートが水平方向の全方向において拘束力を発揮する。そして、一体的な筒体なので、地震の方向による水平拘束効果の差異が小さくバランスが良い。
従来の一方向用拘束部材の設置箇所に比較して、約半数の設置箇所で済むようになり、工期が短縮され、免震ピット内の空間を広く有効活用できる。
筒状の耐震プレートによってその筒体全体で水平力を拘束するので、従来のように鉄板とボルトとの剪断力のみで負担していた場合に比較して、鋼材料及びアンカーボルト等の使用量が削減されてコスト低減となる。
According to the horizontal force restraining method in the seismic isolation work of the present invention, the cylindrical seismic plate exhibits restraining force in all horizontal directions. And since it is an integral cylinder, the difference of the horizontal restraint effect by the direction of an earthquake is small, and its balance is good.
Compared to conventional one-way restraint member installation locations, approximately half of the installation locations are sufficient, the construction period is shortened, and the space in the seismic isolation pit can be used effectively.
Since the horizontal force is constrained by the cylindrical seismic plate as a whole, the amount of steel materials and anchor bolts used compared to the conventional case where only the shearing force between the steel plate and the bolt is used. Will be reduced and the cost will be reduced.

前記筒状耐震プレートは、上部開口に向かうに従って拡開してテーパ状になっているので、グラウト材の充填がし易く、また、この筒状耐震プレートを下に降ろす時も降ろしやすくなって作業能率が向上するものである。更に、この筒状耐震プレートを下に降ろした後は、そのまま置いておくので、撤去作業が簡略化され、後に再び使用することができる。
筒状耐震プレートは、グラウト材で基礎と一体にされるので、ボルトなどを使用して取り付けることがないので、取付作業に手間が掛からず大幅に作業が簡略化できる。
The cylindrical seismic plate expands and tapers toward the upper opening, so it is easy to fill with grout material, and when the cylindrical seismic plate is lowered, it is easy to lower. Efficiency is improved. Furthermore, since this cylindrical seismic plate is lowered, it is left as it is, so that the removal work is simplified and it can be used again later.
Since the cylindrical seismic plate is integrated with the foundation by a grout material, it is not attached using bolts, so that the installation work is not troublesome and the operation can be greatly simplified.

本発明に係る免震化工事における水平力拘束方法は、まず、図1に示すように、水平力拘束装置である筒状耐震プレート1を作成する。本発明に係る免震化工事における前記水平力拘束装置1は、免震化工事をする既存建物に設けられた下部基礎の周囲を囲繞する大きさの剛性で一体的な筒体1aであって、この筒体の上下の開口部1b,1cを下位置から上位置に向けて拡開するようにテーパ状になっていることである。   In the horizontal force restraining method in the seismic isolation work according to the present invention, first, as shown in FIG. 1, a cylindrical seismic plate 1 which is a horizontal force restraining device is created. The horizontal force restraint device 1 in the seismic isolation work according to the present invention is a rigid and integral cylindrical body 1a surrounding a lower foundation provided in an existing building to be seismically isolated. The upper and lower openings 1b and 1c of the cylindrical body are tapered so as to expand from the lower position toward the upper position.

前記筒体1aの大きさと、鉄板若しくは鋼材の板厚は、負担する水平力に適応する寸法とする。また、筒体1aの高さは、多くても下部基礎の高さとする。それ以上高いと、上部基礎を構築する際に、作業の邪魔となるからである。   The size of the cylindrical body 1a and the thickness of the steel plate or steel material are set to dimensions adapted to the horizontal force to be borne. The height of the cylinder 1a is at most the height of the lower foundation. If it is higher than that, it will interfere with the work when constructing the upper foundation.

前記筒体1aの上下の開口部1b,1cを下位置から上位置に向けて拡開するようにテーパ状になっているのは、グラウト材の充填及び除去作業を簡易にするものである。尚、このテーパ状の傾斜角度については、適宜設定されるものである。更に、筒体1aは、水平力拘束用の上部・下部の基礎の外径形状に合わせて形成されるものであって、通常は矩形状であり、円柱形状の基礎の場合には円柱状の形状となる。   The tapered shape so that the upper and lower openings 1b, 1c of the cylindrical body 1a are expanded from the lower position toward the upper position simplifies the grout filling and removal work. The tapered inclination angle is appropriately set. Further, the cylindrical body 1a is formed in accordance with the outer diameter shape of the upper and lower foundations for restraining the horizontal force, and is usually rectangular, and in the case of a cylindrical foundation, the cylindrical body is It becomes a shape.

