JP2020204263A - Superstructure member conveyance facility and superstructure member conveyance method - Google Patents

Superstructure member conveyance facility and superstructure member conveyance method Download PDF

Info

Publication number
JP2020204263A
JP2020204263A JP2020167706A JP2020167706A JP2020204263A JP 2020204263 A JP2020204263 A JP 2020204263A JP 2020167706 A JP2020167706 A JP 2020167706A JP 2020167706 A JP2020167706 A JP 2020167706A JP 2020204263 A JP2020204263 A JP 2020204263A
Authority
JP
Japan
Prior art keywords
superstructure
superstructure member
bridge
vertical
rail
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
JP2020167706A
Other languages
Japanese (ja)
Other versions
JP6969646B2 (en
Inventor
敦雄 中山
Atsuo Nakayama
敦雄 中山
裕明 田中
Hiroaki Tanaka
裕明 田中
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
JFE Engineering Corp
Original Assignee
JFE Engineering Corp
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Priority claimed from JP2018096681A external-priority patent/JP6798527B2/en
Application filed by JFE Engineering Corp filed Critical JFE Engineering Corp
Priority to JP2020167706A priority Critical patent/JP6969646B2/en
Publication of JP2020204263A publication Critical patent/JP2020204263A/en
Priority to JP2021174978A priority patent/JP7136309B2/en
Application granted granted Critical
Publication of JP6969646B2 publication Critical patent/JP6969646B2/en
Active legal-status Critical Current
Anticipated expiration legal-status Critical

Links

Images

Landscapes

  • Bridges Or Land Bridges (AREA)

Abstract

To facilitate the downsizing of heavy equipment, simplification of vent facility, and improvement of the efficiency of removing and providing work of the superstructure member even if the target is a viaduct with a high ground clearance.SOLUTION: It is provided with vertical rails 22 extending in the vertical direction adjacent to piers 102 and 104 adjacent to each other in the bridge axis direction of a bridge 100 and located within a span 106, a rail holding vertical member 28 to which the vertical rail 22 is attached, the member positioning the span 106 and is installed so as to extend in substantially the same direction as the vertical rail 22, and a lifting device 24 that is attached to each of the vertical rails 22 and can move along the vertical rail 22 on which it is mounted, the number of lifting devices 24 capable of vertically moving while supporting the superstructure member 110 being provided, and the rail holding vertical member 28 transmitting at least a part of the vertical downward load received by the vertical rail 22 to the ground without going through the bridge 100.SELECTED DRAWING: Figure 1

Description

本発明は、上部工部材運搬設備および上部工部材運搬方法に関し、詳細には、橋脚に上下方向に取り付けられたレールに沿って移動可能な昇降装置を用いる上部工部材運搬設備および上部工部材運搬方法に関する。 The present invention relates to a superstructure member transport facility and a superstructure member transport method. Specifically, the present invention relates to a superstructure member transport facility and a superstructure member transport method using an elevating device that can move along a rail mounted in the vertical direction on a pier. Regarding the method.

我が国の橋梁の多くは、順次更新時期を迎えつつあり、橋梁の架け替え工法の技術開発が重要な課題となっている。このため、橋梁の架け替えに関する多くの新たな技術が提案されてきている。 Many of the bridges in Japan are approaching the time of renewal, and technological development of bridge replacement methods has become an important issue. For this reason, many new technologies for bridge replacement have been proposed.

例えば、特許文献1には、既設橋桁の下方にジャッキを配設するジャッキ配設工程と、前記ジャッキにより前記既設橋桁を支持するとともに、既設橋桁の支点部を切断する支
持工程と、前記既設橋桁上に新設橋桁を配設する橋桁配設工程と、前記ジャッキにより前記既設橋桁および前記新設橋桁を下降させるとともに、前記新設橋桁を橋脚に架設する架設工程と、を備えることを特徴とする、橋桁の架け替え工法が提案されている。そして、この橋桁の架け替え工法によれば、既設橋桁の撤去作業と新設橋桁の架設作業を同時に行うため、工期短縮化を図ることができる、と特許文献1に記載されている。
For example, Patent Document 1 describes a jack arrangement step of arranging a jack below an existing bridge girder, a support step of supporting the existing bridge girder by the jack and cutting a fulcrum portion of the existing bridge girder, and the existing bridge girder. The bridge girder is characterized by comprising a bridge girder arranging step of arranging a new bridge girder on the bridge, and an erection step of lowering the existing bridge girder and the new bridge girder by the jack and erection of the new bridge girder on a bridge pier. The replacement method has been proposed. Then, according to this bridge girder replacement method, the construction period can be shortened because the removal work of the existing bridge girder and the erection work of the new bridge girder are performed at the same time, according to Patent Document 1.

特開2016−37775号公報Japanese Unexamined Patent Publication No. 2016-37775

しかしながら、特許文献1に記載の橋桁の架け替え工法をはじめ、現状の上部工部材の撤去工法および上部工部材の架け替え工法では、地上高が高い高架橋を対象とする場合、ベント設備や重機が大型化してしまい、工期の長期化およびコストの増大を招いていた。 However, in the current method of removing superstructure members and the method of replacing superstructure members, including the bridge girder replacement method described in Patent Document 1, when a viaduct with a high ground clearance is targeted, venting equipment and heavy machinery are required. The size has increased, leading to a longer construction period and an increase in cost.

本発明は、かかる点に鑑みてなされたものであり、地上高が高い高架橋を対象とする場合であっても、重機の小型化、ベント設備の簡素化、上部工部材の撤去・架設作業の効率化を図ることができる上部工部材運搬設備および上部工部材運搬方法を提供することを課題とする。 The present invention has been made in view of the above points, and even when targeting a viaduct having a high ground clearance, the work of downsizing heavy machinery, simplifying venting equipment, removing superstructure members, and erection work. An object of the present invention is to provide a superstructure member transportation facility and a superstructure member transportation method capable of improving efficiency.

本発明は、以下の上部工部材撤去設備および上部工部材架け替え設備ならびに上部工部材撤去方法および上部工部材架け替え方法により、前記課題を解決したものである。 The present invention solves the above-mentioned problems by the following superstructure member removal equipment, superstructure member replacement equipment, superstructure member removal method, and superstructure member replacement method.

即ち、本発明に係る上部工部材撤去設備は、橋梁の橋軸方向に隣接する橋脚の間の径間内の所定の領域の既設上部工部材を前記橋梁から撤去する際に用いることができる上部工部材撤去設備であって、前記橋梁の橋軸方向に隣接する前記橋脚それぞれに上下方向に取り付けられていて、前記橋梁の橋軸直角方向から見て前記径間内に位置している上下方向レールと、前記上下方向レールそれぞれに取り付けられていて、自身が取り付けられた前記上下方向レールに沿って移動可能な昇降装置と、を備え、撤去する前記既設上部工部材を支持しつつ下降させることができる数の前記昇降装置を備えることを特徴とする上部工部材撤去設備である。 That is, the superstructure member removing facility according to the present invention can be used when removing the existing superstructure member in a predetermined area within the span between the piers adjacent to the bridge in the bridge axis direction from the bridge. This is a construction member removal facility, which is vertically attached to each of the piers adjacent to the bridge axis direction, and is located within the span when viewed from the direction perpendicular to the bridge axis of the bridge. A rail and an elevating device attached to each of the vertical rails and movable along the vertical rail to which the bridge is attached are provided, and the existing superstructure member to be removed is supported and lowered. It is a superstructure member removing facility characterized by being provided with as many elevating devices as possible.

ここで、本願において、「橋梁の橋軸方向に隣接する橋脚の間の径間」とは、橋梁の既設上部工部材を支持する、橋梁の橋軸方向に隣接する橋脚の支点(当該既設上部工部材を支持する支点)と支点(当該既設上部工部材を支持する支点)との間の領域のことであり、本願においては、単に「径間」と記すことがある。 Here, in the present application, "the span between piers adjacent to the bridge axis direction" means a fulcrum of the pier adjacent to the bridge axis direction supporting the existing superstructure member of the bridge (the existing upper part). It is a region between a fulcrum (a fulcrum that supports a work member) and a fulcrum (a fulcrum that supports the existing superstructure member), and in the present application, it may be simply referred to as “span”.

また、「橋梁の橋軸方向に隣接する橋脚の間の径間内の所定の領域の既設上部工部材を前記橋梁から撤去する際に用いることができる上部工部材撤去設備であって、」の記載において、「橋梁の橋軸方向に隣接する橋脚の間の径間内の所定の領域の既設上部工部材」とは、上方から見て、前記橋脚および前記上下方向レールとは重ならない、前記径間内の前記既設上部工部材の部位のことである。このことは、本願の他の箇所の同様の記載においても同様に解釈するものとする。 In addition, "a superstructure member removal facility that can be used when removing an existing superstructure member in a predetermined area within a span between piers adjacent to each other in the bridge axis direction of the bridge from the bridge." In the description, the "existing superstructure member in a predetermined area within the span between the piers adjacent to the bridge axial direction" does not overlap with the pier and the vertical rail when viewed from above. It is a part of the existing superstructure member in the span. This shall be construed in the same way in the same description in other parts of the present application.

また、「前記橋梁の橋軸方向に隣接する前記橋脚それぞれに上下方向に取り付けられた上下方向レールと、」の記載において、「取り付けられた」とは、前記橋脚に直接取り付けられた場合だけでなく、他の部材を介して間接的に前記橋脚に取り付けられた場合も含む概念である。このことは、本願の他の箇所の同様の記載においても同様に解釈するものとする。 Further, in the description of "vertical rails attached to each of the piers adjacent to the bridge in the bridge axis direction", "attached" means only when the bridge is directly attached to the pier. It is a concept including the case where it is indirectly attached to the pier via another member. This shall be construed in the same way in the same description in other parts of the present application.

前記昇降装置としては、具体的には例えば、次のような昇降装置を採用してもよい。即ち、伸縮可能なジャッキと、前記ジャッキの両端部にそれぞれ取り付けられたクランプ装置と、を備え、前記クランプ装置によって前記上下方向レールに取り付けられており、前記クランプ装置は、前記上下方向レールへの固定とその固定の解除を繰り返し行うことができるような昇降装置を採用してもよい。 Specifically, for example, the following elevating device may be adopted as the elevating device. That is, it includes a telescopic jack and clamp devices attached to both ends of the jack, and is attached to the vertical rail by the clamp device, and the clamp device is attached to the vertical rail. An elevating device that can repeatedly fix and release the fixing may be adopted.

前記上部工部材撤去設備のより具体的な構成としては、例えば次のような構成を採用してもよい。即ち、前記橋梁から撤去する前記既設上部工部材の端部を下方から支持することができる、前記橋梁の橋軸直角方向に延びる上部工部材受け用橋軸直角方向部材を、前記既設上部工部材の両端部の下方にそれぞれ備えさせ、前記上下方向レールは、前記橋梁の橋軸方向に隣接する前記橋脚それぞれについて、前記橋梁の橋軸直角方向に間隔を開けて複数配置し、前記橋梁の橋軸直角方向に間隔を開けて複数配置した前記上下方向レールそれぞれに前記昇降装置を取り付け、前記上下方向レールにそれぞれ取り付けた前記昇降装置が前記上部工部材受け用橋軸直角方向部材を下方から支持するような構成を採用してもよい。 As a more specific configuration of the superstructure member removing facility, for example, the following configuration may be adopted. That is, the existing superstructure member is a member in the direction perpendicular to the bridge axis for receiving the superstructure member, which can support the end of the existing superstructure member to be removed from the bridge from below. A plurality of the vertical rails are provided below both ends of the bridge, and a plurality of the vertical rails are arranged at intervals in the direction perpendicular to the bridge axis of the bridge for each of the bridge pedestals adjacent to the bridge axis direction of the bridge. The elevating device is attached to each of the vertical rails arranged at intervals in the direction perpendicular to the axis, and the elevating device attached to each of the vertical rails supports the bridge axis perpendicular member for receiving the superstructure member from below. You may adopt such a structure.

前記上下方向レールについては、該上下方向レールと略同一の方向に延びるレール保持用上下方向部材に取り付けられていて、該レール保持用上下方向部材を介して前記橋脚に取り付けられているように構成してもよい。 The vertical rail is attached to a rail holding vertical member extending in substantially the same direction as the vertical rail, and is attached to the bridge pedestal via the rail holding vertical member. You may.

前記上下方向レールが受ける鉛直方向下向きの荷重の少なくとも一部は、当該上下方向レールが取り付けられた前記橋脚を介さずに地盤に伝達され、かつ、前記上下方向レールから該上下方向レールが取り付けられた前記橋脚に伝達される荷重は、前記橋脚の安全性が確保される範囲内の荷重であるようにすることが好ましい。 At least a part of the vertical downward load received by the vertical rail is transmitted to the ground without passing through the pier to which the vertical rail is attached, and the vertical rail is attached from the vertical rail. It is preferable that the load transmitted to the pier is a load within a range in which the safety of the pier is ensured.

ここで、「前記上下方向レールが受ける鉛直方向下向きの荷重の少なくとも一部は、当該上下方向レールが取り付けられた前記橋脚を介さずに地盤に伝達され」において、「前記上下方向レールが受ける鉛直方向下向きの荷重」には、他の部材を介して前記上下方向レールに伝達される荷重だけでなく、前記上下方向レール自身の自重も含むものとする。また、前記上下方向レールが受ける鉛直方向下向きの荷重の少なくとも一部が「地盤に伝達され」とは、鉛直方向下向きの荷重の少なくとも一部が前記上下方向レールから地盤に直接的に伝達される場合だけでなく、鉛直方向下向きの荷重の少なくとも一部が前記上下方向レールから地盤に、橋脚以外の他の部材を介して間接的に伝達される場合も含む概念である。これらのことは、本願の他の箇所の同様の記載においても同様に解釈するものとする。 Here, in "at least a part of the vertical downward load received by the vertical rail is transmitted to the ground without passing through the bridge pedestal to which the vertical rail is attached", "the vertical rail received by the vertical rail is received." The "downward downward load" includes not only the load transmitted to the vertical rail via other members but also the own weight of the vertical rail itself. Further, at least a part of the vertical downward load received by the vertical rail is "transmitted to the ground", that is, at least a part of the vertical downward load is directly transmitted from the vertical rail to the ground. The concept includes not only the case but also the case where at least a part of the load in the vertical direction is indirectly transmitted from the vertical rail to the ground through a member other than the pier. These matters shall be construed in the same manner in the same description in other parts of the present application.

なお、本願において、橋脚にはフーチングは含まれないものとし、橋脚はフーチングよりも上方の下部工の部位を意味するものとする。 In the present application, the pier does not include footing, and the pier means the part of the substructure above the footing.

前記上部工部材撤去設備において、前記上下方向レールが受ける鉛直方向下向きの荷重の少なくとも一部は、当該上下方向レールが取り付けられた前記橋脚を支持するフーチングの上面に伝達されて地盤に伝達されるように構成してもよい。 In the superstructure member removing facility, at least a part of the vertical downward load received by the vertical rail is transmitted to the upper surface of the footing supporting the pier to which the vertical rail is attached and transmitted to the ground. It may be configured as follows.

ここで、「前記上下方向レールが受ける鉛直方向下向きの荷重の少なくとも一部は、当該上下方向レールが取り付けられた前記橋脚を支持するフーチングの上面に伝達されて地盤に伝達される」において、前記上下方向レールが受ける鉛直方向下向きの荷重の少なくとも一部が「フーチングの上面に伝達されて地盤に伝達される」とは、鉛直方向下向きの荷重の少なくとも一部が前記上下方向レールからフーチングの上面に直接的に伝達されて地盤に伝達される場合だけでなく、鉛直方向下向きの荷重の少なくとも一部が前記上下方向レールからフーチングの上面に、橋脚以外の他の部材を介して間接的に伝達されて地盤に伝達される場合も含む概念である。このことは、本願の他の箇所の同様の記載においても同様に解釈するものとする。 Here, in "at least a part of the vertical downward load received by the vertical rail is transmitted to the upper surface of the footing supporting the bridge pedest to which the vertical rail is attached" and is transmitted to the ground. "At least a part of the vertical downward load received by the vertical rail is" transmitted to the upper surface of the footing and transmitted to the ground "means that at least a part of the vertical downward load is transmitted from the vertical rail to the upper surface of the footing. Not only when it is directly transmitted to the ground, but also at least a part of the vertical downward load is indirectly transmitted from the vertical rail to the upper surface of the footing via other members other than the bridge pier. It is a concept that includes the case where it is transmitted to the ground. This shall be construed in the same way in the same description in other parts of the present application.

上方から見て、撤去する前記既設上部工部材の端部に対して略橋軸直角方向の位置および撤去する前記既設上部工部材の端部と重なる位置のうちの少なくとも一方の位置に、後打ち杭を備えさせ、前記上下方向レールが受ける鉛直方向下向きの荷重の少なくとも一部は、前記後打ち杭を介して地盤に伝達されるように、前記上部工部材撤去設備を構成してもよい。 When viewed from above, post-strike at at least one of the positions approximately perpendicular to the bridge axis with respect to the end of the existing superstructure member to be removed and the position overlapping the end of the existing superstructure member to be removed. The superstructure member removing facility may be provided with piles so that at least a part of the vertical downward load received by the vertical rail is transmitted to the ground via the post-pile.

ここで、「前記上下方向レールが受ける鉛直方向下向きの荷重の少なくとも一部は、前記後打ち杭を介して地盤に伝達される」において、前記上下方向レールが受ける鉛直方向下向きの荷重の少なくとも一部が「前記後打ち杭を介して地盤に伝達される」とは、鉛直方向下向きの荷重の少なくとも一部が前記上下方向レールから前記後打ち杭に直接的に伝達されて地盤に伝達される場合だけでなく、鉛直方向下向きの荷重の少なくとも一部が前記上下方向レールから前記後打ち杭に、橋脚以外の他の部材を介して間接的に伝達されて地盤に伝達される場合も含む概念である。また、後打ち杭とは、橋梁建設時に地盤に打設されて当該橋梁を支持する杭ではなく、当該橋梁の建設後に地盤に打設された杭のことである。このことは、本願の他の箇所の同様の記載においても同様に解釈するものとする。 Here, in "at least a part of the vertical downward load received by the vertical rail is transmitted to the ground via the post-cast pile", at least one of the vertical downward loads received by the vertical rail. "Transferred to the ground via the post-casting pile" means that at least a part of the vertical downward load is directly transmitted from the vertical rail to the post-casting pile and transmitted to the ground. The concept includes not only the case but also the case where at least a part of the load in the vertical direction is indirectly transmitted from the vertical rail to the post-casting pile via a member other than the pier and transmitted to the ground. Is. Further, the post-casting pile is not a pile that is driven into the ground during the construction of the bridge to support the bridge, but a pile that is driven into the ground after the construction of the bridge. This shall be construed in the same way in the same description in other parts of the present application.

上方から見て、撤去する前記既設上部工部材の端部に対して略橋軸直角方向の位置および撤去する前記既設上部工部材の端部と重なる位置のうちの少なくとも一方の位置に、地盤に敷かれた敷き鋼板を備えさせ、前記上下方向レールが受ける鉛直方向下向きの荷重の少なくとも一部は、前記敷き鋼板を介して地盤に伝達されるように、前記上部工部材撤去設備を構成してもよい。 When viewed from above, at least one of the positions perpendicular to the bridge axis with respect to the end of the existing superstructure member to be removed and the position overlapping the end of the existing superstructure member to be removed, on the ground. The laid steel plate is provided, and the superstructure member removing facility is configured so that at least a part of the vertically downward load received by the vertical rail is transmitted to the ground through the laid steel plate. May be good.

ここで、「前記上下方向レールが受ける鉛直方向下向きの荷重の少なくとも一部は、前記敷き鋼板を介して地盤に伝達される」において、前記上下方向レールが受ける鉛直方向下向きの荷重の少なくとも一部が「前記敷き鋼板を介して地盤に伝達される」とは、鉛直方向下向きの荷重の少なくとも一部が前記上下方向レールから前記敷き鋼板に直接的に伝達されて地盤に伝達される場合だけでなく、鉛直方向下向きの荷重の少なくとも一部が前記上下方向レールから前記敷き鋼板に、橋脚以外の他の部材を介して間接的に伝達されて地盤に伝達される場合も含む概念である。また、敷き鋼板とは、地盤上に敷かれた鋼板のことである。これらのことは、本願の他の箇所の同様の記載においても同様に解釈するものとする。 Here, in "at least a part of the vertical downward load received by the vertical rail is transmitted to the ground through the paving steel plate", at least a part of the vertical downward load received by the vertical rail. Is "transmitted to the ground via the floor steel plate" only when at least a part of the load in the vertical direction downward is directly transmitted from the vertical rail to the floor steel plate and transmitted to the ground. The concept includes a case where at least a part of the load in the vertical direction is indirectly transmitted from the vertical rail to the paving steel plate via a member other than the bridge pier and is transmitted to the ground. The laid steel plate is a steel plate laid on the ground. These matters shall be construed in the same manner in the same description in other parts of the present application.

前記上下方向レール同士の間を前記橋梁の橋軸直角方向に架け渡して連結する橋軸直角方向連結部材をさらに備えさせて、前記上部工部材撤去設備を構成してもよい。 The superstructure member removing facility may be further provided with a bridge axis perpendicular direction connecting member that bridges and connects the vertical rails in the direction perpendicular to the bridge axis of the bridge.

ここで、「前記上下方向レール同士の間を前記橋梁の橋軸直角方向に架け渡して連結する橋軸直角方向連結部材」において、「架け渡して連結する」とは、橋軸直角方向連結部材が前記上下方向レールと直接的に連結されていて、橋軸直角方向連結部材が上下方向レール同士の間を架け渡して連結している場合だけでなく、橋軸直角方向連結部材が他の部材を介して前記上下方向レールと間接的に連結されていて、橋軸直角方向連結部材が上下方向レール同士の間を架け渡して連結している場合も含む概念である。このことは、本願の他の箇所の同様の記載においても同様に解釈するものとする。 Here, in the "bridge axis perpendicular direction connecting member that bridges and connects the vertical rails in the direction perpendicular to the bridge axis of the bridge", "bridge and connect" means the bridge axis perpendicular direction connecting member. Is directly connected to the vertical rail, and not only when the bridge axis perpendicular connecting member bridges between the vertical rails and is connected, but also when the bridge axis perpendicular connecting member is another member. It is a concept including a case where the bridge axis perpendicular direction connecting member is indirectly connected to the vertical rail via the bridge and is connected by bridging between the vertical rails. This shall be construed in the same way in the same description in other parts of the present application.

前記橋脚において前記径間とは前記橋梁の橋軸方向反対側に、橋軸直角方向に延びる反対側橋軸直角方向連結部材を配置し、かつ、前記橋脚の前記橋軸直角方向の側方に橋軸方向に延びる橋軸方向連結部材を配置して、前記橋軸直角方向連結部材、前記反対側橋軸直角方向連結部材および前記橋軸方向連結部材が、前記橋脚の周囲を一周巻き込むようにして該橋脚に取り付けられているように、前記上部工部材撤去設備を構成してもよい。 In the bridge pier, a connecting member in the direction perpendicular to the bridge axis on the opposite side extending in the direction perpendicular to the bridge axis is arranged on the side opposite to the span in the direction opposite to the bridge axis, and on the side of the bridge pier in the direction perpendicular to the bridge axis. A bridge axis direction connecting member extending in the bridge axis direction is arranged so that the bridge axis orthogonal direction connecting member, the opposite side bridge axis perpendicular direction connecting member, and the bridge axis direction connecting member wrap around the bridge pedestal. The superstructure member removing facility may be configured so as to be attached to the bridge pier.

さらに、前記橋脚それぞれにおいて、前記径間とは前記橋梁の橋軸方向反対側にも、上下方向に延びる反対側上下方向レールを取り付け、該反対側上下方向レールそれぞれに、該反対側上下方向レールに沿って移動可能な昇降装置を取り付けて、前記上部工部材撤去設備を構成してもよい。 Further, in each of the piers, an opposite side vertical rail extending in the vertical direction is attached to the side opposite to the span in the bridge axial direction, and the opposite side vertical rail is attached to each of the opposite side vertical rails. A lifting device that can be moved along the above may be attached to form the superstructure member removing facility.

撤去する前記既設上部工部材の下方に、撤去する前記既設上部工部材を載置する架台を設け、該架台の高さを地表面から1m以上3m以下であるように、前記上部工部材撤去設備を構成してもよい。 A pedestal on which the existing superstructure member to be removed is placed is provided below the existing superstructure member to be removed, and the superstructure member removal equipment is provided so that the height of the pedestal is 1 m or more and 3 m or less from the ground surface. May be configured.

本発明に係る上部工部材架け替え設備は、橋梁の橋軸方向に隣接する橋脚の間の径間内の所定の領域の既設上部工部材を前記橋梁から撤去して新設上部工部材を架設する際に用いることができる上部工部材架け替え設備であって、前記橋梁の橋軸方向に隣接する前記橋脚それぞれに上下方向に取り付けられていて、前記橋梁の橋軸直角方向から見て前記径間内に位置している上下方向レールと、前記上下方向レールそれぞれに取り付けられていて、自身が取り付けられた前記上下方向レールに沿って移動可能な昇降装置と、を備え、撤去する前記既設上部工部材を支持しつつ下降させることができ、かつ、架設する前記新設上部工部材を支持しつつ上昇させることができる数の前記昇降装置を備えることを特徴とする上部工部材架け替え設備である。 In the superstructure member replacement facility according to the present invention, the existing superstructure member in a predetermined area within the span between the bridge piers adjacent to the bridge in the bridge axis direction is removed from the bridge and a new superstructure member is erected. It is a superstructure member replacement facility that can be used in the above case, and is attached to each of the piers adjacent to the bridge axis direction in the vertical direction, and the span when viewed from the direction perpendicular to the bridge axis of the bridge. The existing superstructure to be removed, including a vertical rail located inside and a lifting device attached to each of the vertical rails and movable along the vertical rail to which the bridge is attached. The superstructure member replacement facility is provided with a number of the elevating devices that can be lowered while supporting the member and can be raised while supporting the newly installed superstructure member to be erected.

前記昇降装置としては、具体的には例えば、次のような昇降装置を採用してもよい。即ち、伸縮可能なジャッキと、前記ジャッキの両端部にそれぞれ取り付けられたクランプ装置と、を備え、前記クランプ装置によって前記上下方向レールに取り付けられており、前記クランプ装置は、前記上下方向レールへの固定とその固定の解除を繰り返し行うことができるような昇降装置を採用してもよい。 Specifically, for example, the following elevating device may be adopted as the elevating device. That is, it includes a telescopic jack and clamp devices attached to both ends of the jack, and is attached to the vertical rail by the clamp device, and the clamp device is attached to the vertical rail. An elevating device that can repeatedly fix and release the fixing may be adopted.

前記上部工部材架け替え設備のより具体的な構成としては、例えば次のような構成を採用してもよい。即ち、前記橋梁から撤去する前記既設上部工部材の端部を下方から支持することができ、かつ、前記新設上部工部材の端部を下方から支持することができる、前記橋梁の橋軸直角方向に延びる上部工部材受け用橋軸直角方向部材を、前記既設上部工部材の両端部の下方にそれぞれ備えさせ、前記上下方向レールは、前記橋梁の橋軸方向に隣接する前記橋脚それぞれについて、前記橋梁の橋軸直角方向に間隔を開けて複数配置し、前記橋梁の橋軸直角方向に間隔を開けて複数配置した前記上下方向レールそれぞれに前記昇降装置を取り付け、前記上下方向レールにそれぞれ取り付けた前記昇降装置が前記上部工部材受け用橋軸直角方向部材を下方から支持するような構成を採用してもよい。 As a more specific configuration of the superstructure member replacement facility, for example, the following configuration may be adopted. That is, the end portion of the existing superstructure member to be removed from the bridge can be supported from below, and the end portion of the new superstructure member can be supported from below in the direction perpendicular to the bridge axis of the bridge. Members in the direction perpendicular to the bridge axis for receiving the superstructure member extending to the above are provided below both ends of the existing superstructure member, and the vertical rail is provided for each of the bridge piers adjacent to the bridge in the bridge axis direction. A plurality of the elevating devices were arranged at intervals in the direction perpendicular to the bridge axis of the bridge, and the elevating device was attached to each of the plurality of vertically arranged rails arranged at intervals in the direction perpendicular to the bridge axis of the bridge, and each was attached to the vertical rail. A configuration may be adopted in which the elevating device supports the member in the direction perpendicular to the bridge axis for receiving the superstructure member from below.

前記上下方向レールについては、該上下方向レールと略同一の方向に延びるレール保持用上下方向部材に取り付けられていて、該レール保持用上下方向部材を介して前記橋脚に取り付けられているように構成してもよい。 The vertical rail is attached to a rail holding vertical member extending in substantially the same direction as the vertical rail, and is attached to the bridge pedestal via the rail holding vertical member. You may.

前記上下方向レールが受ける鉛直方向下向きの荷重の少なくとも一部は、当該上下方向レールが取り付けられた前記橋脚を介さずに地盤に伝達され、かつ、前記上下方向レールから該上下方向レールが取り付けられた前記橋脚に伝達される荷重は、前記橋脚の安全性が確保される範囲内の荷重であるように、前記上部工部材架け替え設備を構成することが好ましい。 At least a part of the vertical downward load received by the vertical rail is transmitted to the ground without passing through the pier to which the vertical rail is attached, and the vertical rail is attached from the vertical rail. It is preferable to configure the superstructure member replacement facility so that the load transmitted to the pier is a load within a range in which the safety of the pier is ensured.

前記上下方向レールが受ける鉛直方向下向きの荷重の少なくとも一部は、当該上下方向レールが取り付けられた前記橋脚を支持するフーチングの上面に伝達されて地盤に伝達されるように、前記上部工部材架け替え設備を構成してもよい。 The superstructure member hangs so that at least a part of the vertical downward load received by the vertical rail is transmitted to the upper surface of the footing supporting the pier to which the vertical rail is attached and is transmitted to the ground. A replacement facility may be configured.

上方から見て、撤去する前記既設上部工部材の端部に対して略橋軸直角方向の位置および撤去する前記既設上部工部材の端部と重なる位置のうちの少なくとも一方の位置に、後打ち杭を備えさせ、前記上下方向レールが受ける鉛直方向下向きの荷重の少なくとも一部は、前記後打ち杭を介して地盤に伝達されるように、前記上部工部材架け替え設備を構成してもよい。 When viewed from above, post-strike at at least one of the positions approximately perpendicular to the bridge axis with respect to the end of the existing superstructure member to be removed and the position overlapping the end of the existing superstructure member to be removed. The superstructure member replacement facility may be configured so that the piles are provided and at least a part of the vertical downward load received by the vertical rails is transmitted to the ground via the post-pile. ..

上方から見て、撤去する前記既設上部工部材の端部に対して略橋軸直角方向の位置および撤去する前記既設上部工部材の端部と重なる位置のうちの少なくとも一方の位置に、地盤に敷かれた敷き鋼板を備えさせ、前記上下方向レールが受ける鉛直方向下向きの荷重の少なくとも一部は、前記敷き鋼板を介して地盤に伝達されるように、前記上部工部材架け替え設備を構成してもよい。 When viewed from above, at least one of the positions perpendicular to the bridge axis with respect to the end of the existing superstructure member to be removed and the position overlapping the end of the existing superstructure member to be removed, on the ground. The superstructure member replacement facility is provided with the laid steel plate so that at least a part of the vertically downward load received by the vertical rail is transmitted to the ground via the laid steel plate. You may.

前記上下方向レール同士の間を前記橋梁の橋軸直角方向に架け渡して連結する橋軸直角方向連結部材をさらに備えさせて、前記上部工部材架け替え設備を構成してもよい。 The superstructure member replacement facility may be further provided with a bridge axis orthogonal direction connecting member that bridges and connects the vertical rails in the direction perpendicular to the bridge axis of the bridge.

前記橋脚において前記径間とは前記橋梁の橋軸方向反対側に、橋軸直角方向に延びる反対側橋軸直角方向連結部材を配置し、かつ、前記橋脚の前記橋軸直角方向の側方に橋軸方向に延びる橋軸方向連結部材を配置して、前記橋軸直角方向連結部材、前記反対側橋軸直角方向連結部材および前記橋軸方向連結部材が、前記橋脚の周囲を一周巻き込むようにして該橋脚に取り付けられているように、前記上部工部材架け替え設備を構成してもよい。 In the bridge pier, a connecting member in the direction perpendicular to the bridge axis on the opposite side extending in the direction perpendicular to the bridge axis is arranged on the side opposite to the span in the direction opposite to the bridge axis, and on the side of the bridge pier in the direction perpendicular to the bridge axis. A bridge axis direction connecting member extending in the bridge axis direction is arranged so that the bridge axis orthogonal direction connecting member, the opposite side bridge axis perpendicular direction connecting member, and the bridge axis direction connecting member wrap around the bridge pedestal. The superstructure member replacement facility may be configured so as to be attached to the bridge pier.

さらに、前記橋脚それぞれにおいて、前記径間とは前記橋梁の橋軸方向反対側にも、上下方向に延びる反対側上下方向レールを取り付け、該反対側上下方向レールそれぞれに、該反対側上下方向レールに沿って移動可能な昇降装置を取り付けて、前記上部工部材架け替え設備を構成してもよい。 Further, in each of the piers, an opposite side vertical rail extending in the vertical direction is attached to the side opposite to the span in the bridge axial direction, and the opposite side vertical rail is attached to each of the opposite side vertical rails. A lifting device that can be moved along the above may be attached to form the superstructure member replacement facility.

撤去する前記既設上部工部材の下方に、撤去する前記既設上部工部材を載置する架台を設け、該架台の高さが地表面から1m以上3m以下であるように、前記上部工部材架け替え設備を構成してもよい。 A pedestal on which the existing superstructure member to be removed is placed is provided below the existing superstructure member to be removed, and the superstructure member is replaced so that the height of the pedestal is 1 m or more and 3 m or less from the ground surface. The equipment may be configured.

本発明に係る上部工部材撤去方法の第1の態様は、橋梁の橋軸方向に隣接する橋脚の間の径間内の所定の領域の既設上部工部材を前記橋梁から撤去する上部工部材撤去方法であって、前記所定の領域の既設上部工部材を、前記上部工部材撤去設備で支持する支持工程と、前記上部工部材撤去設備で支持した前記所定の領域の既設上部工部材を前記橋梁から切り離す切り離し工程と、前記切り離し工程で切り離された前記既設上部工部材を、前記上部工部材撤去設備で下降させる下降工程と、を備えることを特徴とする上部工部材撤去方法である。 The first aspect of the method for removing a superstructure member according to the present invention is to remove an existing superstructure member in a predetermined area within a span between piers adjacent to each other in the bridge axis direction of the bridge. In the method, a support step of supporting an existing superstructure member in the predetermined area by the superstructure member removing facility and a bridge supporting an existing superstructure member in the predetermined area supported by the superstructure member removing facility. The superstructure member removing method is characterized by comprising a separating step of separating from the above, and a lowering step of lowering the existing superstructure member separated in the separating step by the superstructure member removing facility.

本発明に係る上部工部材撤去方法の第2の態様は、橋梁の橋軸方向に隣接する橋脚の間の径間内の所定の領域の既設上部工部材を前記橋梁から撤去する上部工部材撤去方法であって、前記所定の領域の既設上部工部材を、前記架台が設けられた前記上部工部材撤去設備で支持する支持工程と、前記上部工部材撤去設備で支持した前記所定の領域の既設上部工部材を前記橋梁から切り離す切り離し工程と、前記切り離し工程で切り離された前記既設上部工部材を、前記上部工部材撤去設備で下降させて前記架台に載置する下降載置工程と、を備えることを特徴とする上部工部材撤去方法である。 A second aspect of the method for removing superstructure members according to the present invention is to remove superstructure members from the bridge by removing existing superstructure members in a predetermined area within the span between piers adjacent to the bridge in the bridge axis direction. In the method, a support step of supporting an existing superstructure member in the predetermined area by the superstructure member removing facility provided with the gantry and an existing superstructure member in the predetermined area supported by the superstructure member removing facility. It includes a separation step of separating the superstructure member from the bridge, and a lowering mounting step of lowering the existing superstructure member separated in the separation step by the superstructure member removing facility and mounting the superstructure member on the gantry. This is a method for removing superstructure members, which is characterized in that.

前記上部工部材撤去方法の第2の態様において、前記下降載置工程で前記架台に載置した前記既設上部工部材を、解体してから撤去するようにしてもよい。 In the second aspect of the method for removing the superstructure member, the existing superstructure member mounted on the gantry in the descending mounting step may be disassembled and then removed.

本発明に係る上部工部材架け替え方法の第1の態様は、橋梁の橋軸方向に隣接する橋脚の間の径間内の所定の領域の既設上部工部材を前記橋梁から撤去して新設上部工部材を架設する上部工部材架け替え方法であって、前記所定の領域の既設上部工部材を、前記上部工部材架け替え設備で支持する支持工程と、前記上部工部材架け替え設備で支持した前記所定の領域の既設上部工部材を前記橋梁から切り離す切り離し工程と、前記切り離し工程で切り離された前記既設上部工部材を、前記上部工部材架け替え設備で下降させる下降工程と、前記下降工程で下降させた前記既設上部工部材を、前記上部工部材架け替え設備から搬出する搬出工程と、前記搬出工程の後、前記上部工部材架け替え設備に前記新設上部工部材を載置する新設上部工部材載置工程と、前記新設上部工部材載置工程で前記上部工部材架け替え設備に載置した前記新設上部工部材を、前記上部工部材架け替え設備で上昇させる上昇工程と、前記上昇工程で上昇させた前記新設上部工部材を前記橋梁に連結する連結工程と、を備えることを特徴とする上部工部材架け替え方法である。 The first aspect of the superstructure member replacement method according to the present invention is to remove the existing superstructure member in a predetermined area within the span between the bridge pedestals adjacent to the bridge in the bridge axis direction from the bridge and newly construct the upper part. It is a method of replacing the superstructure member for erection of the work member, in which the existing superstructure member in the predetermined area is supported by the superstructure member replacement facility and the superstructure member replacement facility. In the separating step of separating the existing superstructure member in the predetermined region from the bridge, the lowering step of lowering the existing superstructure member separated in the separating step by the superstructure member replacement facility, and the lowering step. A new superstructure in which the lowered existing superstructure member is carried out from the superstructure member replacement facility, and after the carry-out process, the new superstructure member is placed on the superstructure member replacement facility. The member mounting process, the ascending step of raising the newly installed superstructure member mounted on the superstructure member replacement facility in the new superstructure member mounting process by the superstructure member replacement facility, and the ascending step. This is a method for replacing a superstructure member, which comprises a connecting step of connecting the newly installed superstructure member raised in the above section to the bridge.

本発明に係る上部工部材架け替え方法の第2の態様は、橋梁の橋軸方向に隣接する橋脚の間の径間内の所定の領域の既設上部工部材を前記橋梁から撤去して新設上部工部材を架設する上部工部材架け替え方法であって、前記所定の領域の既設上部工部材を、前記架台が設けられた上部工部材架け替え設備で支持する支持工程と、前記上部工部材架け替え設備で支持した前記所定の領域の既設上部工部材を前記橋梁から切り離す切り離し工程と、前記切り離し工程で切り離された前記既設上部工部材を、前記上部工部材架け替え設備で下降させて前記架台に載置する下降載置工程と、前記下降載置工程で前記架台に載置した前記既設上部工部材を、前記上部工部材架け替え設備から搬出する搬出工程と、前記搬出工程の後、前記上部工部材架け替え設備に前記新設上部工部材を載置する新設上部工部材載置工程と、前記新設上部工部材載置工程で前記上部工部材架け替え設備に載置した前記新設上部工部材を、前記上部工部材架け替え設備で上昇させる上昇工程と、前記上昇工程で上昇させた前記新設上部工部材を前記橋梁に連結する連結工程と、を備えることを特徴とする上部工部材架け替え方法である。 A second aspect of the superstructure member replacement method according to the present invention is to remove the existing superstructure member in a predetermined area within the span between the bridge pedestals adjacent to the bridge in the bridge axis direction from the bridge to newly install the upper part. It is a method of replacing the superstructure member for erection of the work member, and is a support process in which the existing superstructure member in the predetermined area is supported by the superstructure member replacement facility provided with the gantry, and the superstructure member replacement. The separation step of separating the existing superstructure member in the predetermined area supported by the replacement facility from the bridge, and the existing superstructure member separated in the separation step are lowered by the superstructure member replacement facility to lower the gantry. After the lowering mounting step of mounting on the above, the carrying-out step of carrying out the existing superstructure member mounted on the gantry in the lowering mounting step from the superstructure member replacement facility, and the carrying-out step, the said The new superstructure member mounting process of mounting the new superstructure member on the superstructure member replacement facility and the new superstructure member mounted on the superstructure member replacement facility in the new superstructure member mounting process. The superstructure member replacement is provided with an ascending step of raising the superstructure member by the ascending step and a connecting step of connecting the newly installed superstructure member raised in the ascending step to the bridge. The method.

前記上部工部材架け替え方法の第2の態様において、前記搬出工程では、前記架台に載置した前記既設上部工部材を、解体してから搬出するようにしてもよい。 In the second aspect of the superstructure member replacement method, in the carry-out step, the existing superstructure member mounted on the gantry may be disassembled and then carried out.

前記上部工部材架け替え方法の第2の態様において、前記新設上部工部材載置工程では、前記新設上部工部材を前記架台上に組み立てて、前記上部工部材架け替え設備に載置するようにしてもよい。 In the second aspect of the superstructure member replacement method, in the new superstructure member mounting step, the new superstructure member is assembled on the gantry and mounted on the superstructure member replacement facility. You may.

本発明によれば、地上高が高い高架橋を対象とする場合であっても、重機の小型化、ベント設備の簡素化、上部工部材の撤去・架設作業の効率化を図ることができる。 According to the present invention, even in the case of a viaduct having a high ground clearance, it is possible to reduce the size of heavy machinery, simplify the venting equipment, and improve the efficiency of removal and erection work of superstructure members.