上記筒状耐震プレート1を、免震化工事において、設置する前に予め形成しておく。図2(A)に示すように、既存建物の基礎部において、STEP−1で外周に山留め壁を構築し、内部土間コンクリートを撤去する。そして、STEP−2に示すように基礎梁まで掘削し、束壁を解体し、既存基礎下端まで掘削する。   The cylindrical seismic plate 1 is formed in advance before installation in seismic isolation work. As shown in FIG. 2 (A), in the foundation part of the existing building, a retaining wall is constructed on the outer periphery in STEP-1, and the internal soil concrete is removed. And as shown in STEP-2, it excavates to a foundation beam, a bundle wall is demolished, and it excavates to the existing foundation lower end.

次に、図2(B)に示すように、STEP−3でラップルコンクリートを打設して、既存の基礎を補強するとともに、擁壁を新設する。更に、STEP−4に示すように、ジャッキ設置用に柱を補強する。また、地下1階レベルに、梁・スラブを新設する。   Next, as shown in FIG. 2 (B), the concrete is laid in STEP-3 to reinforce the existing foundation and a new retaining wall. Furthermore, as shown in STEP-4, the column is reinforced for jack installation. In addition, new beams and slabs will be installed on the first basement level.

次に、図4(A)に示すように、前記免震装置を設置する予定の柱の近くで予定した位置において、下部基礎2を基礎梁の上に構築する。型枠を組んでコンクリートを打設して下部基礎2を構築した後に、予め形成しておいた前記筒状耐震プレート1を、前記下部基礎2にセットする。その後、図3(A)に示すように、STEP−5において、免震装置を設置する予定の既存の柱に四隅に、荷重を受けるジャッキを配置する。   Next, as shown in FIG. 4A, the lower foundation 2 is constructed on the foundation beam at a position planned near the column where the seismic isolation device is to be installed. After constructing the formwork and placing concrete to construct the lower foundation 2, the previously formed cylindrical earthquake-resistant plate 1 is set on the lower foundation 2. Thereafter, as shown in FIG. 3A, in STEP-5, jacks that receive loads are arranged at the four corners of an existing column where the seismic isolation device is to be installed.

次に、図4(A)に示すように、上述した前記STEP−4で新設した梁3において、前記下部基礎2の上に、間隔を開けて上部基礎4を構築する。上部基礎用の配筋を行った後に、型枠を組み、コンクリートを打設して養生し硬化させる。その後、型枠を撤去する。   Next, as shown in FIG. 4 (A), the upper foundation 4 is constructed on the lower foundation 2 with a gap in the beam 3 newly provided in the above STEP-4. After the bar arrangement for the upper foundation, the formwork is assembled, concrete is placed, cured and cured. Then the formwork is removed.

次に、図4(B)に示すように、前記下部基礎2にセットしておいた筒状耐震プレート1をジャッキ等で持ち上げて前記上部基礎4まで被せる。この筒状耐震プレート1を持ち上げた状態で支持部材で支持させておいて、この筒状耐震プレート1の内側壁面と前記上部・下部基礎4,2の壁面との間にグラウト材を充填する。これにより、前記筒状耐震プレート1を介して下部基礎2と上部基礎4とが一体化される。   Next, as shown in FIG. 4 (B), the cylindrical earthquake-resistant plate 1 set on the lower foundation 2 is lifted with a jack or the like to cover the upper foundation 4. The tubular seismic plate 1 is lifted and supported by a support member, and a grout material is filled between the inner wall surface of the tubular seismic plate 1 and the wall surfaces of the upper and lower foundations 4 and 2. Thereby, the lower foundation 2 and the upper foundation 4 are integrated through the cylindrical earthquake-resistant plate 1.

尚、筒状耐震プレート1の下部開口部1bは、下部基礎2の外径寸法よりも若干大きい寸法であって、グラウト材が漏れでない程度の隙間に設定される。また、図4(D)に示すように、下部基礎2と上部基礎4との間の間隙6に、グラウト材が侵入しないように、前記隙間4を構成する前記下部基礎2と上部基礎4との周囲壁面に、封止材5が設けられる。この封止材5は、テープでも良いし、詰め物であっても良い。   The lower opening 1b of the cylindrical seismic plate 1 is set to a size that is slightly larger than the outer diameter of the lower foundation 2 and is such that the grout material does not leak. Further, as shown in FIG. 4D, the lower foundation 2 and the upper foundation 4 constituting the gap 4 are configured so that the grout material does not enter the gap 6 between the lower foundation 2 and the upper foundation 4. The sealing material 5 is provided on the surrounding wall surface. The sealing material 5 may be a tape or a filling.

このようにして、前記既存建物が地震時において水平全方向に移動しないように拘束することができる。そして、図3(A)に示すように、STEP−6において既存建物の変位や既存柱の軸力などを計測しながら、免震装置を取り付ける予定の既存柱の中間をワイヤーソーで切断する。   In this way, the existing building can be restrained from moving in all horizontal directions during an earthquake. Then, as shown in FIG. 3A, while measuring the displacement of the existing building and the axial force of the existing column in STEP-6, the middle of the existing column where the seismic isolation device is to be installed is cut with a wire saw.