本発明の第1実施形態に係る上部工部材撤去設備10について、撤去する既設上部工部材110を下降させる前の状態を示す正面図(図7のI線矢視図)A front view showing a state before lowering the existing superstructure member 110 to be removed with respect to the superstructure member removal facility 10 according to the first embodiment of the present invention (arrow view taken along line I in FIG. 7). 本発明の第1実施形態に係る上部工部材撤去設備10について、撤去する既設上部工部材110を下降させた後の状態を示す正面図(図8のII線矢視図)A front view showing a state after the existing superstructure member 110 to be removed is lowered with respect to the superstructure member removal facility 10 according to the first embodiment of the present invention (line II arrow view of FIG. 8). 本発明の第1実施形態に係る上部工部材撤去設備10について、下降させた既設上部工部材110を切断後にクレーン200で吊り上げて撤去する直前の状態を示す正面図(図9のIII線矢視図)A front view showing a state immediately before the superstructure member removing equipment 10 according to the first embodiment of the present invention is lifted by a crane 200 after cutting the lowered existing superstructure member 110 and removed (arrow view of line III in FIG. 9). Figure) 本発明の第1実施形態に係る上部工部材撤去設備10について、撤去する既設上部工部材110を下降させる前の状態を示す断面図(図7のIV−IV線断面図)A cross-sectional view showing a state before lowering the existing superstructure member 110 to be removed with respect to the superstructure member removal facility 10 according to the first embodiment of the present invention (FIG. IV-IV sectional view of FIG. 7). 本発明の第1実施形態に係る上部工部材撤去設備10について、撤去する既設上部工部材110を下降させた後の状態を示す断面図(図8のV−V線断面図)A cross-sectional view showing a state after the existing superstructure member 110 to be removed is lowered with respect to the superstructure member removal facility 10 according to the first embodiment of the present invention (VV line sectional view of FIG. 8). 本発明の第1実施形態に係る上部工部材撤去設備10について、下降させた既設上部工部材110を切断後にクレーン200で吊り上げて撤去する直前の状態を示す断面図(図9のVI−VI線断面図)A cross-sectional view (VI-VI line of FIG. 9) showing a state immediately before the superstructure member removing facility 10 according to the first embodiment of the present invention is lifted by a crane 200 after cutting the lowered existing superstructure member 110 and removed. Cross section) 本発明の第1実施形態に係る上部工部材撤去設備10について、撤去する既設上部工部材110を下降させる前の状態を示す断面図(図1および図4のVII−VII線断面図)A cross-sectional view showing a state before lowering the existing superstructure member 110 to be removed with respect to the superstructure member removal facility 10 according to the first embodiment of the present invention (FIG. VII-VII cross-sectional view of FIGS. 1 and 4). 本発明の第1実施形態に係る上部工部材撤去設備10について、撤去する既設上部工部材110を下降させた後の状態を示す断面図(図2および図5のVIII−VIII線断面図)A cross-sectional view showing a state after lowering the existing superstructure member 110 to be removed with respect to the superstructure member removal facility 10 according to the first embodiment of the present invention (FIG. VIII-VIII cross-sectional view of FIGS. 2 and 5). 本発明の第1実施形態に係る上部工部材撤去設備10について、下降させた既設上部工部材110を切断後にクレーン200で吊り上げて撤去する直前の状態を示す断面図(図3および図6のIX−IX線断面図)A cross-sectional view (IX of FIGS. 3 and 6) showing a state immediately before the superstructure member removing facility 10 according to the first embodiment of the present invention is lifted by a crane 200 after cutting the lowered existing superstructure member 110 and removed. -IX line cross section) 本発明の第1実施形態に係る上部工部材撤去設備10について、撤去する既設上部工部材110を下降させる前の状態を示す断面図(図1および図4のX−X線断面図)Cross-sectional view of the superstructure member removal facility 10 according to the first embodiment of the present invention, showing a state before lowering the existing superstructure member 110 to be removed (X-ray sectional views of FIGS. 1 and 4). 図10の下部を拡大して示す断面図FIG. 10 is an enlarged cross-sectional view showing the lower part of FIG. 図11のXII部拡大図Enlarged view of XII part of FIG. 図11のXIII−XIII線断面図Cross-sectional view taken along line XIII-XIII of FIG. 図13のXIV部拡大図Enlarged view of XIV part of FIG. 本発明の第1実施形態に係る上部工部材撤去設備10の下部を橋梁100の橋軸直角方向から見た正面図(図11のXV−XV線矢視図)A front view of the lower part of the superstructure member removing facility 10 according to the first embodiment of the present invention as viewed from a direction perpendicular to the bridge axis of the bridge 100 (XV-XV line arrow view of FIG. 11). 本発明の第1実施形態に係る上部工部材撤去設備10の上部を橋梁100の橋軸直角方向から見た正面図(図1のXVI部拡大図)A front view of the upper part of the superstructure member removing facility 10 according to the first embodiment of the present invention as viewed from a direction perpendicular to the bridge axis of the bridge 100 (enlarged view of the XVI portion in FIG. 1). 本発明の第1実施形態に係る上部工部材撤去設備10の上部を橋梁100の橋軸方向から見た側面図Side view of the upper part of the superstructure member removing facility 10 according to the first embodiment of the present invention as viewed from the bridge axis direction of the bridge 100. 図16のXVIII−XVIII線断面図Cross-sectional view taken along line XVIII-XVIII of FIG. 上下方向レール22がレール保持用上下方向部材28に取り付けられた状態をその長手方向から見た図A view of a state in which the vertical rail 22 is attached to the rail holding vertical member 28 from the longitudinal direction thereof. 昇降装置24のクレビスジャッキ24AおよびH鋼クランプ24Bが上下方向レール22に沿って移動する機構を模式的に示す図(橋軸直角方向から見た図)A diagram schematically showing a mechanism by which the clevis jack 24A and the H-steel clamp 24B of the elevating device 24 move along the vertical rail 22 (viewed from a direction perpendicular to the bridge axis). 昇降装置24のクレビスジャッキ24AおよびH鋼クランプ24Bが上下方向レール22に沿って移動する機構を模式的に示す図(橋軸方向から見た図)A diagram schematically showing a mechanism by which the clevis jack 24A and the H-steel clamp 24B of the elevating device 24 move along the vertical rail 22 (viewed from the bridge axis direction). 本発明の第1実施形態に係る上部工部材撤去設備10を構築する際の各段階のうちの1つの段階を模式的に示す側面図(橋軸方向から見た図)A side view schematically showing one step of each step when constructing the superstructure member removing facility 10 according to the first embodiment of the present invention (a view seen from the bridge axis direction). 本発明の第1実施形態に係る上部工部材撤去設備10を構築する際の各段階のうちの1つの段階を模式的に示す正面図(橋軸直角方向から見た図)A front view schematically showing one step of each step when constructing the superstructure member removing facility 10 according to the first embodiment of the present invention (a view seen from a direction perpendicular to the bridge axis). 本発明の第1実施形態に係る上部工部材撤去設備10を構築する際の各段階のうちの1つの段階を模式的に示す正面図(橋軸直角方向から見た図)A front view schematically showing one step of each step when constructing the superstructure member removing facility 10 according to the first embodiment of the present invention (a view seen from a direction perpendicular to the bridge axis). 本発明の第1実施形態に係る上部工部材撤去設備10を構築する際の各段階のうちの1つの段階を模式的に示す側面図(橋軸方向から見た図)A side view schematically showing one step of each step when constructing the superstructure member removing facility 10 according to the first embodiment of the present invention (a view seen from the bridge axis direction). 本発明の第1実施形態に係る上部工部材撤去設備10を構築する際の各段階のうちの1つの段階を模式的に示す正面図(橋軸直角方向から見た図)A front view schematically showing one step of each step when constructing the superstructure member removing facility 10 according to the first embodiment of the present invention (a view seen from a direction perpendicular to the bridge axis). 仮受けブラケット90を示す正面図(橋軸直角方向から見た図)Front view showing the temporary receiving bracket 90 (viewed from the direction perpendicular to the bridge axis) 仮受けブラケット90を示す側面図(橋軸方向から見た図)Side view showing the temporary receiving bracket 90 (view from the bridge axis direction) 本発明の第1実施形態に係る上部工部材撤去設備10を構築する際の各段階のうちの1つの段階を模式的に示す断面図(図26のXXIX−XXIX線断面図)Sectional drawing schematically showing one step of each step in constructing superstructure member removal facility 10 which concerns on 1st Embodiment of this invention (XXIX-XXIX line sectional view of FIG. 26) 本発明の第1実施形態に係る上部工部材撤去設備10を構築する際の各段階のうちの1つの段階を模式的に示す側面図(橋軸方向から見た図)A side view schematically showing one step of each step when constructing the superstructure member removing facility 10 according to the first embodiment of the present invention (a view seen from the bridge axis direction). 本発明の第1実施形態に係る上部工部材撤去設備10を構築する際の各段階のうちの1つの段階を模式的に示す正面図(橋軸直角方向から見た図)A front view schematically showing one step of each step when constructing the superstructure member removing facility 10 according to the first embodiment of the present invention (a view seen from a direction perpendicular to the bridge axis). 本発明の第1実施形態に係る上部工部材撤去設備10を構築する際の各段階のうちの1つの段階を模式的に示す断面図(図31のXXXII−XXXII線断面図)Sectional drawing schematically showing one step of each step in constructing superstructure member removal equipment 10 which concerns on 1st Embodiment of this invention (XXXXII-XXXII line sectional view of FIG. 31) 本発明の第1実施形態に係る上部工部材撤去設備10を構築する際の各段階のうちの1つの段階を模式的に示す側面図(橋軸方向から見た図)A side view schematically showing one step of each step when constructing the superstructure member removing facility 10 according to the first embodiment of the present invention (a view seen from the bridge axis direction). 本発明の第1実施形態に係る上部工部材撤去設備10を構築する際の各段階のうちの1つの段階を模式的に示す正面図(橋軸直角方向から見た図)A front view schematically showing one step of each step when constructing the superstructure member removing facility 10 according to the first embodiment of the present invention (a view seen from a direction perpendicular to the bridge axis). 本発明の第1実施形態に係る上部工部材撤去設備10を構築する際の各段階のうちの1つの段階を模式的に示す断面図(図34のXXXV−XXXV線断面図)A cross-sectional view schematically showing one step of each step when constructing the superstructure member removing facility 10 according to the first embodiment of the present invention (XXXV-XXXV line cross-sectional view of FIG. 34). 第1実施形態に係る上部工部材撤去方法において、切断前の既設上部工部材108の荷重のうちの所定量を上部工部材受け用橋軸直角方向部材26が下方から支持している状態を示す正面図In the method for removing superstructure members according to the first embodiment, a state is shown in which a member 26 in the direction perpendicular to the bridge axis for receiving superstructure members supports a predetermined amount of the load of the existing superstructure member 108 before cutting from below. Front view 第1実施形態に係る上部工部材撤去方法において、撤去する既設上部工部材110を橋梁100から切り離した直後の状態を示す正面図Front view showing a state immediately after the existing superstructure member 110 to be removed is separated from the bridge 100 in the superstructure member removal method according to the first embodiment. 第1実施形態に係る上部工部材撤去方法において、撤去する既設上部工部材110を下降させて架台10C、10Dに載置した状態を示す正面図Front view showing a state in which the existing superstructure member 110 to be removed is lowered and mounted on the gantry 10C and 10D in the superstructure member removing method according to the first embodiment. 第1実施形態に係る上部工部材撤去方法において、撤去する既設上部工部材110を架台10C、10D上で切断した状態を示す正面図Front view showing a state in which the existing superstructure member 110 to be removed is cut on the gantry 10C and 10D in the superstructure member removing method according to the first embodiment. 第1実施形態に係る上部工部材撤去方法において、架台10C、10D上で切断した既設上部工部材110(110X、110Y、110Z)をクレーン200で吊り上げて撤去する直前の状態を示す正面図Front view showing a state immediately before the existing superstructure members 110 (110X, 110Y, 110Z) cut on the gantry 10C and 10D are lifted by the crane 200 and removed in the superstructure member removing method according to the first embodiment. 第1実施形態に係る上部工部材撤去方法において、既設上部工部材110の撤去を行った後の状態を示す正面図Front view showing the state after the existing superstructure member 110 is removed in the superstructure member removal method according to the first embodiment. 第1実施形態に係る上部工部材撤去方法において、橋脚102、104上に残った既設上部工部材112、114の撤去も完了した後の状態(橋脚102と橋脚104の間を架け渡していた既設上部工部材108の撤去が全て終わった後の状態)を示す正面図In the method for removing superstructure members according to the first embodiment, the state after the removal of the existing superstructure members 112 and 114 remaining on the piers 102 and 104 is completed (the existing structure that bridges between the piers 102 and 104). Front view showing the state after all the removal of the superstructure member 108 is completed) 第1実施形態に係る上部工部材架け替え方法において、新設上部工部材162、164(径間106の両端部に配置する短尺の新設上部工部材162、164)を橋脚102、104上に新たに設置した状態を示す正面図In the superstructure member replacement method according to the first embodiment, new superstructure members 162, 164 (short new superstructure members 162, 164 arranged at both ends of the span 106) are newly installed on the piers 102 and 104. Front view showing the installed state 第1実施形態に係る上部工部材架け替え方法において、新設上部工部材160を構成する新設上部工部材160X、160Y、160Zを、クレーン(図示せず)で上部工部材受け用橋軸直角方向部材26上および架台10C、10D上に配置した状態を示す正面図In the method for replacing the superstructure member according to the first embodiment, the new superstructure members 160X, 160Y, 160Z constituting the new superstructure member 160 are used with a crane (not shown) to be a member in the direction perpendicular to the bridge axis for receiving the superstructure member. Front view showing the state of being arranged on the 26 and the gantry 10C and 10D. 第1実施形態に係る上部工部材架け替え方法において、新設上部工部材160X、160Y、160Zを、添接板160Aで連結し、架設する新設上部工部材160を組み立てた状態を示す正面図Front view showing a state in which the new superstructure members 160X, 160Y, 160Z are connected by a splicing plate 160A and the newly installed superstructure member 160 to be erected is assembled in the superstructure member replacement method according to the first embodiment. 第1実施形態に係る上部工部材架け替え方法において、新設上部工部材160を昇降装置24で上昇させて、橋梁100の上部工としての所定の高さ位置に新設上部工部材160を配置した状態を示す正面図In the superstructure member replacement method according to the first embodiment, a state in which the new superstructure member 160 is raised by the elevating device 24 and the new superstructure member 160 is arranged at a predetermined height position as a superstructure of the bridge 100. Front view showing 第1実施形態に係る上部工部材架け替え方法において、新設上部工部材160の橋梁100への連結を終えた状態を示す正面図Front view showing a state in which the connection of the newly installed superstructure member 160 to the bridge 100 is completed in the superstructure member replacement method according to the first embodiment. 本発明の第2実施形態に係る上部工部材撤去設備50について、撤去する既設上部工部材110を下降させる前の状態を示す正面図The front view which shows the state before lowering the existing superstructure member 110 to be removed about the superstructure member removal equipment 50 which concerns on 2nd Embodiment of this invention. 本発明の第2実施形態に係る上部工部材撤去設備50について、撤去する既設上部工部材110を下降させた後の状態を示す正面図The front view which shows the state after lowering the existing superstructure member 110 to be removed about the superstructure member removal equipment 50 which concerns on 2nd Embodiment of this invention. 本発明の第2実施形態に係る上部工部材撤去設備50について、下降させた既設上部工部材110を切断後にクレーン200で吊り上げて撤去する直前の状態を示す正面図A front view showing a state immediately before the superstructure member removing facility 50 according to the second embodiment of the present invention is lifted by a crane 200 after cutting the lowered existing superstructure member 110 and removed. 本発明の第2実施形態に係る上部工部材撤去設備50について、撤去する既設上部工部材110を下降させる前の状態を示す断面図(切断位置は図7のIV−IV線に示す切断位置と同様の位置)A cross-sectional view showing a state before lowering the existing superstructure member 110 to be removed with respect to the superstructure member removal facility 50 according to the second embodiment of the present invention (the cutting position is the cutting position shown by the IV-IV line in FIG. 7). Similar position) 本発明の第2実施形態に係る上部工部材撤去設備50について、撤去する既設上部工部材110を下降させた後の状態を示す断面図(切断位置は図8のV−V線に示す切断位置と同様の位置)A cross-sectional view showing a state after the existing superstructure member 110 to be removed is lowered with respect to the superstructure member removal facility 50 according to the second embodiment of the present invention (the cutting position is the cutting position shown by the VV line in FIG. 8). Similar position) 本発明の第2実施形態に係る上部工部材撤去設備50について、下降させた既設上部工部材110を切断後にクレーン200で吊り上げて撤去する直前の状態を示す断面図(切断位置は図9のVI−VI線に示す切断位置と同様の位置)A cross-sectional view showing a state immediately before the superstructure member removing facility 50 according to the second embodiment of the present invention is lifted by a crane 200 after cutting the lowered existing superstructure member 110 (the cutting position is VI in FIG. 9). -Similar to the cutting position shown on the VI line) 本発明の第2実施形態に係る上部工部材撤去設備50の下部を橋軸方向に平行な鉛直面で切断した切断面を示す断面図(切断位置は図11のXIII−XIII線に示す切断位置と同様の位置)A cross-sectional view showing a cut surface obtained by cutting the lower portion of the superstructure member removing facility 50 according to the second embodiment of the present invention in a vertical plane parallel to the bridge axis direction (the cutting position is the cutting position shown by line XIII-XIII in FIG. 11). Similar position) 本発明の第2実施形態に係る上部工部材撤去設備50の下部を橋梁100の橋軸直角方向から見た正面図Front view of the lower part of the superstructure member removing facility 50 according to the second embodiment of the present invention as viewed from the direction perpendicular to the bridge axis of the bridge 100. 本発明の第2実施形態に係る上部工部材撤去設備50の上部を橋梁100の橋軸直角方向から見た正面図(図48のLVI部拡大図)A front view of the upper portion of the superstructure member removing facility 50 according to the second embodiment of the present invention as viewed from a direction perpendicular to the bridge axis of the bridge 100 (enlarged view of the LVI portion in FIG. 48). 図56のLVII−LVII線断面図FIG. 56 is a sectional view taken along line LVII-LVII. 本発明の第3実施形態に係る上部工部材撤去設備70について、撤去する既設上部工部材110を下降させる前の状態を示す正面図The front view which shows the state before lowering the existing superstructure member 110 to be removed about the superstructure member removal equipment 70 which concerns on 3rd Embodiment of this invention. 本発明の第3実施形態に係る上部工部材撤去設備70について、撤去する既設上部工部材110を下降させる前の状態を示す断面図(図60のLIX−LIX線断面図)A cross-sectional view showing a state before lowering the existing superstructure member 110 to be removed with respect to the superstructure member removal facility 70 according to the third embodiment of the present invention (LIX-LIX line sectional view of FIG. 60). 本発明の第3実施形態に係る上部工部材撤去設備70について、撤去する既設上部工部材110を下降させる前の状態を示す断面図(図58および図59のLX−LX線断面図)A cross-sectional view showing a state before lowering the existing superstructure member 110 to be removed with respect to the superstructure member removal facility 70 according to the third embodiment of the present invention (LX-LX line sectional view of FIGS. 58 and 59). 本発明の第3実施形態に係る上部工部材撤去設備70について、撤去する既設上部工部材110を下降させる前の状態を示す断面図(図58および図59のLXI−LXI線断面図)A cross-sectional view showing a state before lowering the existing superstructure member 110 to be removed with respect to the superstructure member removal facility 70 according to the third embodiment of the present invention (LXI-LXI line sectional view of FIGS. 58 and 59). 図61の下部を拡大して示す断面図FIG. 61 is an enlarged cross-sectional view showing the lower part of FIG. 図62のLXIII部拡大図LXIII part enlarged view of FIG. 62 図62のLXIV−LXIV線断面図LXIV-LXIV sectional view of FIG. 62 図64のLXV部拡大図Enlarged view of the LXV section of FIG. 本発明の第3実施形態に係る上部工部材撤去設備70の下部を橋梁100の橋軸直角方向から見た正面図(図62のLXVI−LXVI線矢視図)Front view of the lower part of the superstructure member removing facility 70 according to the third embodiment of the present invention as viewed from the direction perpendicular to the bridge axis of the bridge 100 (LXVI-LXVI line arrow view of FIG. 62). 第1実施形態の上部工部材撤去方法の変形例(橋脚102、104上に残置した既設上部工部材112、114を撤去する際に、軌条設備600、602を用いる場合)の1ステップの状態を模式的に示す正面図A modification of the method for removing superstructure members according to the first embodiment (when rail equipment 600, 602 is used when removing existing superstructure members 112, 114 left on piers 102, 104) is shown in one step. Schematic front view 同じく第1実施形態の上部工部材撤去方法の変形例の1ステップの状態を模式的に示す正面図Similarly, a front view schematically showing a one-step state of a modified example of the superstructure member removing method of the first embodiment. 図68のLXIX部拡大図Enlarged view of the LXIX part of FIG. 68 第1実施形態の上部工部材撤去方法の変形例(橋脚102、104上に残置した既設上部工部材112、114を撤去する際に、軌条設備600、602を用いる場合)の1ステップの状態を模式的に示す正面図A modification of the method for removing superstructure members according to the first embodiment (when rail equipment 600, 602 is used when removing existing superstructure members 112, 114 left on piers 102, 104) is shown in one step. Schematic front view 同じく第1実施形態の上部工部材撤去方法の変形例の1ステップの状態を模式的に示す正面図Similarly, a front view schematically showing a one-step state of a modified example of the superstructure member removing method of the first embodiment. 同じく第1実施形態の上部工部材撤去方法の変形例の1ステップの状態を模式的に示す正面図Similarly, a front view schematically showing a one-step state of a modified example of the superstructure member removing method of the first embodiment. 同じく第1実施形態の上部工部材撤去方法の変形例の1ステップの状態を模式的に示す正面図Similarly, a front view schematically showing a one-step state of a modified example of the superstructure member removing method of the first embodiment. 第1実施形態の上部工部材架け替え方法の変形例(橋脚102、104上に新たに新設上部工部材162、164を設置する際に、軌条設備600、602を用いる場合)の1ステップの状態を模式的に示す正面図One-step state of a modified example of the method for replacing superstructure members of the first embodiment (when rail facilities 600 and 602 are used when newly installing superstructure members 162 and 164 on piers 102 and 104). The front view schematically showing 同じく第1実施形態の上部工部材架け替え方法の変形例の1ステップの状態を模式的に示す正面図Similarly, a front view schematically showing a one-step state of a modified example of the superstructure member replacement method of the first embodiment.

以下、図面を参照して、本発明の実施形態に係る上部工部材撤去設備および上部工部材架け替え設備ならびに上部工部材撤去方法および上部工部材架け替え方法について詳細に説明する。 Hereinafter, with reference to the drawings, the superstructure member removal equipment and the superstructure member replacement equipment, the superstructure member removal method, and the superstructure member replacement method according to the embodiment of the present invention will be described in detail.

なお、以下の説明の中には、撤去対象の既設桁および新規に架設する新設桁が鋼製であることを念頭に置いた説明もあるが、本発明に係る上部工部材撤去設備および上部工部材架け替え設備ならびに上部工部材撤去方法および上部工部材架け替え方法においては、鋼以外の材料を主桁に用いた上部工部材(例えば、主桁としてコンクリート桁や合成桁等を備えた上部工部材)を対象とすることも可能である。 In the following explanation, although the existing girder to be removed and the new girder to be newly erected are made of steel, the superstructure member removal equipment and superstructure according to the present invention are explained. In the member replacement equipment, the superstructure member removal method, and the superstructure member replacement method, a superstructure member using a material other than steel for the main girder (for example, a superstructure having a concrete girder, a synthetic girder, etc. as the main girder). It is also possible to target (members).

(1)第1実施形態
(1−1)第1実施形態に係る上部工部材撤去設備の構成
図1〜図3は、本発明の第1実施形態に係る上部工部材撤去設備10を用いて、隣接する橋脚102、104の間の径間106内の既設上部工部材110を撤去している状況を示す正面図(橋梁100の橋軸直角方向から見た正面図)である。図1は撤去する既設上部工部材110を下降させる前の状態を示す正面図(図7のI線矢視図)であり、図2は撤去する既設上部工部材110を下降させた後の状態を示す正面図(図8のII線矢視図)であり、図3は下降させた既設上部工部材110を切断後にクレーン200で吊り上げて撤去する直前の状態を示す正面図(図9のIII線矢視図)である。なお、橋脚102、104の間の径間106は、詳細には、橋脚102上の支点102Aと橋脚104上の支点104Aとの間の領域のことである。また、撤去する既設上部工部材110は、切断面110A、110Bで切断されて橋梁100から切り離されている。
(1) First Embodiment (1-1) Configuration of Superstructure Member Removal Equipment According to First Embodiment FIGS. 1 to 3 use the superstructure member removal equipment 10 according to the first embodiment of the present invention. It is a front view (front view of the bridge 100 seen from the direction perpendicular to the bridge axis) showing the situation where the existing superstructure member 110 in the span 106 between the adjacent piers 102 and 104 is removed. FIG. 1 is a front view showing a state before lowering the existing superstructure member 110 to be removed (line I arrow view of FIG. 7), and FIG. 2 is a state after lowering the existing superstructure member 110 to be removed. FIG. 3 is a front view (viewed by arrow II in FIG. 8), and FIG. 3 is a front view showing a state immediately before the lowered existing superstructure member 110 is lifted by a crane 200 and removed after cutting (III in FIG. 9). Line arrow view). The span 106 between the piers 102 and 104 is, in detail, a region between the fulcrum 102A on the pier 102 and the fulcrum 104A on the pier 104. Further, the existing superstructure member 110 to be removed is cut at the cut surfaces 110A and 110B and separated from the bridge 100.

図4〜図6は、本発明の第1実施形態に係る上部工部材撤去設備10を用いて、隣接する橋脚102、104の間の径間106内の既設上部工部材110を撤去している状況を示す断面図(橋梁100の橋軸方向と平行な鉛直面で、橋梁100の橋軸直直角方向の中央部付近を切断した断面図)である。図4は撤去する既設上部工部材110を下降させる前の状態を示す断面図(図7のIV−IV線断面図)であり、図5は撤去する既設上部工部材110を下降させた後の状態を示す断面図(図8のV−V線断面図)であり、図6は下降させた既設上部工部材110を切断後にクレーン200で吊り上げて撤去する直前の状態を示す断面図(図9のVI−VI線断面図)である。 4 to 6 show that the existing superstructure member 110 in the span 106 between the adjacent bridge piers 102 and 104 is removed by using the superstructure member removal facility 10 according to the first embodiment of the present invention. It is a cross-sectional view which shows the situation (the cross-sectional view which cut the vicinity of the central part of the bridge 100 in the direction perpendicular to the bridge axis in the vertical plane parallel to the bridge axis direction of a bridge 100). FIG. 4 is a cross-sectional view showing a state before lowering the existing superstructure member 110 to be removed (FIG. IV-IV sectional view of FIG. 7), and FIG. 5 is a cross-sectional view after lowering the existing superstructure member 110 to be removed. It is a cross-sectional view showing a state (VV line cross-sectional view of FIG. 8), and FIG. 6 is a cross-sectional view (FIG. 9) showing a state immediately before the lowered existing superstructure member 110 is cut and then lifted by a crane 200 and removed. VI-VI line sectional view).

図7〜図9は、本発明の第1実施形態に係る上部工部材撤去設備10を用いて、橋梁100の隣接する橋脚102、104の間の径間106内の既設上部工部材110を撤去している状況を示す断面図(橋梁100の橋軸直角方向と平行な鉛直面で、橋梁100を切断した断面図)である。図7は撤去する既設上部工部材110を下降させる前の状態を示す断面図(図1および図4のVII−VII線断面図)であり、図8は撤去する既設上部工部材110を下降させた後の状態を示す断面図(図2および図5のVIII−VIII線断面図)であり、図9は下降させた既設上部工部材110を切断後にクレーン200で吊り上げて撤去する直前の状態を示す断面図(図3および図6のIX−IX線断面図)である。図1および図4に図7の断面図の切断位置を示し、図2および図5に図8の断面図の切断位置を示し、図3および図6に図9の断面図の切断位置を示すように、いずれの切断位置も橋脚102を切断する位置ではなく、図7〜図9において、既設上部工部材110以外の部位は、橋軸方向から見た側面図と同様の図となっている。なお、図3、図6および図9において、クレーン200の本体は記載しておらず、吊り上げに用いるフック等のみ記載しており、このフック等に符号200を付している。 7 to 9 show that the existing superstructure member 110 in the span 106 between the adjacent piers 102 and 104 of the bridge 100 is removed by using the superstructure member removal facility 10 according to the first embodiment of the present invention. It is a cross-sectional view (cross-sectional view of the bridge 100 cut in a vertical plane parallel to the direction perpendicular to the bridge axis of the bridge 100) showing the situation. FIG. 7 is a cross-sectional view (sectional view taken along the line VII-VII of FIGS. 1 and 4) showing a state before lowering the existing superstructure member 110 to be removed, and FIG. 8 shows the existing superstructure member 110 to be removed being lowered. It is a cross-sectional view (FIG. 2 and FIG. 5 VIII-VIII cross-sectional view) showing the state after the operation, and FIG. 9 shows the state immediately before the lowered existing superstructure member 110 is lifted by the crane 200 after being cut and removed. It is a cross-sectional view (IX-IX line cross-sectional view of FIG. 3 and FIG. 6) shown. 1 and 4 show the cutting position of the cross-sectional view of FIG. 7, FIG. 2 and 5 show the cutting position of the cross-sectional view of FIG. 8, and FIGS. 3 and 6 show the cutting position of the cross-sectional view of FIG. As described above, none of the cutting positions is the position where the bridge pier 102 is cut, and in FIGS. 7 to 9, the parts other than the existing superstructure member 110 are the same as the side views seen from the bridge axial direction. .. Note that, in FIGS. 3, 6 and 9, the main body of the crane 200 is not described, only the hooks and the like used for lifting are described, and reference numerals 200 are attached to the hooks and the like.

図10は、本発明の第1実施形態に係る上部工部材撤去設備10を用いて、橋梁100の隣接する橋脚102、104の間の径間106内の既設上部工部材110を撤去している状況を示す断面図(橋梁100の橋軸直角方向と平行な鉛直面で、橋梁100を切断した断面図)であり、撤去する既設上部工部材110を下降させる前の状態を示す断面図(図1および図4のX−X線断面図)である。図1および図4に図10の断面図の切断位置を示すように、図10は、上下方向レール22のウェブの中央部付近を通る、橋梁100の橋軸直角方向と平行な鉛直面で切断して得られた断面を示す断面図である。 In FIG. 10, the existing superstructure member 110 in the span 106 between the adjacent piers 102 and 104 of the bridge 100 is removed by using the superstructure member removal facility 10 according to the first embodiment of the present invention. It is a cross-sectional view (a cross-sectional view of the bridge 100 cut at a vertical plane parallel to the direction perpendicular to the bridge axis of the bridge 100) showing the situation, and is a cross-sectional view (FIG.) showing the state before lowering the existing superstructure member 110 to be removed. 1 and FIG. 4 are sectional views taken along line XX. As shown in FIGS. 1 and 4 showing the cutting position in the cross-sectional view of FIG. 10, FIG. 10 is cut in a vertical plane parallel to the bridge axis perpendicular direction of the bridge 100, passing near the center of the web of the vertical rail 22. It is sectional drawing which shows the cross section obtained by this.

図11は、図10の下部を拡大して示す断面図であり、図12は、図11のXII部拡大図である。図13は、図11のXIII−XIII線断面図であり、図14は、図13のXIV部拡大図である。 FIG. 11 is an enlarged cross-sectional view showing the lower part of FIG. 10, and FIG. 12 is an enlarged view of the XII portion of FIG. 13 is a cross-sectional view taken along the line XIII-XIII of FIG. 11, and FIG. 14 is an enlarged view of the XIV portion of FIG.

図15は、本発明の第1実施形態に係る上部工部材撤去設備10の下部を橋梁100の橋軸直角方向から見た正面図(図11のXV−XV線矢視図)である。 FIG. 15 is a front view (XV-XV line arrow view of FIG. 11) of the lower portion of the superstructure member removing facility 10 according to the first embodiment of the present invention as viewed from a direction perpendicular to the bridge axis of the bridge 100.

図16は、本発明の第1実施形態に係る上部工部材撤去設備10の上部を橋梁100の橋軸直角方向から見た正面図(図1のXVI部拡大図)であり、図17は、本発明の第1実施形態に係る上部工部材撤去設備10の上部を橋梁100の橋軸方向から見た側面図である。図18は、図16のXVIII−XVIII線断面図である。ただし、図18では、本体部20の部材のみを記している。 FIG. 16 is a front view (enlarged view of the XVI portion of FIG. 1) of the upper portion of the superstructure member removing facility 10 according to the first embodiment of the present invention as viewed from a direction perpendicular to the bridge axis of the bridge 100, and FIG. It is a side view which looked at the upper part of the superstructure member removal equipment 10 which concerns on 1st Embodiment of this invention from the bridge axis direction of a bridge 100. FIG. 18 is a cross-sectional view taken along the line XVIII-XVIII of FIG. However, in FIG. 18, only the member of the main body 20 is shown.

なお、以下では、橋梁100の橋軸方向を単に「橋軸方向」と記し、橋梁100の橋軸直角方向を単に「橋軸直角方向」と記すことがある。 In the following, the bridge axis direction of the bridge 100 may be simply referred to as "bridge axis direction", and the bridge axis perpendicular direction of the bridge 100 may be simply referred to as "bridge axis perpendicular direction".

本発明の第1実施形態に係る上部工部材撤去設備10は、橋脚102に近接した左側設備10Aと、橋脚104に近接した右側設備10Bと、2つの架台10C、10Dと、からなる。上部工部材撤去設備10の左側設備10Aと右側設備10Bとは、撤去する既設上部工部材110の長さとほぼ同じ長さだけ橋軸方向に隔てられて対向して配置されている。架台10C、10Dは、橋軸直角方向から見て、撤去する既設上部工部材110をおおよそ3等分するような位置で、かつ、撤去する既設上部工部材110の下方に配置されている。 The superstructure member removing facility 10 according to the first embodiment of the present invention includes a left side facility 10A close to the pier 102, a right side facility 10B close to the pier 104, and two pedestals 10C and 10D. The left side equipment 10A and the right side equipment 10B of the superstructure member removing facility 10 are arranged so as to face each other with a length substantially the same as the length of the existing superstructure member 110 to be removed in the bridge axial direction. The gantry 10C and 10D are arranged at a position that roughly divides the existing superstructure member 110 to be removed into three equal parts when viewed from the direction perpendicular to the bridge axis, and below the existing superstructure member 110 to be removed.

上部工部材撤去設備10の左側設備10Aと右側設備10Bは同じ構成であり、どちらも、本体部20と、反力受け基礎部40と、を有してなり、本体部20の下方に反力受け基礎部40が配置されている。本体部20は撤去する既設上部工部材110の端部を直接的に支持しつつ、安全に下降させる機能を有する部位である。反力受け基礎部40は、本体部20が支持する既設上部工部材110の荷重の少なくとも一部を、橋脚102、104を経由させずに安全に地盤500に伝達する機能を有する部位である。本第1実施形態に係る上部工部材撤去設備10は、反力受け基礎部40を備えることにより、撤去する既設上部工部材110を支持しつつ下降させる際に本体部20が受ける荷重の少なくとも一部を、橋脚102、104を経由させずに地盤500に伝達することができるので、本体部20が既設上部工部材110を支持しつつ下降させる際にも、橋脚102、104に伝達される荷重を、橋脚102、104の安全性を確保できる範囲内にすることができる。 The left side equipment 10A and the right side equipment 10B of the superstructure member removal equipment 10 have the same configuration, and both have a main body portion 20 and a reaction force receiving base portion 40, and a reaction force is applied below the main body portion 20. The receiving base portion 40 is arranged. The main body portion 20 is a portion having a function of safely lowering while directly supporting the end portion of the existing superstructure member 110 to be removed. The reaction force receiving foundation portion 40 is a portion having a function of safely transmitting at least a part of the load of the existing superstructure member 110 supported by the main body portion 20 to the ground 500 without passing through the piers 102 and 104. The superstructure member removing facility 10 according to the first embodiment includes the reaction force receiving foundation portion 40, so that at least one of the loads received by the main body portion 20 when the existing superstructure member 110 to be removed is supported and lowered. Since the portion can be transmitted to the ground 500 without passing through the piers 102 and 104, the load transmitted to the piers 102 and 104 even when the main body portion 20 lowers while supporting the existing superstructure member 110. Can be set within a range in which the safety of the piers 102 and 104 can be ensured.

本体部20を構成する部材および反力受け基礎部40を構成する部材について説明する際に、左側設備10Aの部材または右側設備10Bの部材として取り上げて説明することがあるが、説明していない側の設備の対応する部材についても同様の説明が当てはまるので、左側設備10Aと右側設備10Bの対応する部材には同一の符号を付しており、左側設備10Aまたは右側設備10Bのうちの片方の部材のみを取り上げて説明して、他方の対応する部材についての説明は省略することがある。 When explaining the member constituting the main body portion 20 and the member constituting the reaction force receiving base portion 40, the member may be taken up as a member of the left side equipment 10A or a member of the right side equipment 10B, but the side not described. Since the same explanation applies to the corresponding members of the equipment of, the corresponding members of the left side equipment 10A and the right side equipment 10B are given the same reference numerals, and one of the left side equipment 10A or the right side equipment 10B is given the same reference numerals. Only will be taken up and described, and the description of the other corresponding member may be omitted.

本体部20は、上下方向レール22と、昇降装置24と、上部工部材受け用橋軸直角方向部材26と、レール保持用上下方向部材28と、橋軸直角方向連結部材30と、反対側橋軸直角方向連結部材32と、橋軸方向連結部材34と、残置部受け用橋軸直角方向部材36と、を有してなる。 The main body 20 includes a vertical rail 22, an elevating device 24, a bridge axis perpendicular member 26 for receiving superstructure members, a vertical member 28 for holding rails, a bridge axis perpendicular connecting member 30, and a bridge on the opposite side. It includes a shaft perpendicular direction connecting member 32, a bridge axial direction connecting member 34, and a bridge axis perpendicular direction member 36 for receiving a remaining portion.

上下方向レール22は、橋梁100の橋軸方向に隣接する橋脚102、104それぞれに上下方向に取り付けられていて、橋脚102、104それぞれについて、橋梁100の橋軸直角方向に間隔を開けて4本ずつ配置されている。 The vertical rails 22 are vertically attached to the piers 102 and 104 adjacent to each other in the bridge axis direction of the bridge 100, and four piers 102 and 104 are spaced apart from each other in the direction perpendicular to the bridge axis of the bridge 100. They are arranged one by one.

また、上下方向レール22は、橋梁100の橋軸直角方向から見て、橋脚102、104の間の径間106内に位置しており、かつ、その位置は、橋脚102、104の対向する側面に近傍の位置であり、径間106の端部付近である。図1〜図6に示すように、撤去する既設上部工部材110の両端面の位置は、切断面110A、110Bであるところ、上下方向レール22は、その全体が、切断面110A、110Bの位置よりもさらに橋脚102、104に近い位置に位置している。このため、上方から見て、撤去する既設上部工部材110は、橋脚102、104と重ならないだけでなく、上下方向レール22とも重ならない。 Further, the vertical rail 22 is located within the span 106 between the piers 102 and 104 when viewed from the direction perpendicular to the bridge axis of the bridge 100, and the position is the opposite side surface of the piers 102 and 104. It is a position near to, and is near the end of the span 106. As shown in FIGS. 1 to 6, the positions of both end faces of the existing superstructure member 110 to be removed are the cut surfaces 110A and 110B, but the vertical rail 22 is the position of the cut surfaces 110A and 110B as a whole. It is located closer to the piers 102 and 104 than the piers 102 and 104. Therefore, when viewed from above, the existing superstructure member 110 to be removed not only does not overlap with the piers 102 and 104, but also does not overlap with the vertical rail 22.

上下方向レール22はH鋼であり、上下方向レール22に沿って上下に移動する昇降装置24と直接的に連結する部材であり、昇降装置24を支持するとともにその移動方向を案内する設備である。 The vertical rail 22 is H-steel, and is a member that is directly connected to the lifting device 24 that moves up and down along the vertical rail 22, and is a facility that supports the lifting device 24 and guides the moving direction thereof. ..

また、本第1実施形態では、上下方向レール22は、上下方向レール22よりも大きい断面形状のH鋼であるレール保持用上下方向部材28に取り付けられて、橋脚102、104に取り付けられている。図19は、上下方向レール22がレール保持用上下方向部材28に取り付けられた状態をその長手方向から見た図である。上下方向レール22においては適宜の間隔で補強プレート22Cが設けられ、レール保持用上下方向部材28においては適宜の間隔で補強プレート28Cが設けられている。上下方向レール22の補強プレート22Cには、切り欠き22C1がフランジ22Aの近傍の部位に設けられており、上下に移動する昇降装置24と干渉しないようになっている。 Further, in the first embodiment, the vertical rail 22 is attached to the rail holding vertical member 28 which is H-steel having a cross section larger than that of the vertical rail 22, and is attached to the piers 102 and 104. .. FIG. 19 is a view of a state in which the vertical rail 22 is attached to the rail holding vertical member 28 from the longitudinal direction thereof. Reinforcing plates 22C are provided at appropriate intervals in the vertical rail 22, and reinforcing plates 28C are provided at appropriate intervals in the rail holding vertical member 28. The reinforcing plate 22C of the vertical rail 22 is provided with a notch 22C1 in a portion near the flange 22A so as not to interfere with the lifting device 24 that moves up and down.

撤去する既設上部工部材110の重量と昇降装置24の出力から、必要な昇降装置24の数を算出し、必要な昇降装置24の数と同数以上の上下方向レール22を橋脚102、104に設置する。撤去する既設上部工部材110の両端部付近に位置する橋脚102、104の対向する側面の近傍にそれぞれ同数の昇降装置24を配置するので、算出した必要な昇降装置24の数の半数以上の数だけ、上下方向レール22および昇降装置24を、橋脚102、104それぞれに設置する。ここで、上下方向レール22および昇降装置24を設置する数を、計算で得られた必要数の「半数以上の数」としたのは、計算で得られた必要数の半数を橋脚102、104それぞれに設置するだけでも計算上は足りるが、必要数の半数よりも多い数だけを橋脚102、104それぞれに設置することにより、撤去する既設上部工部材110を支持する昇降装置24の合計の出力に余裕が得られるようにしてもよいという趣旨である。ただし、必要数よりも多く設置しすぎるとコスト増が大きくなるので、その点に留意する。 The required number of lifting devices 24 is calculated from the weight of the existing superstructure member 110 to be removed and the output of the lifting device 24, and the number of vertical rails 22 equal to or more than the required number of lifting devices 24 are installed on the piers 102 and 104. To do. Since the same number of lifting devices 24 are arranged near the opposite side surfaces of the piers 102 and 104 located near both ends of the existing superstructure member 110 to be removed, the number of the required lifting devices 24 is more than half of the calculated number. Only, the vertical rail 22 and the elevating device 24 are installed on the piers 102 and 104, respectively. Here, the number of vertical rails 22 and the lifting device 24 to be installed is set to "more than half of the required number obtained by calculation" because half of the required number obtained by calculation is the piers 102 and 104. It is sufficient for calculation to install each of them, but by installing more than half of the required number on each of the piers 102 and 104, the total output of the lifting device 24 that supports the existing superstructure member 110 to be removed. The idea is that it may be possible to obtain a margin. However, keep in mind that if you install more than the required number, the cost will increase significantly.

また、出力の大きい昇降装置24を設置するためには、それに見合った断面性能を有する上下方向レール22およびレール保持用上下方向部材28を用いる必要があるので、上下方向レール22およびレール保持用上下方向部材28の断面性能と昇降装置24の出力とのバランスに配慮して、採用する上下方向レール22およびレール保持用上下方向部材28の断面性能および数と昇降装置24の数を決定することが好ましい。 Further, in order to install the elevating device 24 having a large output, it is necessary to use the vertical rail 22 and the vertical member 28 for holding the rail having the cross-sectional performance commensurate with the vertical rail 22, so that the vertical rail 22 and the vertical rail holding vertical member 28 are used. Considering the balance between the cross-sectional performance of the directional member 28 and the output of the lifting device 24, it is possible to determine the cross-sectional performance and number of the vertical rail 22 and the vertical member 28 for holding the rail and the number of the lifting device 24 to be adopted. preferable.

左側設備10Aの上下方向レール22と橋脚102との間および右側設備10Bの上下方向レール22と橋脚104との間には、図1〜図6、図13、図14に示すように、上下方向レール22と同一の方向に延びるレール保持用上下方向部材28が配置されている。前述したように、上下方向レール22はH鋼であり、レール保持用上下方向部材28もH鋼である。図14に示すように、上下方向レール22の橋脚102に近い側のフランジ22Bは、レール保持用上下方向部材28の橋脚102から遠い側のフランジ28Aにボルト22B1によって取り付けられており、上下方向レール22は、長手方向が同一方向となるように、レール保持用上下方向部材28に連結されている。また、レール保持用上下方向部材28は、橋軸直角方向連結部材30に取り付けられているところ、図18、図1、図11、図13等に示すように、橋軸直角方向連結部材30、反対側橋軸直角方向連結部材32および橋軸方向連結部材34は、橋脚102、104それぞれの周囲を一周巻き込むようにして配置されており、橋脚102、104それぞれに隙間なく取り付けられていて、橋脚102、104に一体的に固定されるように取り付けられている。したがって、上下方向レール22は、レール保持用上下方向部材28、橋軸直角方向連結部材30、反対側橋軸直角方向連結部材32および橋軸方向連結部材34を介して、橋脚102、104に一体的に固定されるように橋脚102、104に取り付けられている。 As shown in FIGS. 1 to 6, FIG. 13, and FIG. 14, there is a vertical direction between the vertical rail 22 of the left equipment 10A and the bridge pedestal 102 and between the vertical rail 22 of the right equipment 10B and the bridge pedestal 104. A rail holding vertical member 28 extending in the same direction as the rail 22 is arranged. As described above, the vertical rail 22 is made of H steel, and the vertical member 28 for holding the rail is also made of H steel. As shown in FIG. 14, the flange 22B on the side of the vertical rail 22 near the bridge pedestal 102 is attached to the flange 28A on the side far from the bridge pedestal 102 of the rail holding vertical member 28 by bolts 22B1. The 22 is connected to the rail holding vertical member 28 so that the longitudinal directions are the same. Further, the vertical member 28 for holding the rail is attached to the bridge axis perpendicular direction connecting member 30, and as shown in FIGS. 18, 1, 1, 11, 13, and the like, the bridge axis right angle connecting member 30, The opposite side bridge axis perpendicular direction connecting member 32 and the bridge axis direction connecting member 34 are arranged so as to wrap around the piers 102 and 104, respectively, and are attached to the piers 102 and 104 without gaps. It is attached so as to be integrally fixed to 102 and 104. Therefore, the vertical rail 22 is integrated with the piers 102 and 104 via the vertical member 28 for holding the rail, the bridge axis perpendicular direction connecting member 30, the opposite side bridge axis perpendicular direction connecting member 32, and the bridge axial connecting member 34. It is attached to the piers 102 and 104 so as to be fixed.