そして、図3(B)に示すように、STEP−7で前記切断箇所に免震装置7を設置する。その免震装置の上下に型枠を組んでコンクリートを打設して免震装置用の基礎8a,8bを構築する。次に、STEP−8で、前記免震装置用の上下基礎8a,8bが硬化した後、前記STEP−5において既存梁等の四隅に設置したジャッキを撤去して、前記免震装置に荷重を移行させる。   And as shown in FIG.3 (B), the seismic isolation apparatus 7 is installed in the said cutting location by STEP-7. The foundations 8a and 8b for the seismic isolation device are constructed by building concrete on top and bottom of the seismic isolation device and placing concrete. Next, in STEP-8, after the upper and lower foundations 8a and 8b for the seismic isolation device are cured, the jacks installed at the four corners of the existing beam or the like in the STEP-5 are removed, and a load is applied to the seismic isolation device. Transition.

こうして、免震化工事が既存建物における所要の複数カ所の既存柱に免震装置を設置した後に、前記筒状耐震プレート1による水平全方向の拘束力を解放する。これには、図4(C)に示すように、一体化された筒状耐震プレート1の上端部に、前記新設梁3やスラブに反力を取ったジャッキの端部を設置する。そして、このジャッキで筒状耐震プレート1を下に押し下げる。   Thus, after the seismic isolation work installs the seismic isolation devices at the required multiple existing pillars in the existing building, the horizontal all-direction restraining force by the cylindrical seismic plate 1 is released. For this purpose, as shown in FIG. 4 (C), an end portion of a jack that takes a reaction force against the new beam 3 or the slab is installed at the upper end portion of the integrated cylindrical earthquake-resistant plate 1. And the cylindrical earthquake-resistant plate 1 is pushed down with this jack.

筒状耐震プレート1を下部基礎2側に押し下げ、上部・下部基礎4,2と筒状耐震プレート1との間に充填させたグラウト材を撤去する。また、封止材5を撤去する。これを全箇所において行うことで、前記上部・下部基礎4,2における水平方向の拘束が解除される。既存建物が免震化させられる。   The cylindrical earthquake-resistant plate 1 is pushed down to the lower foundation 2 side, and the grout material filled between the upper and lower foundations 4 and 2 and the cylindrical earthquake-resistant plate 1 is removed. Moreover, the sealing material 5 is removed. By performing this at all locations, the horizontal restraint on the upper and lower foundations 4 and 2 is released. Existing buildings will be seismically isolated.

前記筒状耐震プレート1は、免震化工事の完了後に下部基礎2側に押し下げられてそのまま維持される。再度、水平力の拘束が必要になった場合に、この筒状耐震プレート1を持ち上げてグラウト材を充填することで再利用可能となる。   The cylindrical seismic plate 1 is pushed down to the lower foundation 2 side and maintained as it is after the seismic isolation work is completed. When it becomes necessary to restrain the horizontal force again, the cylindrical seismic plate 1 can be lifted and filled with a grout material.

本発明に係る免震化工事における水平力拘束方法に使用する筒状耐震プレート1の斜視図である。It is a perspective view of the cylindrical earthquake-resistant plate 1 used for the horizontal force restraint method in the seismic isolation work which concerns on this invention. 既存建物に免震化を施す工事の手順を示す説明図(A),(B)である。It is explanatory drawing (A) and (B) which show the procedure of the construction which makes an existing building seismic isolation. 同既存建物に免震化を施す工事の手順を示す説明図(A),(B)である。It is explanatory drawing (A) and (B) which show the procedure of the construction which makes the existing building seismic isolation. 本発明における水平力拘束方法の内容を示す説明図(A),(B),(C)である。It is explanatory drawing (A), (B), (C) which shows the content of the horizontal force restraint method in this invention. 従来例2における免震化工事における水平力拘束方法を示す説明図である。It is explanatory drawing which shows the horizontal force restraint method in the seismic isolation construction in the prior art example 2.

符号の説明Explanation of symbols

1 筒状耐震プレート、 1a 筒体、
1b 下部開口、 1c 上部開口、
2 下部基礎、
3 梁、
4 上部基礎、
5 封止材、
6 間隙、
7 免震装置、
8a,8b 免震装置用の基礎。
1 cylindrical seismic plate, 1a cylinder,
1b lower opening, 1c upper opening,
2 Lower foundation,
3 Beam,
4 Upper foundation,
5 sealing material,
6 gap,
7 Seismic isolation device,
8a, 8b Base for seismic isolation devices.