ただし、橋脚102、104それぞれの周囲を一周巻き込むようにして配置されている、橋軸直角方向連結部材30、反対側橋軸直角方向連結部材32および橋軸方向連結部材34は、後打ちアンカー等による接合で橋脚102、104に取り付けられているわけではなく、橋脚102、104それぞれの周囲を一周巻き込むようにして配置されていて、橋脚102、104の外周面と密着しているだけであるので、撤去する既設上部工部材110を橋梁100から切り離して下降させる際に上下方向レール22およびレール保持用上下方向部材28に加わる下向きの荷重は、橋脚102、104にはほとんど伝達されず、上下方向レール22およびレール保持用上下方向部材28に加わる下向きの荷重の大部分は、反力受け基礎部40を介して地盤500に伝達される。橋軸直角方向連結部材30、反対側橋軸直角方向連結部材32および橋軸方向連結部材34は、上下方向レール22およびレール保持用上下方向部材28に加わる下向きの荷重を橋脚102、104に伝達する役割は有しておらず、既設上部工部材110を橋梁100から切り離して下降させる際に上下方向レール22およびレール保持用上下方向部材28に下向きの荷重が加わった際にも、上下方向レール22およびレール保持用上下方向部材28が上下方向に立設した状態を保持できるように補助することが、橋軸直角方向連結部材30、反対側橋軸直角方向連結部材32および橋軸方向連結部材34の役割である。 However, the bridge axis orthogonal direction connecting member 30, the opposite side bridge axis orthogonal direction connecting member 32, and the bridge axis direction connecting member 34, which are arranged so as to wrap around each of the piers 102 and 104, are post-launch anchors and the like. It is not attached to the piers 102 and 104 by joining with, but it is arranged so as to wrap around the piers 102 and 104, and is only in close contact with the outer peripheral surfaces of the piers 102 and 104. The downward load applied to the vertical rail 22 and the vertical member 28 for holding the rail when the existing superstructure member 110 to be removed is separated from the bridge 100 and lowered is hardly transmitted to the piers 102 and 104, and is hardly transmitted in the vertical direction. Most of the downward load applied to the rail 22 and the rail holding vertical member 28 is transmitted to the ground 500 via the reaction force receiving base portion 40. The bridge axis orthogonal direction connecting member 30, the opposite side bridge axis orthogonal direction connecting member 32, and the bridge axis direction connecting member 34 transmit the downward load applied to the vertical rail 22 and the vertical member 28 for holding the bridge to the piers 102 and 104. It does not have a role to play, and even when a downward load is applied to the vertical rail 22 and the vertical member 28 for holding the rail when the existing superstructure member 110 is separated from the bridge 100 and lowered, the vertical rail Assisting the 22 and the vertical member 28 for holding the rail to hold the standing state in the vertical direction is to assist the bridge axis orthogonal direction connecting member 30, the opposite side bridge axis perpendicular direction connecting member 32, and the bridge axis direction connecting member. There are 34 roles.

橋軸直角方向連結部材30、反対側橋軸直角方向連結部材32および橋軸方向連結部材34としては、具体的には例えばH鋼を用いることができる。 Specifically, for example, H steel can be used as the bridge axis perpendicular direction connecting member 30, the opposite side bridge axis perpendicular direction connecting member 32, and the bridge axis direction connecting member 34.

昇降装置24は、上下方向レール22に沿って上下に移動する昇降装置である。撤去する既設上部工部材110の両端部に位置する橋脚102、104それぞれに4本の上下方向レール22が取り付けられていて、上下方向レール22それぞれに1つの昇降装置24が取り付けられており、径間106内において、橋脚102、104それぞれに昇降装置24が4台ずつ配置されている。 The elevating device 24 is an elevating device that moves up and down along the vertical rail 22. Four vertical rails 22 are attached to each of the piers 102 and 104 located at both ends of the existing superstructure member 110 to be removed, and one lifting device 24 is attached to each of the vertical rails 22. Within the space 106, four lifting devices 24 are arranged on each of the piers 102 and 104.

図16、図17、図7等に示すように、1つの昇降装置24は、1つのクレビスジャッキ24A、2つのH鋼クランプ24B、1つのブラケット24Cを有してなり、クレビスジャッキ24Aの上下の両端部にH鋼クランプ24Bがそれぞれ取り付けられている。クレビスジャッキ24Aの上端(ロッド24A1の先端)に取り付けられたH鋼クランプ24Bには、ブラケット24Cが取り付けられている。そして、4つの昇降装置24の4つのブラケット24Cが、上部工部材受け用橋軸直角方向部材26を下方から支持している。上部工部材受け用橋軸直角方向部材26は、既設上部工部材110の橋軸直角方向の長さに相当する長さ以上の長さを有する鋼製の長尺部材であり、橋軸直角方向に水平方向に配置されており、上部工部材受け用橋軸直角方向部材26が、既設上部工部材110の橋軸方向両端部を下方から支持する。 As shown in FIGS. 16, 17, 7, and the like, one elevating device 24 includes one clevis jack 24A, two H-steel clamps 24B, and one bracket 24C, which are above and below the clevis jack 24A. H steel clamps 24B are attached to both ends. A bracket 24C is attached to the H-steel clamp 24B attached to the upper end of the clevis jack 24A (the tip of the rod 24A1). Then, four brackets 24C of the four elevating devices 24 support the bridge axis perpendicular direction member 26 for receiving the superstructure member from below. The bridge axis perpendicular direction member 26 for receiving the superstructure member is a long steel member having a length equal to or longer than the length corresponding to the length in the bridge axis perpendicular direction of the existing superstructure member 110, and is in the direction perpendicular to the bridge axis. The bridge axis perpendicular direction member 26 for receiving the superstructure member supports both ends of the existing superstructure member 110 in the bridge axis direction from below.

図20および図21は、昇降装置24のクレビスジャッキ24AおよびH鋼クランプ24Bが上下方向レール22に沿って移動する機構を模式的に示す図であり、図20は橋軸直角方向から見た図であり、図21は橋軸方向から見た図である。図20および図21においては、ブラケット24Cおよび上部工部材受け用橋軸直角方向部材26の記載は省略している。 20 and 21 are views schematically showing a mechanism in which the clevis jack 24A and the H steel clamp 24B of the elevating device 24 move along the vertical rail 22, and FIG. 20 is a view seen from a direction perpendicular to the bridge axis. FIG. 21 is a view seen from the direction of the bridge axis. In FIGS. 20 and 21, the description of the bracket 24C and the bridge axis perpendicular direction member 26 for receiving the superstructure member is omitted.

図20(a)および図21(a)は、クレビスジャッキ24Aのロッド24A1が収縮した状態であり、この状態において、クレビスジャッキ24Aの下端に取り付けられたH鋼クランプ24Bは解放されており、クレビスジャッキ24Aの上端(ロッド24A1の先端)に取り付けられたH鋼クランプ24Bは締め付けられている。次に、図20(b)および図21(b)に示すように、クレビスジャッキ24Aのロッド24A1を伸長させる。ロッド24A1の伸長完了後、クレビスジャッキ24Aの下端に取り付けられたH鋼クランプ24Bを締め付け、その後にロッド24A1の先端に取り付けられたH鋼クランプ24Bを解放し、ロッド24A1を収縮させて図20(c)および図21(c)に示す状態にする。図20(c)および図21(c)に示す状態において、クレビスジャッキ24Aの上端(ロッド24A1の先端)に取り付けられたH鋼クランプ24Bを締め付けた後、クレビスジャッキ24Aの下端に取り付けられたH鋼クランプ24Bを解放することで、昇降装置24は図20(a)および図21(a)と同様の状態にもどり、昇降装置24の移動の1サイクルが完了して、昇降装置24はクレビスジャッキ24Aのロッド24A1の1ストローク分の距離だけ下方に移動したことになる。 20 (a) and 21 (a) show a state in which the rod 24A1 of the clevis jack 24A is contracted, and in this state, the H steel clamp 24B attached to the lower end of the clevis jack 24A is released, and the clevis The H steel clamp 24B attached to the upper end of the jack 24A (the tip of the rod 24A1) is tightened. Next, as shown in FIGS. 20 (b) and 21 (b), the rod 24A1 of the clevis jack 24A is extended. After the extension of the rod 24A1 is completed, the H steel clamp 24B attached to the lower end of the clevis jack 24A is tightened, and then the H steel clamp 24B attached to the tip of the rod 24A1 is released to contract the rod 24A1. The state shown in c) and FIG. 21 (c) is set. In the state shown in FIGS. 20 (c) and 21 (c), after tightening the H steel clamp 24B attached to the upper end (tip of the rod 24A1) of the clevis jack 24A, the H attached to the lower end of the clevis jack 24A. By releasing the steel clamp 24B, the elevating device 24 returns to the same state as in FIGS. 20 (a) and 21 (a), one cycle of movement of the elevating device 24 is completed, and the elevating device 24 is a clevis jack. This means that the rod 24A1 of the 24A has moved downward by the distance of one stroke.

図20(a)〜(c)および図21(a)〜(c)に示す動作を繰り返すことで、昇降装置24は上下方向レール22に沿って下方に移動していくことができる。昇降装置24を上方に移動させる際には、クレビスジャッキ24Aの上下の両端部に取り付けられた2つのH鋼クランプ24Bの締め付けおよび解放の動作を、下方に移動させるときとは逆にすればよい。 By repeating the operations shown in FIGS. 20 (a) to 20 (c) and 21 (a) to 21 (c), the elevating device 24 can move downward along the vertical rail 22. When moving the elevating device 24 upward, the tightening and releasing operations of the two H-steel clamps 24B attached to the upper and lower ends of the clevis jack 24A may be reversed from those when moving the lifting device 24 downward. ..

本第1実施形態に係る上部工部材撤去設備10は、左側設備10Aおよび右側設備10Bのそれぞれにおいて4つの昇降装置24を用いており、合計で8つの昇降装置24(8つのクレビスジャッキ24A)を用いている。既設上部工部材110を下方向にスムーズに下降させるためには、合計で8つのクレビスジャッキ24Aの動作を同期同調させることが必要であるが、これは一般的に用いられているコンピュータ制御技術により行うことができる。 The superstructure member removing facility 10 according to the first embodiment uses four lifting devices 24 in each of the left side facility 10A and the right side facility 10B, and a total of eight lifting devices 24 (eight clevis jacks 24A) are used. I am using it. In order to smoothly lower the existing superstructure member 110 downward, it is necessary to synchronize the operations of a total of eight clevis jacks 24A, which is due to the commonly used computer control technology. It can be carried out.

上部工部材受け用橋軸直角方向部材26は、既設上部工部材110の橋軸直角方向の長さに相当する長さ以上の長さを有する鋼製の長尺部材であり、橋軸直角方向に水平方向に配置されており、既設上部工部材110の橋軸方向両端部を下方から支持する。また、上部工部材受け用橋軸直角方向部材26は、4つの昇降装置24の4つのブラケット24Cによって下方から支持されており、昇降装置24が上下方向に移動することに伴って、上部工部材受け用橋軸直角方向部材26も上下方向に移動できるようになっている。 The bridge axis perpendicular direction member 26 for receiving the superstructure member is a long steel member having a length equal to or longer than the length corresponding to the length in the bridge axis perpendicular direction of the existing superstructure member 110, and is in the direction perpendicular to the bridge axis. It is arranged in the horizontal direction, and supports both ends of the existing superstructure member 110 in the bridge axial direction from below. Further, the bridge axis perpendicular direction member 26 for receiving the superstructure member is supported from below by the four brackets 24C of the four elevating devices 24, and as the elevating device 24 moves in the vertical direction, the superstructure member The member 26 in the direction perpendicular to the receiving bridge axis can also be moved in the vertical direction.

本第1実施形態では、上部工部材受け用橋軸直角方向部材26として、長さ方向に適宜の間隔で補強用のプレートが溶接されたH鋼を用いている。 In the first embodiment, as the member 26 in the direction perpendicular to the bridge axis for receiving the superstructure member, H steel in which reinforcing plates are welded at appropriate intervals in the length direction is used.

レール保持用上下方向部材28は、図1〜図6、図13、図14に示すように、上下方向レール22と同一の方向に延びるH鋼であり、左側設備10Aの上下方向レール22と橋脚102との間および右側設備10Bの上下方向レール22と橋脚104との間に配置されており、前述したようにボルト22B1によって上下方向レール22に連結されている。 As shown in FIGS. 1 to 6, 13 and 14, the rail holding vertical member 28 is H steel extending in the same direction as the vertical rail 22, and is the vertical rail 22 and the bridge pedestal of the left side equipment 10A. It is arranged between the 102 and the vertical rail 22 of the right side equipment 10B and the bridge pedestal 104, and is connected to the vertical rail 22 by the bolt 22B1 as described above.

レール保持用上下方向部材28は、上下方向レール22を補強および補剛するとともに、上下方向レール22同士をその長手方向に継ぎ合わせる際の連結部となる役割を有する。レール保持用上下方向部材28を備えることにより、上下方向レール22同士をその長手方向に継ぎ合わせる際にも、上下方向レール22に添わせる添え板等の部材を不要にすることができる。このため、レール保持用上下方向部材28を備えることにより、上下方向レール22は、その本来の役割(上下方向レール22に沿って上下に移動する昇降装置24と直接的に連結して支持するとともにその移動方向を案内する役割)を発揮しやすくなっている。 The vertical member 28 for holding the rail has a role of reinforcing and stiffening the vertical rail 22 and serving as a connecting portion when the vertical rails 22 are joined to each other in the longitudinal direction. By providing the vertical member 28 for holding the rail, it is possible to eliminate the need for a member such as a side plate to be attached to the vertical rail 22 even when the vertical rails 22 are joined to each other in the longitudinal direction. Therefore, by providing the vertical member 28 for holding the rail, the vertical rail 22 is directly connected to and supported by its original role (the lifting device 24 that moves up and down along the vertical rail 22). It is easy to exert the role of guiding the moving direction).

ただし、取り付けられた昇降装置24から、1本当たりの上下方向レール22に伝達される荷重が大きくない場合などで、レール保持用上下方向部材28を設けなくても安全上問題が生じないことを確認できた場合には、レール保持用上下方向部材28の設置を省略してもよい。 However, if the load transmitted from the attached elevating device 24 to the vertical rail 22 is not large, there will be no safety problem even if the vertical member 28 for holding the rail is not provided. If it can be confirmed, the installation of the rail holding vertical member 28 may be omitted.

橋軸直角方向連結部材30は、図1〜図18に示すように、橋脚102、104の橋軸方向の側方に、橋軸直角方向に配置されたH鋼部材であり、上下方向に間隔を開けて合計で4本配置されている。また、左側設備10Aのレール保持用上下方向部材28と橋脚102との間および右側設備10Bのレール保持用上下方向部材28と橋脚104との間に配置されている。また、図14に示すように、ボルト30A1によって、レール保持用上下方向部材28のフランジ28Bが橋軸直角方向連結部材30のフランジ30Aに連結されており、4本の橋軸直角方向連結部材30はそれぞれ4本のレール保持用上下方向部材28に井桁状に連結されている。 As shown in FIGS. 1 to 18, the bridge axis perpendicular direction connecting member 30 is an H steel member arranged on the side of the bridge piers 102 and 104 in the bridge axis direction in the direction perpendicular to the bridge axis, and is spaced vertically. A total of 4 bridges are placed after opening. Further, it is arranged between the rail holding vertical member 28 and the pier 102 of the left equipment 10A and between the rail holding vertical member 28 and the pier 104 of the right equipment 10B. Further, as shown in FIG. 14, the flange 28B of the rail holding vertical member 28 is connected to the flange 30A of the bridge axis perpendicular direction connecting member 30 by the bolt 30A1, and the four bridge axis perpendicular direction connecting members 30 are connected. Are connected to four rail-holding vertical members 28 in a grid shape.

このため、4本のレール保持用上下方向部材28は、橋軸直角方向連結部材30を介して相互に応力を伝達できるようになっており、4本のレール保持用上下方向部材28のうちの特定のレール保持用上下方向部材28に荷重が集中的に加わることを防止できるようになっている。また、同時に、橋軸直角方向連結部材30は、特定のレール保持用上下方向部材28のみの水平方向の変位が大きくなることを防止しており、レール保持用上下方向部材28が座屈することを防止している。 Therefore, the four rail-holding vertical members 28 are capable of transmitting stress to each other via the bridge axis perpendicular-direction connecting member 30, and among the four rail-holding vertical members 28. It is possible to prevent a load from being intensively applied to the specific rail holding vertical member 28. At the same time, the bridge axis perpendicular direction connecting member 30 prevents the horizontal displacement of only the specific rail holding vertical member 28 from becoming large, so that the rail holding vertical member 28 buckles. It is preventing.

さらに、図18、図1〜図3、図7〜図10に示すように、橋軸直角方向連結部材30、反対側橋軸直角方向連結部材32および橋軸方向連結部材34は、橋脚102、104それぞれの周囲を一周巻き込むように配置されており、橋脚102、104それぞれに隙間なく取り付けられていて、橋脚102、104に一体的に固定されるように取り付けられている。このため、特定のレール保持用上下方向部材28へ応力が集中することや特定のレール保持用上下方向部材28のみの水平方向の変位が大きくなることを防止する効果がさらに大きくなっている。 Further, as shown in FIGS. 18, 1 to 3, 7 to 10, the bridge axis orthogonal direction connecting member 30, the opposite side bridge axis orthogonal direction connecting member 32, and the bridge axis direction connecting member 34 are the bridge pier 102. It is arranged so as to wrap around each of the 104, and is attached to the piers 102 and 104 without gaps, and is attached so as to be integrally fixed to the piers 102 and 104. Therefore, the effect of preventing stress from concentrating on the specific rail holding vertical member 28 and increasing the horizontal displacement of only the specific rail holding vertical member 28 is further increased.

また、橋軸方向連結部材34は、図18に示すように、4本のレール保持用上下方向部材28のうち、橋軸直角方向外側に位置する2本のレール保持用上下方向部材28に対応する位置(橋軸直角方向連結部材30および反対側橋軸直角方向連結部材32の橋軸直角方向の両端部付近)にも配置されていて、橋軸直角方向連結部材30および反対側橋軸直角方向連結部材32と連結しており、橋軸方向連結部材34は、1本の橋軸直角方向連結部材30および1本の反対側橋軸直角方向連結部材32あたり、橋軸直角方向に合計で4本配置されている。橋軸方向連結部材34を橋軸直角方向連結部材30および反対側橋軸直角方向連結部材32の橋軸直角方向の両端部付近にも配置して、橋軸直角方向連結部材30および反対側橋軸直角方向連結部材32に連結することにより、橋軸方向連結部材34は、橋軸直角方向連結部材30および反対側橋軸直角方向連結部材32の両端部付近の剛性も向上させている。 Further, as shown in FIG. 18, the bridge axial connecting member 34 corresponds to two rail holding vertical members 28 located outside in the direction perpendicular to the bridge axis among the four rail holding vertical members 28. It is also arranged at the position (near both ends of the bridge axis perpendicular direction connecting member 30 and the opposite side bridge axis perpendicular direction connecting member 32 in the bridge axis perpendicular direction), and the bridge axis perpendicular direction connecting member 30 and the opposite side bridge axis right angle. It is connected to the directional connecting member 32, and the bridge axis direction connecting member 34 is a total of one bridge axis perpendicular direction connecting member 30 and one opposite side bridge axis right angle connecting member 32 in the direction perpendicular to the bridge axis. Four are arranged. The bridge axis direction connecting member 34 is also arranged near both ends of the bridge axis perpendicular direction connecting member 30 and the opposite side bridge axis right angle direction connecting member 32 in the bridge axis orthogonal direction, and the bridge axis orthogonal direction connecting member 30 and the opposite side bridge. By connecting to the axially perpendicular connecting member 32, the bridge axially connecting member 34 also improves the rigidity in the vicinity of both ends of the bridge axis orthogonal direction connecting member 30 and the opposite side bridge axis orthogonal direction connecting member 32.

残置部受け用橋軸直角方向部材36は、既設上部工部材110を切断面110A、110Bで切断した後に、橋脚102、104の上方に残る既設上部工部材112、114を下方から支持する鋼製の長尺部材であり、既設上部工部材112、114の橋軸直角方向の長さに相当する長さ以上の長さを有する。残置部受け用橋軸直角方向部材36は、橋軸直角方向に水平方向に配置されていて、4本のレール保持用上下方向部材28によって下方から支持されており、橋脚102、104の上方に残る既設上部工部材112、114が橋脚102、104から落下しないように下方から支持する。具体的には、残置部受け用橋軸直角方向部材36は、残置部受け用橋軸直角方向部材36の下面に4本のレール保持用上下方向部材28の上端面が当接するように、4本のレール保持用上下方向部材28に取り付けられており、4本のレール保持用上下方向部材28が残置部受け用橋軸直角方向部材36を下方から支持している。 The bridge axis perpendicular direction member 36 for receiving the remaining portion is made of steel that supports the existing superstructure members 112 and 114 remaining above the bridge piers 102 and 104 from below after cutting the existing superstructure members 110 on the cut surfaces 110A and 110B. It is a long member of the above, and has a length equal to or longer than the length of the existing superstructure members 112 and 114 in the direction perpendicular to the bridge axis. The bridge axis perpendicular direction member 36 for receiving the remaining portion is arranged in the horizontal direction in the direction perpendicular to the bridge axis, is supported from below by the four rail holding vertical members 28, and is above the piers 102 and 104. The remaining existing superstructure members 112 and 114 are supported from below so as not to fall from the piers 102 and 104. Specifically, the remaining portion receiving bridge axis perpendicular direction member 36 is such that the upper end surfaces of the four rail holding vertical members 28 abut against the lower surface of the remaining portion receiving bridge axis perpendicular direction member 36. It is attached to the vertical member 28 for holding the rail of the book, and four vertical members 28 for holding the rail support the member 36 in the direction perpendicular to the bridge axis for receiving the remaining portion from below.

本第1実施形態では、残置部受け用橋軸直角方向部材36として、長さ方向に適宜の間隔で補強用のプレートが溶接されたH鋼を用いており、残置部受け用橋軸直角方向部材36は、ボルト接合により、4本のレール保持用上下方向部材28と連結されている。 In the first embodiment, as the member 36 in the direction perpendicular to the bridge axis for receiving the remaining portion, H-steel to which reinforcing plates are welded at appropriate intervals in the length direction is used, and the direction perpendicular to the bridge axis for receiving the remaining portion is used. The member 36 is connected to four rail-holding vertical members 28 by bolt joining.

以上、本発明の第1実施形態に係る上部工部材撤去設備10の本体部20を構成する各部材について説明してきたが、次に、本発明の第1実施形態に係る上部工部材撤去設備10の反力受け基礎部40を構成する各部材について説明する。 Each member constituting the main body 20 of the superstructure member removal facility 10 according to the first embodiment of the present invention has been described above. Next, the superstructure member removal facility 10 according to the first embodiment of the present invention has been described. Each member constituting the reaction force receiving base portion 40 of the above will be described.

反力受け基礎部40は、本体部20が支持する既設上部工部材110の荷重の少なくとも一部を、橋脚102、104を経由させずに安全に地盤500に伝達する機能を有する部位である。本第1実施形態に係る上部工部材撤去設備10は、反力受け基礎部40を備えることにより、撤去する既設上部工部材110を支持しつつ下降させる際に本体部20が受ける荷重の少なくとも一部を、橋脚102、104を経由させずに地盤500に伝達することができるので、本体部20が既設上部工部材110を支持しつつ下降させる際にも、橋脚102、104に伝達される荷重を、橋脚102、104の安全性を確保できる範囲内にすることができる。 The reaction force receiving foundation portion 40 is a portion having a function of safely transmitting at least a part of the load of the existing superstructure member 110 supported by the main body portion 20 to the ground 500 without passing through the piers 102 and 104. The superstructure member removing facility 10 according to the first embodiment includes the reaction force receiving foundation portion 40, so that at least one of the loads received by the main body portion 20 when the existing superstructure member 110 to be removed is supported and lowered. Since the portion can be transmitted to the ground 500 without passing through the piers 102 and 104, the load transmitted to the piers 102 and 104 even when the main body portion 20 lowers while supporting the existing superstructure member 110. Can be set within a range in which the safety of the piers 102 and 104 can be ensured.

反力受け基礎部40は、図11および図12等に示すように、フーチング上面固定架台42と、高さ調整架台44と、後打ち杭46と、受け梁48と、を有してなり、本発明の第1実施形態に係る上部工部材撤去設備10の本体部20が受ける鉛直方向下向きの荷重を地盤500に伝達する役割を有する。前述したように、橋軸直角方向連結部材30、反対側橋軸直角方向連結部材32および橋軸方向連結部材34は、後打ちアンカー等による接合で橋脚102、104に取り付けられているわけではなく、橋脚102、104それぞれの周囲を一周巻き込むようにして配置されていて、橋脚102、104の外周面と密着しているだけであるので、撤去する既設上部工部材110を橋梁100から切り離して下降させる際に上下方向レール22およびレール保持用上下方向部材28に加わる下向きの荷重は、橋脚102、104にはほとんど伝達されず、上下方向レール22およびレール保持用上下方向部材28に加わる下向きの荷重の大部分は、反力受け基礎部40を介して地盤500に伝達される。 As shown in FIGS. 11 and 12, the reaction force receiving base portion 40 includes a footing upper surface fixed pedestal 42, a height adjusting pedestal 44, a post-cast pile 46, and a receiving beam 48. It has a role of transmitting a vertically downward load received by the main body 20 of the superstructure member removing facility 10 according to the first embodiment of the present invention to the ground 500. As described above, the bridge axis orthogonal direction connecting member 30, the opposite side bridge axis orthogonal direction connecting member 32, and the bridge axis direction connecting member 34 are not attached to the piers 102 and 104 by joining with a post-casting anchor or the like. , The existing superstructure members 110 to be removed are separated from the bridge 100 and lowered because they are arranged so as to wrap around each of the piers 102 and 104 and are only in close contact with the outer peripheral surfaces of the piers 102 and 104. The downward load applied to the vertical rail 22 and the vertical member 28 for holding the rail is hardly transmitted to the piers 102 and 104, and the downward load applied to the vertical rail 22 and the vertical member 28 for holding the rail is applied. Most of the above is transmitted to the ground 500 via the reaction force receiving base 40.

フーチング上面固定架台42は、橋脚102、104の橋軸方向に対向する側面に平行に、フーチング150、152の上面にそれぞれ設置されたH鋼であり、フーチング150、152の上面に直接的に接するように配置されている。また、フーチング上面固定架台42の配置位置を、既設上部工部材110の位置との関係で言うと、フーチング上面固定架台42は、上方から見て、撤去する既設上部工部材110の端部に対して略橋軸直角方向の位置および撤去する既設上部工部材110の端部と重なる位置のうちの少なくとも一方の位置に配置されている。 The footing upper surface fixed mount 42 is H steel installed on the upper surfaces of the footings 150 and 152 in parallel with the side surfaces of the piers 102 and 104 facing in the bridge axis direction, and is in direct contact with the upper surfaces of the footings 150 and 152. It is arranged like this. Further, when the position of the footing upper surface fixing pedestal 42 is related to the position of the existing superstructure member 110, the footing upper surface fixed pedestal 42 is viewed from above with respect to the end portion of the existing superstructure member 110 to be removed. It is arranged at at least one of a position perpendicular to the bridge axis and a position overlapping the end of the existing superstructure member 110 to be removed.

高さ調整架台44は、フーチング上面固定架台42の上に配置されており、調整プレート等で高さを調整できる部材であり、高さ調整架台44の上面は、後打ち杭46の上端面と同一の高さ位置となるように調整する。 The height adjusting pedestal 44 is arranged on the footing upper surface fixed pedestal 42 and is a member whose height can be adjusted by an adjusting plate or the like. The upper surface of the height adjusting pedestal 44 is the upper end surface of the post-pile 46. Adjust so that they are at the same height position.

本発明の第1実施形態に係る上部工部材撤去設備10の本体部20から反力受け基礎部40に伝達される鉛直方向下向きの荷重の一部は、フーチング上面固定架台42および高さ調整架台44を介してフーチング150、152に伝達されて地盤500に伝達される。 A part of the vertically downward load transmitted from the main body 20 of the superstructure member removing facility 10 according to the first embodiment of the present invention to the reaction force receiving base 40 is a footing upper surface fixing stand 42 and a height adjusting stand. It is transmitted to the footings 150 and 152 via 44 and is transmitted to the ground 500.

後打ち杭46は、橋脚102、104のフーチング150、152の上面に設置したフーチング上面固定架台42および高さ調整架台44の橋軸直角方向の側方(上方から見て、撤去する既設上部工部材110の端部に対して略橋軸直角方向の位置および撤去する既設上部工部材110の端部と重なる位置のうちの少なくとも一方の位置)において、地盤500に打設された後打ち杭である。本発明の第1実施形態に係る上部工部材撤去設備10の本体部20から反力受け基礎部40に伝達される鉛直方向下向きの荷重の一部は、後打ち杭46を介して地盤500に伝達される。 The post-pile 46 is an existing superstructure to be removed from the side of the footing upper surface fixed pedestal 42 and the height adjusting pedestal 44 installed on the upper surfaces of the footings 150 and 152 of the piers 102 and 104 in the direction perpendicular to the bridge axis (when viewed from above). A post-pile placed on the ground 500 at a position approximately perpendicular to the bridge axis with respect to the end of the member 110 and at least one of the positions overlapping the end of the existing superstructure member 110 to be removed. is there. A part of the vertically downward load transmitted from the main body 20 of the superstructure member removing facility 10 according to the first embodiment of the present invention to the reaction force receiving foundation 40 is applied to the ground 500 via the post-pile 46. Be transmitted.

本第1実施形態では、後打ち杭46として、H鋼を用いているが、H鋼以外の部材を後打ち杭46として用いてもよく、例えば、コンクリート杭等を用いてもよい。 In the first embodiment, H steel is used as the post-cast pile 46, but a member other than H steel may be used as the post-cast pile 46, for example, a concrete pile or the like may be used.

なお、本発明の第1実施形態に係る上部工部材撤去設備10の本体部20から反力受け基礎部40に伝達される鉛直方向下向きの荷重を、フーチング上面固定架台42および高さ調整架台44を介してフーチング150、152へ伝達するのみで、安全に地盤500に伝達できることを確認できた場合には、後打ち杭46の打設は省略してもよい。 It should be noted that the vertical downward load transmitted from the main body 20 of the superstructure member removing facility 10 according to the first embodiment of the present invention to the reaction force receiving base 40 is applied to the footing upper surface fixing base 42 and the height adjusting base 44. If it can be confirmed that it can be safely transmitted to the ground 500 only by transmitting it to the footings 150 and 152 via the above, the driving of the post-pile pile 46 may be omitted.

また、逆に、本発明の第1実施形態に係る上部工部材撤去設備10の本体部20から反力受け基礎部40に伝達される鉛直方向下向きの荷重を、後打ち杭46へ伝達するのみで、安全に地盤500に伝達できることを確認できた場合には、フーチング上面固定架台42および高さ調整架台44の設置は省略してもよい。 On the contrary, only the vertical downward load transmitted from the main body 20 of the superstructure member removing facility 10 according to the first embodiment of the present invention to the reaction force receiving foundation 40 is transmitted to the post-pile 46. If it can be confirmed that the footing can be safely transmitted to the ground 500, the installation of the footing upper surface fixing frame 42 and the height adjusting frame 44 may be omitted.

受け梁48は、反力受け基礎部40の最上部に配置される部材で、レール保持用上下方向部材28の下方に配置されており、レール保持用上下方向部材28の下端面に連結されている。上部工部材撤去設備10の本体部20が受ける鉛直方向下向きの荷重の大部分は、本体部20のレール保持用上下方向部材28から受け梁48へと伝達される。 The receiving beam 48 is a member arranged at the uppermost portion of the reaction force receiving base portion 40, is arranged below the rail holding vertical direction member 28, and is connected to the lower end surface of the rail holding vertical direction member 28. There is. Most of the vertical downward load received by the main body 20 of the superstructure member removing facility 10 is transmitted from the rail holding vertical member 28 of the main body 20 to the receiving beam 48.

受け梁48は、本発明の第1実施形態に係る上部工部材撤去設備10の本体部20が受ける鉛直方向下向きの荷重の大部分を直接的に受け止める部材であり、受け止めた荷重を、高さ調整架台44およびフーチング上面固定架台42を介してフーチング150、152に伝達して地盤500に伝達するとともに、後打ち杭46を介して地盤500に伝達する。受け梁48の長さは、橋軸直角方向連結部材30と同等程度の長さである。 The receiving beam 48 is a member that directly receives most of the vertically downward load received by the main body 20 of the superstructure member removing facility 10 according to the first embodiment of the present invention, and receives the received load in height. It is transmitted to the footings 150 and 152 via the adjusting pedestal 44 and the footing upper surface fixed pedestal 42, is transmitted to the ground 500, and is transmitted to the ground 500 via the post-casting pile 46. The length of the receiving beam 48 is about the same as that of the bridge axis perpendicular direction connecting member 30.

本第1実施形態では、受け梁48として、長さ方向に適宜の間隔で補強用のプレートが溶接されたH鋼を用いており、受け梁48は、高さ調整架台44の上面および後打ち杭46の上端面の上に設置されており、ボルト接合により、高さ調整架台44および後打ち杭46と連結されている。 In the first embodiment, as the receiving beam 48, H steel in which reinforcing plates are welded at appropriate intervals in the length direction is used, and the receiving beam 48 is the upper surface and post-casting of the height adjusting stand 44. It is installed on the upper end surface of the pile 46 and is connected to the height adjusting base 44 and the post-cast pile 46 by bolt joints.

以上、本発明の第1実施形態に係る上部工部材撤去設備10の本体部20および反力受け基礎部40を構成する各部材について説明してきた。その説明において、各部材に用いる具体例にH鋼を取り上げることが多かったが、各部材に要求される性能を有する部材であれば、H鋼以外の部材を用いてもよい。 The members constituting the main body 20 and the reaction force receiving base 40 of the superstructure member removing facility 10 according to the first embodiment of the present invention have been described above. In the explanation, H steel is often taken up as a specific example used for each member, but a member other than H steel may be used as long as the member has the performance required for each member.

本発明の第1実施形態に係る上部工部材撤去設備10の構成の説明の最後に、架台10C、10Dについて説明する。 Finally, the gantry 10C and 10D will be described at the end of the description of the configuration of the superstructure member removing facility 10 according to the first embodiment of the present invention.

本発明の第1実施形態に係る上部工部材撤去設備10は、前述したように、橋脚102に近接した左側設備10Aと、橋脚104に近接した右側設備10Bと、2つの架台10C、10Dと、からなるが、架台10C、10Dは、橋軸直角方向から見て、撤去する既設上部工部材110をおおよそ3等分するような位置に、撤去する既設上部工部材110の下方に配置されており、上部工部材撤去設備10によって下降させられた、撤去する既設上部工部材110は、架台10C、10Dの上に載置される。 As described above, the superstructure member removing equipment 10 according to the first embodiment of the present invention includes a left side equipment 10A close to the pier 102, a right side equipment 10B close to the pier 104, and two pedestals 10C and 10D. The gantry 10C and 10D are arranged below the existing superstructure member 110 to be removed at a position that roughly divides the existing superstructure member 110 to be removed when viewed from the direction perpendicular to the bridge axis. The existing superstructure member 110 to be removed, which has been lowered by the superstructure member removal facility 10, is placed on the pedestals 10C and 10D.

架台10C、10Dの上に載置された既設上部工部材110は、長手方向の長さが短くなるように、切断面110C、110Dで切断した後、クレーン200(図3、図6および図9参照)で吊り上げて撤去する。 The existing superstructure member 110 mounted on the gantry 10C and 10D is cut by the cutting surfaces 110C and 110D so that the length in the longitudinal direction is shortened, and then the crane 200 (FIGS. 3, 6 and 9). (See) to lift and remove.

架台10C、10Dを設けることにより、昇降装置24を下降させた際にも、昇降装置24が、橋脚102、104のフーチング150、152や地盤500と干渉しないようにすることができる。また、撤去する既設上部工部材110を地盤500の地表面の上ではなく、架台10C、10Dの上に載置することにより、既設上部工部材110を切断して解体する作業を行いやすくなる。昇降装置24を下降させた際にも、昇降装置24が、橋脚102、104のフーチング150、152や地盤500と干渉しないようにする観点、および既設上部工部材110の切断解体作業を行いやすくするという観点から、架台10C、10Dの地盤500の地表面からの高さは、1m以上3m以下にすることが好ましい。 By providing the gantry 10C and 10D, it is possible to prevent the elevating device 24 from interfering with the footings 150 and 152 of the piers 102 and 104 and the ground 500 even when the elevating device 24 is lowered. Further, by placing the existing superstructure member 110 to be removed not on the ground surface of the ground 500 but on the pedestals 10C and 10D, it becomes easy to cut and disassemble the existing superstructure member 110. From the viewpoint of preventing the elevating device 24 from interfering with the footings 150, 152 and the ground 500 of the piers 102 and 104 even when the elevating device 24 is lowered, and facilitating the cutting and dismantling work of the existing superstructure member 110. From this point of view, the height of the ground 500 of the pedestals 10C and 10D from the ground surface is preferably 1 m or more and 3 m or less.

(1−2)第1実施形態に係る上部工部材架け替え設備の構成
本発明の第1実施形態に係る上部工部材撤去設備10は、撤去する既設上部工部材110を支持しつつ下降させることができる能力を備えているが、本発明の第1実施形態に係る上部工部材架け替え設備12(図43〜図47参照)は、それに加えて、架設する新設橋桁を支持しつつ上昇させることができる能力を備えている。この能力の違いが、本発明の第1実施形態に係る上部工部材撤去設備10と本発明の第1実施形態に係る上部工部材架け替え設備12との相違点である。
(1-2) Configuration of Superstructure Member Replacement Equipment According to the First Embodiment The superstructure member removal equipment 10 according to the first embodiment of the present invention shall be lowered while supporting the existing superstructure member 110 to be removed. In addition, the superstructure member replacement facility 12 (see FIGS. 43 to 47) according to the first embodiment of the present invention has the ability to support and raise the new bridge girder to be erected. Has the ability to do. This difference in ability is the difference between the superstructure member removing facility 10 according to the first embodiment of the present invention and the superstructure member replacement facility 12 according to the first embodiment of the present invention.

前記能力の違いは、昇降装置24の出力および数、ならびに上下方向レール22およびレール保持用上下方向部材28の断面性能および数を調整することによって対応することができる。 The difference in capacity can be dealt with by adjusting the output and number of the elevating device 24, and the cross-sectional performance and number of the vertical rail 22 and the vertical member 28 for holding the rail.

したがって、本発明の第1実施形態に係る上部工部材架け替え設備12の基本的な構成は、本発明の第1実施形態に係る上部工部材撤去設備10の構成と同様であるので、本発明の第1実施形態に係る上部工部材撤去設備10の構成についての説明をもって、本発明の第1実施形態に係る上部工部材架け替え設備12の構成についての説明に代えることとする。 Therefore, the basic configuration of the superstructure member replacement facility 12 according to the first embodiment of the present invention is the same as the configuration of the superstructure member removal facility 10 according to the first embodiment of the present invention. The description of the configuration of the superstructure member removal facility 10 according to the first embodiment of the present invention will be replaced with the description of the configuration of the superstructure member replacement facility 12 according to the first embodiment of the present invention.

なお、通常の場合、撤去する既設上部工部材110には、主桁だけでなく、床版等も含まれており、既設主桁と既設床版等を同時に撤去することになるが、新たに架設する新設上部工部材160(図45〜図47参照)は、通常の場合、主桁のみであり、新たに設ける床版は、新設主桁を橋梁100の所定の位置に架設後に、橋梁100の上部工としての高さ位置で打設することになる。したがって、通常の場合、撤去する既設上部工部材110の重量の方が、新たに架設する新設上部工部材160の重量よりも大きいので、本発明の第1実施形態に係る上部工部材撤去設備10を、そのまま、本発明の第1実施形態に係る上部工部材架け替え設備12として用いることができる場合が多い。 In the normal case, the existing superstructure member 110 to be removed includes not only the main girder but also the floor slab and the like, and the existing main girder and the existing floor slab and the like are to be removed at the same time. The new superstructure member 160 (see FIGS. 45 to 47) to be erected is usually only the main girder, and the newly installed floor slab is the bridge 100 after the new main girder is erected at a predetermined position of the bridge 100. It will be placed at the height position as a superstructure of. Therefore, in a normal case, the weight of the existing superstructure member 110 to be removed is larger than the weight of the newly installed superstructure member 160 to be newly erected. Therefore, the superstructure member removing facility 10 according to the first embodiment of the present invention. Can be used as it is as the superstructure member replacement equipment 12 according to the first embodiment of the present invention.

(1−3)第1実施形態に係る上部工部材撤去設備の構築方法
本発明の第1実施形態に係る上部工部材撤去設備10の構築方法について説明するが、橋脚102に近接した左側設備10Aを構築する場合を取り上げて説明する。橋脚104に近接した右側設備10Bを構築する場合も同様である。
(1-3) Method of constructing superstructure member removal equipment according to the first embodiment A method of constructing the superstructure member removal equipment 10 according to the first embodiment of the present invention will be described, but the left side equipment 10A close to the pier 102 will be described. The case of constructing is explained. The same applies to the case of constructing the right side equipment 10B close to the pier 104.

図22〜図26、図30、図31、図33、図34は、本発明の第1実施形態に係る上部工部材撤去設備10を構築する際の各段階の状態を模式的に示す正面図または側面図であり、図27は仮受けブラケット90を示す正面図であり、図28は仮受けブラケット90を示す側面図(図27のXXVIII線矢視図)であり、図29、図32、図35は、本発明の第1実施形態に係る上部工部材撤去設備10を構築する際の各段階の状態において、橋脚102を水平面で切断して得られた切断面を上方から見た断面図である。ただし、図29、図32、図35では、本体部20の部材のみを記載している。また、図24、図26、図31、図34では、図示の都合上、後打ち杭46の記載を省略している。 22 to 26, 30, 31, 31, 33, and 34 are front views schematically showing the state of each stage when the superstructure member removing facility 10 according to the first embodiment of the present invention is constructed. Alternatively, FIG. 27 is a side view, FIG. 27 is a front view showing the temporary receiving bracket 90, and FIG. 28 is a side view showing the temporary receiving bracket 90 (a view taken along the line XXVIII of FIG. 27). FIG. 35 is a cross-sectional view of a cut surface obtained by cutting a pier 102 in a horizontal plane in a state of each stage when constructing the superstructure member removing facility 10 according to the first embodiment of the present invention. Is. However, in FIGS. 29, 32, and 35, only the members of the main body 20 are shown. Further, in FIGS. 24, 26, 31, and 34, the description of the post-pile 46 is omitted for convenience of illustration.

以下、本発明の第1実施形態に係る上部工部材撤去設備10の構築方法を、ステップに分けて説明する。ただし、図面については、主要なステップにおける状態のみを模式的に示しており、1つの図面を複数のステップの説明に用いることがある。 Hereinafter, a method of constructing the superstructure member removing facility 10 according to the first embodiment of the present invention will be described in steps. However, with respect to the drawings, only the states in the main steps are schematically shown, and one drawing may be used to explain a plurality of steps.

<ステップS1>
橋脚102のフーチング150の天端まで掘削し、橋脚102のフーチング150の上面を露出させる(図22〜図24参照)。
<Step S1>
Excavate to the top of the footing 150 of the pier 102 to expose the upper surface of the footing 150 of the pier 102 (see FIGS. 22 to 24).

<ステップS2>
フーチング150の上面に後打ちアンカー(図示せず)を設置し、設置した後打ちアンカーで、フーチング上面固定架台42をフーチング150の上面に設置する(図22、図24参照)。
<Step S2>
A post-casting anchor (not shown) is installed on the upper surface of the footing 150, and the footing upper surface fixing base 42 is installed on the upper surface of the footing 150 with the installed post-launching anchor (see FIGS. 22 and 24).

<ステップS3>
設置したフーチング上面固定架台42に高さ調整架台44をボルトで固定する(図22、図24参照)。
<Step S3>
The height adjustment pedestal 44 is fixed to the installed footing upper surface fixing pedestal 42 with bolts (see FIGS. 22 and 24).

<ステップS4>
設置したフーチング上面固定架台42および高さ調整架台44の橋軸直角方向外側で、かつ、撤去する既設上部工部材108の両外桁位置またはその外側の位置に対応する地盤500の位置にH鋼からなる後打ち杭46を打設する。後打ち杭46の打設は、例えば、クレーン202で吊り上げたバイブロハンマー250等を用いて行うことができる(図22および図23参照)。フーチング150が、撤去する既設上部工部材108の両外桁位置にまで達しているほど橋軸直角方向に長い場合、後打ち杭46は原則として不要である。
<Step S4>
H steel at the position of the ground 500 corresponding to the positions of both outer girders of the existing superstructure member 108 to be removed or the positions outside the footing upper surface fixed pedestal 42 and the height adjusting pedestal 44 installed in the direction perpendicular to the bridge axis. A post-casting pile 46 made of the above is driven. The post-pile 46 can be driven by using, for example, a vibro hammer 250 lifted by a crane 202 (see FIGS. 22 and 23). If the footing 150 is long enough in the direction perpendicular to the bridge axis to reach the positions of both outer girders of the existing superstructure member 108 to be removed, the post-pile 46 is not necessary in principle.

<ステップS5>
高さ調整架台44の高さを調整プレート(図示せず)等で調整して、高さ調整架台44の天端高さと後打ち杭46の天端高さを同一にする(図22参照)。
<Step S5>
Adjust the height of the height adjustment pedestal 44 with an adjustment plate (not shown) or the like so that the height of the top of the height adjustment pedestal 44 and the height of the top of the post-pile 46 are the same (see FIG. 22). ..