Claims (6)

既存建物の免震化工事において、下部基礎と上部基礎とに架設する筒状耐震プレートを形成し、前記免震工事中に構築した下部基礎に前記筒状耐震プレートをセットし、前記下部基礎の上位置に上部基礎を構築した後、前記筒状耐震プレートを前記下部基礎から上に持ち上げて前記上部・下部基礎の間に架設し、その後、この筒状耐震プレートの内側壁面と前記上部・下部基礎の壁面との間にグラウト材を充填して一体化し、前記既存建物が地震時において水平方向に移動しないように拘束すること、
を特徴とする免震化工事における水平力拘束方法。
In the seismic isolation work for existing buildings, a cylindrical seismic plate to be installed between the lower foundation and the upper foundation is formed, and the cylindrical seismic plate is set on the lower foundation constructed during the seismic isolation work. After constructing the upper foundation in the upper position, the cylindrical seismic plate is lifted up from the lower foundation and installed between the upper and lower foundations, and then the inner wall surface of the cylindrical seismic plate and the upper and lower parts Fill and integrate grout material between the walls of the foundation and constrain the existing building so that it does not move horizontally during an earthquake,
Horizontal force restraint method in seismic isolation work characterized by
下部基礎と上部基礎との間の隙間にグラウト材が侵入しないように、前記隙間を構成する前記下部基礎と上部基礎との周囲壁面に、封止材が設けられること、
を特徴とする請求項1に記載の免震化工事における水平力拘束方法。
A sealing material is provided on the peripheral wall surfaces of the lower foundation and the upper foundation constituting the gap so that the grout material does not enter the gap between the lower foundation and the upper foundation,
The horizontal force constraining method in the seismic isolation work according to claim 1.
免震化工事の完了後に、筒状耐震プレートを下部基礎側に押し下げ、上部・下部基礎と筒状耐震プレートとの間に充填させたグラウト材を撤去して、前記上部・下部基礎における水平方向の拘束を解除し、既存建物を免震化させること、
をとする請求項1乃至2のいずれかに記載の免震化工事における水平力拘束方法。
After the seismic isolation work is completed, the cylindrical seismic plate is pushed down to the lower foundation side, the grout material filled between the upper and lower foundations and the cylindrical seismic plate is removed, and the horizontal direction on the upper and lower foundations is removed. To remove the restriction and make the existing building seismic isolation,
The horizontal force restraining method in the seismic isolation work according to claim 1, wherein:
筒状耐震プレートは、筒体の下部開口部から上部開口部に至って開口面積が拡大するようにテーパ状に形成されていること、
を特徴とする請求項1乃至3のいずれかに記載の免震化工事における水平力拘束方法。
The cylindrical seismic plate is formed in a tapered shape so that the opening area expands from the lower opening of the cylinder to the upper opening,
The horizontal force restraining method in the seismic isolation work according to any one of claims 1 to 3.
筒状耐震プレートは、免震化工事の完了後に下部基礎側に押し下げられてそのまま維持されること、
を特徴とする請求項1乃至4のいずれかに記載の免震化工事における水平力拘束方法。
The cylindrical seismic plate must be pushed down to the lower foundation after the seismic isolation work is completed,
The horizontal force constraining method in the seismic isolation work according to any one of claims 1 to 4.
免震化工事をする既存建物に設けられた下部基礎の周囲を囲繞する大きさの剛性で一体的な筒体であって、この筒体の開口部を下位置から上位置に向けて拡開するようにテーパ状になっていること、
を特徴とする免震化工事における水平力拘束装置。
A rigid and integral cylinder that surrounds the lower foundation provided in an existing building to be seismically isolated, and the opening of this cylinder expands from the lower position to the upper position Be tapered so that
A horizontal force restraint device for seismic isolation work.
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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2013122111A (en) * 2011-12-09 2013-06-20 Toda Constr Co Ltd Rubble concrete construction method with partial excavation
JP2017002589A (en) * 2015-06-11 2017-01-05 大成建設株式会社 Temporary support column and replacement method for base-isolating device

Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH0328282B2 (en) * 1983-02-04 1991-04-18 Nippon Hume Pipe
JP2001271496A (en) * 2000-03-24 2001-10-05 Kajima Corp Method for releasing support state of upper building frame structure by concrete support member

Patent Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH0328282B2 (en) * 1983-02-04 1991-04-18 Nippon Hume Pipe
JP2001271496A (en) * 2000-03-24 2001-10-05 Kajima Corp Method for releasing support state of upper building frame structure by concrete support member

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2013122111A (en) * 2011-12-09 2013-06-20 Toda Constr Co Ltd Rubble concrete construction method with partial excavation
JP2017002589A (en) * 2015-06-11 2017-01-05 大成建設株式会社 Temporary support column and replacement method for base-isolating device

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