<ステップS6>
高さ調整架台44の天端高さと後打ち杭46の天端高さを同一にした後、高さ調整架台44の上面と後打ち杭46の上端面に、受け梁48をクレーン204で吊り上げて設置し、高さ調整架台44および後打ち杭46にボルトで固定する(図22および図24参照)。なお、図示の都合上、図24では後打ち杭46の記載を省略している。
<Step S6>
After making the top height of the height adjustment pedestal 44 and the top height of the post-cast pile 46 the same, the receiving beam 48 is lifted by the crane 204 on the upper surface of the height adjusting pedestal 44 and the upper end surface of the post-pile 46. And fix it to the height adjustment stand 44 and the post-casting pile 46 with bolts (see FIGS. 22 and 24). For convenience of illustration, the description of the post-pile 46 is omitted in FIG. 24.

<ステップS7>
橋軸直角方向連結部材30、反対側橋軸直角方向連結部材32および橋軸方向連結部材34を配置する位置に合せて、仮受けブラケット90を後打ちアンカー92で、橋脚102に取り付ける(図25〜図28参照)。後打ちアンカー92の橋脚102への取り付けは、高所作業車220の作業台に乗った作業員が行う。
<Step S7>
The temporary receiving bracket 90 is attached to the pier 102 by the post-launch anchor 92 in accordance with the positions where the bridge axis perpendicular direction connecting member 30, the opposite side bridge axis perpendicular direction connecting member 32 and the bridge axis direction connecting member 34 are arranged (FIG. 25). -See FIG. 28). The post-launch anchor 92 is attached to the pier 102 by a worker on the workbench of the aerial work platform 220.

<ステップS8>
橋軸直角方向連結部材30をクレーン204で吊り上げて、橋脚102に取り付けた仮受けブラケット90上に設置する(図25および図26参照)。また、反対側橋軸直角方向連結部材32も、同様に、クレーン204で吊り上げて、橋脚102に取り付けた仮受けブラケット90上に設置する(図26参照)。
<Step S8>
The bridge axis perpendicular direction connecting member 30 is lifted by the crane 204 and installed on the temporary receiving bracket 90 attached to the pier 102 (see FIGS. 25 and 26). Similarly, the connecting member 32 in the direction perpendicular to the bridge axis on the opposite side is also lifted by the crane 204 and installed on the temporary receiving bracket 90 attached to the pier 102 (see FIG. 26).

ここで、最上部の橋軸直角方向連結部材30および反対側橋軸直角方向連結部材32は、桁下空間が狭いため、既設上部工部材108の外側から桁下へ橋軸直角方向に引き込む(図25および図26参照)。 Here, since the space under the girder is narrow, the uppermost bridge axis perpendicular direction connecting member 30 and the opposite side bridge axis perpendicular direction connecting member 32 are pulled in from the outside of the existing superstructure member 108 in the direction perpendicular to the bridge axis. (See FIGS. 25 and 26).

<ステップS9>
橋軸直角方向連結部材30および反対側橋軸直角方向連結部材32を、仮受けブラケット90上に配置して、橋脚102の橋軸方向の両側面に沿って設置した後、橋軸方向連結部材34を橋脚102の橋軸直角方向の両側面に沿って設置して、橋軸直角方向連結部材30および反対側橋軸直角方向連結部材32と連結し、橋軸直角方向連結部材30、反対側橋軸直角方向連結部材32および橋軸方向連結部材34を、橋脚102の周囲を一周巻き込むようにして配置して、橋脚102に隙間なく取り付け、橋脚102に一体的に固定されるように取り付ける(図26および図29参照)。この取り付けの際には、調整プレート(図示せず)やキリンジャッキ(図示せず)等により、橋軸方向連結部材34の長さを橋脚102の橋軸方向の幅に合うように調整し、橋軸直角方向連結部材30、反対側橋軸直角方向連結部材32および橋軸方向連結部材34を、橋脚102に隙間なく取り付け、橋脚102に一体的に固定されるように取り付けることに留意する。
<Step S9>
After arranging the bridge axis orthogonal direction connecting member 30 and the opposite side bridge axis orthogonal direction connecting member 32 on the temporary receiving bracket 90 and installing them along both side surfaces of the bridge pedestal 102 in the bridge axis direction, the bridge axis direction connecting member 34 is installed along both side surfaces of the bridge pedestal 102 in the direction perpendicular to the bridge axis to connect with the bridge axis orthogonal direction connecting member 30 and the opposite side bridge axis orthogonal direction connecting member 32, and the bridge axis perpendicular direction connecting member 30 and the opposite side. The bridge axis orthogonal direction connecting member 32 and the bridge axis direction connecting member 34 are arranged so as to wrap around the bridge pedestal 102 so as to wrap around the bridge pedestal 102, and are attached to the bridge pedestal 102 without a gap and attached so as to be integrally fixed to the bridge pier 102 ( 26 and 29). At the time of this installation, the length of the bridge axial connecting member 34 is adjusted to match the width of the pier 102 in the bridge axial direction by using an adjustment plate (not shown), a giraffe jack (not shown), or the like. It should be noted that the bridge axis orthogonal direction connecting member 30, the opposite side bridge axis orthogonal direction connecting member 32 and the bridge axis direction connecting member 34 are attached to the pier 102 without any gaps and are integrally fixed to the pier 102.

また、橋軸直角方向連結部材30および反対側橋軸直角方向連結部材32の両端部付近にも、橋軸方向連結部材34を取り付ける。 Further, the bridge axis direction connecting member 34 is also attached near both ends of the bridge axis right angle direction connecting member 30 and the opposite side bridge axis right angle direction connecting member 32.

この取り付けが終了した後の橋脚102を水平面で切断して得られた切断面を上方から見た断面図(図26のXXIX−XXIX線断面図)を図29に示す。 FIG. 29 shows a cross-sectional view (XXIX-XXIX line cross-sectional view of FIG. 26) of the cut surface obtained by cutting the pier 102 in a horizontal plane after the installation is completed.

また、橋軸直角方向連結部材30、反対側橋軸直角方向連結部材32および橋軸方向連結部材34を設置する高さ位置の橋脚102の表面にはクッション材等の養生材を配置し、橋軸直角方向連結部材30、反対側橋軸直角方向連結部材32および橋軸方向連結部材34と橋脚102の表面との間にはクッション材等の養生材を配置して、橋脚102に損傷を与えないようにすることが好ましい。 Further, a curing material such as a cushioning material is arranged on the surface of the pier 102 at a height position where the bridge axis orthogonal direction connecting member 30, the opposite side bridge axis perpendicular direction connecting member 32 and the bridge axis direction connecting member 34 are installed, and the bridge is bridged. A curing material such as a cushioning material is arranged between the axially perpendicular connecting member 30, the opposite bridge axis orthogonal direction connecting member 32, the bridge axial connecting member 34, and the surface of the pier 102 to damage the pier 102. It is preferable not to.

<ステップS10>
上下方向レール22とレール保持用上下方向部材28とを、地上においてボルト22B1で連結して、一体化する(図19参照)。
<Step S10>
The vertical rail 22 and the rail holding vertical member 28 are connected by bolts 22B1 on the ground and integrated (see FIG. 19).

<ステップS11>
一体化した上下方向レール22とレール保持用上下方向部材28とを、クレーン204で吊り上げて、受け梁48の上面にレール保持用上下方向部材28の下端面が配置されるように配置して、レール保持用上下方向部材28を受け梁48にボルトで連結するとともに、レール保持用上下方向部材28を橋軸直角方向連結部材30にボルトで連結して、1段目の上下方向レール22とレール保持用上下方向部材28を設置する(図30および図31参照)。
<Step S11>
The integrated vertical rail 22 and the rail holding vertical member 28 are lifted by the crane 204 and arranged so that the lower end surface of the rail holding vertical member 28 is arranged on the upper surface of the receiving beam 48. The vertical member 28 for holding the rail is connected to the beam 48 with a bolt, and the vertical member 28 for holding the rail is connected to the bridge axis perpendicular connecting member 30 with a bolt to connect the first-stage vertical rail 22 and the rail. A holding vertical member 28 is installed (see FIGS. 30 and 31).

<ステップS12>
1段目の上下方向レール22およびレール保持用上下方向部材28の設置完了後、必要な段数だけ、順次、一体化した上下方向レール22およびレール保持用上下方向部材28を、先に取り付けた上下方向レール22およびレール保持用上下方向部材28それぞれと一直線状に配置されるように所定の位置に配置して、レール保持用上下方向部材28を橋軸直角方向連結部材30にボルトで連結する(図30および図31参照)。また、上下に隣り合うレール保持用上下方向部材28(例えば、1段目のレール保持用上下方向部材28と2段目のレール保持用上下方向部材28)同士を添接板等で連結する。その際、上下方向レール22同士の間隔の精度管理、上下方向レール22の鉛直度の精度管理、および上下方向レール22同士の継手部のずれの精度管理に留意する。
<Step S12>
After the installation of the first vertical rail 22 and the vertical member 28 for holding the rail is completed, the vertically integrated vertical rail 22 and the vertical member 28 for holding the rail are sequentially attached in the required number of steps. The rail holding vertical member 28 is arranged at a predetermined position so as to be arranged in a straight line with each of the directional rail 22 and the rail holding vertical member 28, and the rail holding vertical member 28 is connected to the bridge axis perpendicular direction connecting member 30 with a bolt ( 30 and 31). Further, the vertically adjacent rail holding vertical members 28 (for example, the first-stage rail holding vertical member 28 and the second-stage rail holding vertical member 28) are connected to each other by a splicing plate or the like. At that time, attention should be paid to the accuracy control of the distance between the vertical rails 22, the accuracy control of the verticality of the vertical rails 22, and the accuracy control of the displacement of the joints between the vertical rails 22.

この取り付けが終了した後の橋脚102を水平面で切断して得られた切断面を上方から見た断面図(図31のXXXII−XXXII線断面図)を図32に示す。 FIG. 32 shows a cross-sectional view (cross-sectional view taken along the line XXXII-XXXII of FIG. 31) of the cut surface obtained by cutting the pier 102 in a horizontal plane after the installation is completed.

<ステップS13>
各上下方向レール22に昇降装置24を取り付け、さらに、連動操作盤(図示せず)と油圧ホース(図示せず)を連結した後、全ての昇降装置24のクレビスジャッキ24AとH鋼クランプ24Bを連動可能なようにする。
<Step S13>
After attaching the elevating device 24 to each vertical rail 22 and further connecting the interlocking operation panel (not shown) and the hydraulic hose (not shown), the clevis jacks 24A and the H steel clamps 24B of all the elevating devices 24 are attached. Make it interlockable.

<ステップS14>
連動操作盤(図示せず)により、各上下方向レール22に取り付けた昇降装置24のブラケット24Cの高さを揃えた状態にした後、クレーン204で上部工部材受け用橋軸直角方向部材26を吊り上げて、上部工部材受け用橋軸直角方向部材26をブラケット24Cに取り付ける(図33参照)。
<Step S14>
After making the heights of the brackets 24C of the lifting device 24 attached to each of the vertical rails 22 uniform by the interlocking operation panel (not shown), the crane 204 uses the crane 204 to hold the bridge axis perpendicular member 26 for receiving the superstructure member. It is lifted and the bridge axis perpendicular member 26 for receiving the superstructure member is attached to the bracket 24C (see FIG. 33).

<ステップS15>
レール保持用上下方向部材28の上端面に、残置部受け用橋軸直角方向部材36を設置する(図33参照)。残置部受け用橋軸直角方向部材36は、既設上部工部材108(図36参照)の端部の下面直下近傍に設置されるため、既設上部工部材108の外側より、既設上部工部材108の下面直下近傍に引き込む。
<Step S15>
A member 36 in the direction perpendicular to the bridge axis for receiving the remaining portion is installed on the upper end surface of the rail holding vertical member 28 (see FIG. 33). Since the bridge axis perpendicular direction member 36 for receiving the remaining portion is installed near the lower surface of the end portion of the existing superstructure member 108 (see FIG. 36), the existing superstructure member 108 is seen from the outside of the existing superstructure member 108. Pull it in near the bottom surface.

ステップS15の完了により、本発明の第1実施形態に係る上部工部材撤去設備10の構築は完了する。ステップS15が完了した状態の正面図(橋脚102を橋軸直角方向から見た正面図)を図34に示し、図34のXXXV−XXXV線断面図を図35に示す。ただし、図34では、図示の都合上、後打ち杭46の記載を省略し、図35では、図示の都合上、上部工部材受け用橋軸直角方向部材26の記載を省略している。 With the completion of step S15, the construction of the superstructure member removing facility 10 according to the first embodiment of the present invention is completed. A front view (front view of the pier 102 viewed from a direction perpendicular to the bridge axis) in a state where step S15 is completed is shown in FIG. 34, and a sectional view taken along line XXXV-XXXV of FIG. 34 is shown in FIG. However, in FIG. 34, the description of the post-cast pile 46 is omitted for the convenience of illustration, and in FIG. 35, the description of the bridge axis perpendicular direction member 26 for receiving the superstructure member is omitted for the convenience of illustration.

(1−4)第1実施形態に係る上部工部材架け替え設備の構築方法
「(1−2)第1実施形態に係る上部工部材架け替え設備の構成」で前述したように、本発明の第1実施形態に係る上部工部材架け替え設備12(図43〜図47参照)の基本的な構成は、本発明の第1実施形態に係る上部工部材撤去設備10の構成と同様であるので、「(1−3)第1実施形態に係る上部工部材撤去設備の構築方法」で記載した本発明の第1実施形態に係る上部工部材撤去設備10の構築方法についての説明をもって、本発明の第1実施形態に係る上部工部材架け替え設備12の構築方法についての説明に代えることとする。
(1-4) Method for constructing superstructure member replacement equipment according to the first embodiment As described above in "(1-2) Configuration of superstructure member replacement equipment according to the first embodiment", the present invention Since the basic configuration of the superstructure member replacement facility 12 (see FIGS. 43 to 47) according to the first embodiment is the same as the configuration of the superstructure member removal facility 10 according to the first embodiment of the present invention. , "(1-3) Method of constructing superstructure member removal equipment according to the first embodiment", the present invention will be described with reference to the method of constructing the superstructure member removal equipment 10 according to the first embodiment of the present invention. The description will be replaced with the description of the method of constructing the superstructure member replacement facility 12 according to the first embodiment.

(1−5)第1実施形態に係る上部工部材撤去方法
本発明の第1実施形態に係る上部工部材撤去設備10を用いて、橋梁100の隣接する橋脚102、104の間の径間106内の既設上部工部材110を撤去する撤去方法(本第1実施形態に係る上部工部材撤去方法)の各ステップにおける状態を図36〜図42に示す。図36〜図42は、前記各ステップにおける状態を橋軸直角方向から見た正面図である。図36〜図42を参照しつつ、本第1実施形態に係る上部工部材撤去方法を説明する。
(1-5) Method for removing superstructure member according to the first embodiment Using the superstructure member removal facility 10 according to the first embodiment of the present invention, the span 106 between adjacent piers 102 and 104 of the bridge 100. The states in each step of the removal method for removing the existing superstructure member 110 (method for removing the superstructure member according to the first embodiment) are shown in FIGS. 36 to 42. 36 to 42 are front views of the state in each step as viewed from the direction perpendicular to the bridge axis. The method of removing the superstructure member according to the first embodiment will be described with reference to FIGS. 36 to 42.

なお、橋脚102、104上に残置した既設上部工部材112、114を撤去するステップS106は、本発明に係る上部工部材撤去方法における必須のステップではないが、通常は、橋脚102、104上に残置した既設上部工部材112、114の撤去も行うので、このステップS106も本第1実施形態に係る上部工部材撤去方法に含めている。 The step S106 for removing the existing superstructure members 112 and 114 left on the piers 102 and 104 is not an essential step in the superstructure member removal method according to the present invention, but is usually on the piers 102 and 104. Since the remaining existing superstructure members 112 and 114 are also removed, this step S106 is also included in the superstructure member removal method according to the first embodiment.

図36は、切断前の既設上部工部材108の荷重のうちの所定量を上部工部材受け用橋軸直角方向部材26が下方から支持している状態を示す正面図であり、図37は、撤去する既設上部工部材110を橋梁100から切り離した直後の状態を示す正面図であり、図38は、撤去する既設上部工部材110を下降させて架台10C、10Dに載置した状態を示す正面図であり、図39は、撤去する既設上部工部材110を架台10C、10D上で切断した状態を示す正面図であり、図40は、架台10C、10D上で切断した既設上部工部材110(110X、110Y、110Z)をクレーン200で吊り上げて撤去する直前の状態を示す正面図であり、図41は、既設上部工部材110の撤去を行った後の状態を示す正面図であり、図42は、橋脚102、104上に残った既設上部工部材112、114の撤去も完了した後の状態(橋脚102と橋脚104の間を架け渡していた既設上部工部材108の撤去が全て終わった後の状態)を示す正面図である。 FIG. 36 is a front view showing a state in which a predetermined amount of the load of the existing superstructure member 108 before cutting is supported from below by the member 26 in the direction perpendicular to the bridge axis for receiving the superstructure member, and FIG. 37 is a front view. FIG. 38 is a front view showing a state immediately after the existing superstructure member 110 to be removed is separated from the bridge 100, and FIG. 38 is a front view showing a state in which the existing superstructure member 110 to be removed is lowered and placed on the pedestals 10C and 10D. FIG. 39 is a front view showing a state in which the existing superstructure member 110 to be removed is cut on the pedestal 10C and 10D, and FIG. 40 is a front view showing the existing superstructure member 110 cut on the pedestal 10C and 10D. 110X, 110Y, 110Z) is a front view showing a state immediately before being lifted by a crane 200 and removed, and FIG. 41 is a front view showing a state after the existing superstructure member 110 is removed, and FIG. 42. Is the state after the removal of the existing superstructure members 112 and 114 remaining on the piers 102 and 104 is completed (after the removal of all the existing superstructure members 108 that bridge the bridge piers 102 and 104 is completed. It is a front view which shows the state).

以下、図36〜図42を参照しつつ、本第1実施形態に係る上部工部材撤去方法をステップに分けて説明する。 Hereinafter, the method for removing the superstructure member according to the first embodiment will be described in steps with reference to FIGS. 36 to 42.

<ステップS101>
図36に示すように、昇降装置24を上下方向レール22に沿って扛上させ、切断前の既設上部工部材108の荷重を上部工部材受け用橋軸直角方向部材26に預けるとともに、残置部受け用橋軸直角方向部材36の上面にライナープレート(図示せず)を設置して、上部工部材受け用橋軸直角方向部材26および残置部受け用橋軸直角方向部材36に等分に既設上部工部材108の荷重を負担させる(支持工程)。
<Step S101>
As shown in FIG. 36, the elevating device 24 is lifted along the vertical rail 22 to deposit the load of the existing superstructure member 108 before cutting on the bridge axis perpendicular direction member 26 for receiving the superstructure member, and the remaining portion. A liner plate (not shown) is installed on the upper surface of the receiving bridge axis perpendicular direction member 36, and is equally installed on the superstructure member receiving bridge axis perpendicular direction member 26 and the remaining portion receiving bridge axis perpendicular direction member 36. The load of the superstructure member 108 is borne (support process).

<ステップS102>
上部工部材受け用橋軸直角方向部材26および残置部受け用橋軸直角方向部材36に等分に既設上部工部材108の荷重を負担させた後、上部工部材受け用橋軸直角方向部材26と残置部受け用橋軸直角方向部材36との間の位置(図37の切断面110Aの位置および切断面110Bの位置)で、図37に示すように、径間106内の既設上部工部材108を切断し、既設上部工部材110、112、114に切り分ける(切り離し工程)。
<Step S102>
After the load of the existing superstructure member 108 is equally divided on the superstructure member receiving bridge axis perpendicular direction member 26 and the remaining part receiving bridge axis perpendicular direction member 36, the superstructure member receiving bridge axis perpendicular direction member 26 As shown in FIG. 37, the existing superstructure member within the span 106 at the position between the remaining portion receiving bridge axis perpendicular direction member 36 (the position of the cutting surface 110A and the position of the cutting surface 110B in FIG. 37). 108 is cut and cut into existing superstructure members 110, 112, 114 (separation step).

切断面110A、110Bでの切断直後(昇降装置24の下降前の状態)においては、図37に示すように、既設上部工部材110は、その両端部が上部工部材受け用橋軸直角方向部材26によって下方から支持されており、既設上部工部材112は、その両端部が残置部受け用橋軸直角方向部材36と橋脚102上の支点102Aとによって下方から支持されており、既設上部工部材114は、その両端部が残置部受け用橋軸直角方向部材36と橋脚104上の支点104Aとによって下方から支持されている。 Immediately after cutting on the cut surfaces 110A and 110B (state before the elevating device 24 descends), as shown in FIG. 37, both ends of the existing superstructure member 110 are members in the direction perpendicular to the bridge axis for receiving the superstructure member. The existing superstructure member 112 is supported from below by 26, and both ends thereof are supported from below by the bridge axis perpendicular direction member 36 for receiving the remaining portion and the fulcrum 102A on the pier 102, and the existing superstructure member 112 is supported from below. Both ends of the 114 are supported from below by a member 36 in the direction perpendicular to the bridge axis for receiving the remaining portion and a fulcrum 104A on the pier 104.

<ステップS103>
図38に示すように、昇降装置24を下降させて(下降工程)、撤去する既設上部工部材110を架台10C、10Dに載置する(下降載置工程)。詳細には、上部工部材受け用橋軸直角方向部材26が支持する荷重と架台10C、10Dが支持する荷重が等分になるように、下降させた昇降装置24の高さ位置(上部工部材受け用橋軸直角方向部材26の高さ位置)を調整する。
<Step S103>
As shown in FIG. 38, the elevating device 24 is lowered (lowering step), and the existing superstructure member 110 to be removed is placed on the gantry 10C and 10D (lowering step). Specifically, the height position of the elevating device 24 lowered so that the load supported by the bridge axis perpendicular direction member 26 for receiving the superstructure member and the load supported by the gantry 10C and 10D are equally divided (superstructure member). The height position of the member 26 in the direction perpendicular to the receiving bridge axis) is adjusted.

<ステップS104>
上部工部材受け用橋軸直角方向部材26が支持する荷重と架台10C、10Dが支持する荷重が等分になるように、下降させた昇降装置24の高さ位置(上部工部材受け用橋軸直角方向部材26の高さ位置)を調整した後、既設上部工部材110を架台10C、10D上で橋軸直角方向に切断する(図39参照)。本第1実施形態では、架台10C、10Dは、橋軸直角方向から見て、撤去する既設上部工部材110をおおよそ3等分するような位置に、撤去する既設上部工部材110の下方に配置されている。このため、既設上部工部材110は、架台10C、10D上で橋軸直角方向に切断されると、長手方向におおよそ3等分される。おおよそ3等分に切断された既設上部工部材110の各部材を、既設上部工部材110X、110Y、110Zと称することとする。
<Step S104>
The height position of the elevating device 24 lowered so that the load supported by the superstructure member receiving bridge shaft perpendicular direction member 26 and the load supported by the gantry 10C and 10D are equally divided (the superstructure member receiving bridge shaft). After adjusting the height position of the member 26 in the perpendicular direction), the existing superstructure member 110 is cut on the gantry 10C and 10D in the direction perpendicular to the bridge axis (see FIG. 39). In the first embodiment, the gantry 10C and 10D are arranged below the existing superstructure member 110 to be removed at a position that roughly divides the existing superstructure member 110 to be removed when viewed from the direction perpendicular to the bridge axis. Has been done. Therefore, when the existing superstructure member 110 is cut on the gantry 10C and 10D in the direction perpendicular to the bridge axis, it is roughly divided into three equal parts in the longitudinal direction. Each member of the existing superstructure member 110 cut into approximately three equal parts will be referred to as an existing superstructure member 110X, 110Y, 110Z.

<ステップS105>
切断後の既設上部工部材110(既設上部工部材110X、110Y、110Z)を、図40に示すように、地上に配置したクレーン200で吊り上げて搬出する(搬出工程)。ただし、図40においては、クレーン200の部位のうち、吊り上げに用いるフック等のみを記載しており、このフック等に符号200を付している。
<Step S105>
As shown in FIG. 40, the existing superstructure members 110 (existing superstructure members 110X, 110Y, 110Z) after cutting are lifted and carried out by a crane 200 arranged on the ground (unloading step). However, in FIG. 40, among the parts of the crane 200, only the hooks and the like used for lifting are shown, and reference numerals 200 are attached to the hooks and the like.

切断後の既設上部工部材110(既設上部工部材110X、110Y、110Z)を架台10C、10D上から搬出、撤去した後の状態を図41に示す。 FIG. 41 shows a state after the existing superstructure members 110 (existing superstructure members 110X, 110Y, 110Z) after cutting are carried out from the gantry 10C and 10D and removed.

<ステップS106>
橋脚102、104上に残置した既設上部工部材112、114を、地盤500上または橋梁100上に配置したクレーン(図示せず)で吊り上げて搬出、撤去する。
<Step S106>
The existing superstructure members 112 and 114 left on the piers 102 and 104 are lifted and removed by a crane (not shown) arranged on the ground 500 or the bridge 100.

橋脚102、104上に残置した既設上部工部材112、114を搬出、撤去した後の状態(橋脚102と橋脚104の間を架け渡していた既設上部工部材108の撤去が全て終わった後の状態)を図42に示す。 State after the existing superstructure members 112 and 114 left on the piers 102 and 104 have been carried out and removed (state after all the removal of the existing superstructure members 108 that bridged between the piers 102 and 104) has been completed. ) Is shown in FIG.

なお、ステップS105とステップS106の順序は逆にしてもよい。 The order of steps S105 and S106 may be reversed.

(1−6)第1実施形態に係る上部工部材架け替え方法
本第1実施形態に係る上部工部材撤去方法を実施した後、径間106内に新設上部工部材160を架設する上部工部材架け替え方法(本発明の第1実施形態に係る上部工部材架け替え設備12を用いて行う本第1実施形態に係る上部工部材架け替え方法)について説明する。
(1-6) Method for replacing superstructure member according to the first embodiment After carrying out the method for removing the superstructure member according to the first embodiment, the superstructure member for constructing a new superstructure member 160 within the span 106 A replacement method (a superstructure member replacement method according to the first embodiment performed by using the superstructure member replacement facility 12 according to the first embodiment of the present invention) will be described.

なお、橋脚102、104上に残置した既設上部工部材112、114を撤去するステップS106、および橋脚102、104上に新たに新設上部工部材162、164(径間106の両端部に配置する短尺の新設上部工部材162、164)を設置するステップS107は、本発明に係る上部工部材架け替え方法における必須のステップではないが、上部工部材の架け替えでは、通常、ステップS106およびステップS107も行うので、これらのステップS106およびステップS107も本第1実施形態に係る上部工部材架け替え方法に含めている。 In addition, step S106 for removing the existing superstructure members 112 and 114 left on the piers 102 and 104, and new superstructure members 162 and 164 (short lengths arranged at both ends of the span 106) on the piers 102 and 104. Step S107 for installing the newly installed superstructure member 162, 164) is not an indispensable step in the method for replacing the superstructure member according to the present invention, but in the replacement of the superstructure member, usually steps S106 and S107 are also included. Since this is performed, these steps S106 and S107 are also included in the superstructure member replacement method according to the first embodiment.

本第1実施形態に係る上部工部材架け替え方法において、既設上部工部材108の撤去を完了するまでの方法は、「(1−5)上部工部材撤去方法」で説明した方法と同様であるので説明は省略し、既設上部工部材108の撤去を完了した後の状態から、新設上部工部材160の架設を完了するまでの方法について、ステップに分けて、図43〜図47を参照しつつ説明する。図43〜図47は、前記各ステップにおける状態を橋軸直角方向から見た正面図である。 In the superstructure member replacement method according to the first embodiment, the method until the removal of the existing superstructure member 108 is completed is the same as the method described in "(1-5) Superstructure member removal method". Therefore, the description is omitted, and the method from the state after the removal of the existing superstructure member 108 to the completion of the erection of the new superstructure member 160 is divided into steps, with reference to FIGS. 43 to 47. explain. 43 to 47 are front views of the state in each step as viewed from the direction perpendicular to the bridge axis.

図43は、新設上部工部材162、164(径間106の両端部に配置する短尺の新設上部工部材162、164)を橋脚102、104上に新たに設置した状態を示す正面図であり、図44は、新設上部工部材160を構成する新設上部工部材160X、160Y、160Zを、クレーン(図示せず)で上部工部材受け用橋軸直角方向部材26上および架台10C、10D上に配置した状態を示す正面図であり、図45は、新設上部工部材160X、160Y、160Zを、添接板160Aで連結し、架設する新設上部工部材160を組み立てた状態を示す正面図であり、図46は、新設上部工部材160を昇降装置24で上昇させて、橋梁100の上部工としての所定の高さ位置に新設上部工部材160を配置した状態を示す正面図であり、図47は、新設上部工部材160の橋梁100への連結を終えた状態を示す正面図である。 FIG. 43 is a front view showing a state in which new superstructure members 162 and 164 (short new superstructure members 162 and 164 arranged at both ends of the span 106) are newly installed on the bridge piers 102 and 104. In FIG. 44, the new superstructure members 160X, 160Y, and 160Z constituting the new superstructure member 160 are arranged on the bridge axis perpendicular direction member 26 for receiving the superstructure member and on the pedestals 10C and 10D by a crane (not shown). FIG. 45 is a front view showing a state in which the new superstructure members 160X, 160Y, and 160Z are connected by a splicing plate 160A and the newly installed superstructure member 160 to be erected is assembled. FIG. 46 is a front view showing a state in which the new superstructure member 160 is raised by the elevating device 24 and the new superstructure member 160 is arranged at a predetermined height position as the superstructure of the bridge 100. FIG. 47 is a front view. , It is a front view which shows the state which finished connecting the new superstructure member 160 to the bridge 100.

前述したように、本第1実施形態に係る上部工部材架け替え方法において、既設上部工部材108を撤去するまでの方法は、「(1−5)上部工部材撤去方法」で説明した方法と同様であるので、「(1−5)上部工部材撤去方法」に記載したステップS101〜ステップS106についての説明をもって、本第1実施形態に係る上部工部材架け替え方法における既設上部工部材108撤去までの各ステップについての説明に代えることとする。 As described above, in the superstructure member replacement method according to the first embodiment, the method until the existing superstructure member 108 is removed is the method described in "(1-5) Superstructure member removal method". Since the same is true, the existing superstructure member 108 is removed in the superstructure member replacement method according to the first embodiment with the explanation of steps S101 to S106 described in "(1-5) Method for removing superstructure member". It will be replaced with the explanation for each step up to.

したがって、以下では、橋脚102と橋脚104の間を架け渡していた既設上部工部材108の撤去が全て終わった後の状態(図42に示す状態)から、上部工部材架け替え設備12を用いて新設上部工部材160の架設を完了した状態までに関して、第1実施形態に係る上部工部材架け替え方法について、ステップに分けて説明する(ステップS107〜ステップS113)。 Therefore, in the following, the superstructure member replacement facility 12 will be used from the state after all the removal of the existing superstructure member 108 that has been bridged between the pier 102 and the bridge pier 104 is completed (the state shown in FIG. 42). The method of replacing the superstructure member according to the first embodiment will be described in steps (steps S107 to S113) up to the state where the erection of the new superstructure member 160 is completed.

<ステップS107>
図42に示すように既設上部工部材108の撤去を終えた後、地盤500上または橋梁100上に配置したクレーン(図示せず)で、新設上部工部材162を橋脚102上に設置するとともに、新設上部工部材164を橋脚104上に設置する。新設上部工部材162、164を橋脚102、104上に設置した後の状態を図43に示す。図43に示すように、新設上部工部材162、164は、径間106(図1参照)の両端部に配置される短尺の新設上部工部材である。
<Step S107>
As shown in FIG. 42, after the removal of the existing superstructure member 108 is completed, the new superstructure member 162 is installed on the pier 102 with a crane (not shown) placed on the ground 500 or the bridge 100, and at the same time. The new superstructure member 164 is installed on the pier 104. FIG. 43 shows a state after the new superstructure members 162 and 164 are installed on the piers 102 and 104. As shown in FIG. 43, the new superstructure members 162 and 164 are short new superstructure members arranged at both ends of the span 106 (see FIG. 1).

<ステップS108>
昇降装置24の高さ位置を調整して、上部工部材受け用橋軸直角方向部材26の高さ位置を、架台10C、10Dの高さに合わせた位置に合わせる。
<Step S108>
The height position of the elevating device 24 is adjusted so that the height position of the bridge axis perpendicular direction member 26 for receiving the superstructure member is aligned with the height of the gantry 10C and 10D.

<ステップS109>
新設上部工部材160X、160Y、160Zを、地上に配置したクレーン(図示せず)で、図44に示すように、上部工部材受け用橋軸直角方向部材26上および架台10C、10D上に配置する(新設上部工部材載置工程)。
<Step S109>
New superstructure members 160X, 160Y, 160Z are arranged on the ground-based crane (not shown) on the bridge axis perpendicular direction member 26 for receiving superstructure members and on the pedestals 10C and 10D, as shown in FIG. (New superstructure member mounting process).

<ステップS110>
上部工部材受け用橋軸直角方向部材26上および架台10C、10D上に配置した新設上部工部材160X、160Y、160Zを、図45に示すように、添接板160Aで連結し、架設する新設上部工部材160を組み立てる。
<Step S110>
Newly installed superstructure members 160X, 160Y, 160Z arranged on the bridge axis perpendicular direction member 26 for receiving superstructure members and on the pedestals 10C and 10D are connected by a splicing plate 160A and erected as shown in FIG. Assemble the superstructure member 160.

<ステップS111>
組み立てた新設上部工部材160を昇降装置24で上昇させて、図46に示すように、橋梁100の上部工としての所定の高さ位置に新設上部工部材160を配置する。
<Step S111>
The assembled new superstructure member 160 is raised by the elevating device 24, and as shown in FIG. 46, the new superstructure member 160 is arranged at a predetermined height position as the superstructure of the bridge 100.

<ステップS112>
橋梁100の上部工としての所定の高さ位置に配置された新設上部工部材160を、図47に示すように、新設上部工部材162、164に添接板160B、160Cで連結する。
<Step S112>
As shown in FIG. 47, the new superstructure member 160 arranged at a predetermined height position as the superstructure of the bridge 100 is connected to the new superstructure member 162, 164 by splicing plates 160B and 160C.

<ステップS113>
新設上部工部材160を新設上部工部材162、164に添接板160B、160Cで連結した後、昇降装置24を下降させて、新設上部工部材160を支持していた荷重を開放し、上部工部材の架け替え作業を完了する。
<Step S113>
After connecting the new superstructure member 160 to the new superstructure member 162, 164 with splicing plates 160B and 160C, the elevating device 24 is lowered to release the load supporting the new superstructure member 160, and the superstructure is released. Complete the replacement work of the members.

(1−7)第1実施形態の効果
本第1実施形態に係る上部工部材撤去設備および上部工部材架け替え設備ならびに上部工部材撤去方法および上部工部材架け替え方法によれば、橋脚102、104に上下方向に沿わせた上下方向レール22に沿って上下方向に昇降する昇降装置24を用いて既設上部工部材110の撤去および架け替えを行うことができるので、既設上部工部材110の高さ位置にまで届く重機を用いることを不要にすることができ、また、既設上部工部材110の高さ位置の近傍にまで到達するベントを構築することも不要にすることができる。
(1-7) Effect of First Embodiment According to the superstructure member removal equipment, the superstructure member replacement equipment, the superstructure member removal method, and the superstructure member replacement method according to the first embodiment, the pier 102, Since the existing superstructure member 110 can be removed and replaced by using the elevating device 24 that moves up and down along the vertical rail 22 along the vertical direction of 104, the height of the existing superstructure member 110 can be increased. It is possible to eliminate the need to use a heavy machine that reaches the vertical position, and it is also possible to eliminate the need to construct a vent that reaches the vicinity of the height position of the existing superstructure member 110.

このため、地上高が高い高架橋の既設上部工部材の撤去および架け替えを行う場合であっても、重機の小型化、ベント設備の簡素化、上部工部材の撤去・架設作業の効率化を図ることができる。 For this reason, even when removing or replacing the existing superstructure members of the viaduct with a high ground clearance, the weight of heavy machinery will be reduced, the venting equipment will be simplified, and the efficiency of the removal and erection work of the superstructure members will be improved. be able to.

(2)第2実施形態
(2−1)第2実施形態に係る上部工部材撤去設備の構成
図48〜図50は、本発明の第2実施形態に係る上部工部材撤去設備50を用いて、橋梁100の隣接する橋脚102、104の間の径間106内の既設上部工部材110を撤去している状況を示す正面図(橋梁100の橋軸直角方向から見た正面図)である。図48は撤去する既設上部工部材110を下降させる前の状態を示す正面図であり、図49は撤去する既設上部工部材110を下降させた後の状態を示す正面図であり、図50は下降させた既設上部工部材110を切断後にクレーン200で吊り上げて撤去する直前の状態を示す正面図である。なお、撤去する既設上部工部材110は、切断面110A、110Bで切断されて橋梁100から切り離されている。
(2) Second Embodiment (2-1) Configuration of Superstructure Member Removal Equipment According to Second Embodiment FIGS. 48 to 50 show using the superstructure member removal equipment 50 according to the second embodiment of the present invention. It is a front view (front view of the bridge 100 seen from the direction perpendicular to the bridge axis) showing the situation where the existing superstructure member 110 in the span 106 between the adjacent piers 102 and 104 of the bridge 100 is removed. FIG. 48 is a front view showing a state before lowering the existing superstructure member 110 to be removed, FIG. 49 is a front view showing a state after lowering the existing superstructure member 110 to be removed, and FIG. 50 is a front view. It is a front view which shows the state just before the existing superstructure member 110 which was lowered is lifted by a crane 200 after cutting, and is removed. The existing superstructure member 110 to be removed is cut at the cut surfaces 110A and 110B and separated from the bridge 100.

図51〜図53は、本発明の第2実施形態に係る上部工部材撤去設備50を用いて、橋梁100の隣接する橋脚102、104の間の径間106内の既設上部工部材110を撤去している状況を示す断面図(橋梁100の橋軸方向と平行な鉛直面で、橋梁100の橋軸直直角方向の中央部付近を切断した断面図)である。図51は撤去する既設上部工部材110を下降させる前の状態を示す断面図(切断位置は図7のIV−IV線に示す切断位置と同様の位置)であり、図52は撤去する既設上部工部材110を下降させた後の状態を示す断面図(切断位置は図8のV−V線に示す切断位置と同様の位置)であり、図53は下降させた既設上部工部材110を切断後にクレーン200で吊り上げて撤去する直前の状態を示す断面図(切断位置は図9のVI−VI線に示す切断位置と同様の位置)である。 In FIGS. 51 to 53, the existing superstructure member 110 in the span 106 between the adjacent piers 102 and 104 of the bridge 100 is removed by using the superstructure member removal facility 50 according to the second embodiment of the present invention. It is a cross-sectional view (cross-sectional view which cuts the vicinity of the central part of the bridge 100 in the direction perpendicular to the bridge axis at the vertical plane parallel to the bridge axis direction of the bridge 100) showing the situation. FIG. 51 is a cross-sectional view showing a state before lowering the existing superstructure member 110 to be removed (the cutting position is the same as the cutting position shown by the IV-IV line in FIG. 7), and FIG. 52 shows the existing upper part to be removed. It is a cross-sectional view which shows the state after lowering the work member 110 (the cutting position is the same position as the cutting position shown by the VV line of FIG. 8), and FIG. 53 shows the cut existing superstructure member 110 which was lowered. It is a cross-sectional view (the cutting position is the same position as the cutting position shown by the VI-VI line of FIG. 9) which shows the state just before being lifted and removed by a crane 200 later.

図54は、本第2実施形態に係る上部工部材撤去設備50の下部を橋軸方向に平行な鉛直面で切断した切断面を示す断面図(切断位置は図11のXIII−XIII線に示す切断位置と同様の位置)である。 FIG. 54 is a cross-sectional view showing a cut surface obtained by cutting the lower portion of the superstructure member removing facility 50 according to the second embodiment in a vertical plane parallel to the bridge axis direction (cutting positions are shown by lines XIII-XIII in FIG. 11). The same position as the cutting position).

図55は、本発明の第2実施形態に係る上部工部材撤去設備50の下部を橋梁100の橋軸直角方向から見た正面図である。 FIG. 55 is a front view of the lower portion of the superstructure member removing facility 50 according to the second embodiment of the present invention as viewed from the direction perpendicular to the bridge axis of the bridge 100.

図56は、本発明の第2実施形態に係る上部工部材撤去設備50の上部を橋梁100の橋軸直角方向から見た正面図(図48のLVI部拡大図)であり、図57は、図56のLVII−LVII線断面図である。 FIG. 56 is a front view (enlarged view of the LVI portion of FIG. 48) of the upper portion of the superstructure member removing facility 50 according to the second embodiment of the present invention as viewed from a direction perpendicular to the bridge axis of the bridge 100. FIG. 56 is a sectional view taken along line LVII-LVII of FIG.

なお、第1実施形態に係る上部工部材撤去設備10についての図7〜図10に示す断面図は、本第2実施形態に係る上部工部材撤去設備50についての同様の切断位置における断面図と同一であるので、本第2実施形態に係る上部工部材撤去設備50についての以下の説明では、図7〜図10に示す断面図も援用して参照する。 The cross-sectional views shown in FIGS. 7 to 10 of the superstructure member removing facility 10 according to the first embodiment are the cross-sectional views at the same cutting position of the superstructure member removing facility 50 according to the second embodiment. Since they are the same, in the following description of the superstructure member removing facility 50 according to the second embodiment, the cross-sectional views shown in FIGS. 7 to 10 are also referred to.

また、本発明の第2実施形態に係る上部工部材撤去設備50の下部を橋軸方向から見た側面図は、第1実施形態に係る上部工部材撤去設備10の下部を橋軸方向から見た側面図である図11および図12と同一である。また、第1実施形態に係る上部工部材撤去設備10の下部の一部を拡大する拡大図である図14に示す構成は、本第2実施形態に係る上部工部材撤去設備50にも同様に当てはまる。また、第1実施形態に係る上部工部材撤去設備10の上部を橋梁100の橋軸方向から見た側面図である図17に示す構成は、本第2実施形態に係る上部工部材撤去設備50にも同様に当てはまる。本第2実施形態に係る上部工部材撤去設備50についての以下の説明では、図11、12に示す側面図、図14に示す拡大図および図17に示す側面図も援用して参照する。 Further, in the side view of the lower part of the superstructure member removal facility 50 according to the second embodiment of the present invention viewed from the bridge axis direction, the lower part of the superstructure member removal facility 10 according to the first embodiment is viewed from the bridge axis direction. It is the same as FIGS. 11 and 12 which are side views. Further, the configuration shown in FIG. 14, which is an enlarged view of a part of the lower part of the superstructure member removal facility 10 according to the first embodiment, is similarly applied to the superstructure member removal facility 50 according to the second embodiment. apply. Further, the configuration shown in FIG. 17, which is a side view of the upper portion of the superstructure member removal facility 10 according to the first embodiment as viewed from the bridge axis direction of the bridge 100, is the superstructure member removal facility 50 according to the second embodiment. The same applies to. In the following description of the superstructure member removing facility 50 according to the second embodiment, the side views shown in FIGS. 11 and 12, the enlarged view shown in FIG. 14, and the side view shown in FIG. 17 are also referred to.

本発明の第2実施形態に係る上部工部材撤去設備50は、第1実施形態に係る上部工部材撤去設備10と同様の構成を、橋脚102、104において径間106とは橋軸方向反対側(径間126、136の橋脚102、104寄りの端部で橋脚102、104の近傍領域)にも設けた構成となっているので、本発明の第2実施形態に係る上部工部材撤去設備50において、第1実施形態に係る上部工部材撤去設備10の部材および装置に対応する部材および装置には、原則として同一の符号および名称を用い、説明は原則として省略する。 The superstructure member removal equipment 50 according to the second embodiment of the present invention has the same configuration as the superstructure member removal equipment 10 according to the first embodiment, and has the same configuration as the piers 102 and 104 on the side opposite to the span 106 in the bridge axis direction. Since it is also provided in (a region near the piers 102 and 104 at the ends of the spans 126 and 136 near the piers 102 and 104), the superstructure member removing facility 50 according to the second embodiment of the present invention. In principle, the same reference numerals and names are used for the members and devices corresponding to the members and devices of the superstructure member removal facility 10 according to the first embodiment, and the description thereof will be omitted in principle.

本発明の第2実施形態に係る上部工部材撤去設備50は、橋脚102に近接した左側設備50Aと、橋脚104に近接した右側設備50Bと、2つの架台10C、10Dと、からなる。上部工部材撤去設備50の左側設備50Aと右側設備50Bとは、撤去する既設上部工部材110の長さとほぼ同じ長さだけ橋軸方向に隔てられて対向して配置されている。架台10C、10Dは、橋軸直角方向から見て、撤去する既設上部工部材110をおおよそ3等分するような位置で、かつ、撤去する既設上部工部材110の下方に配置されている。 The superstructure member removing facility 50 according to the second embodiment of the present invention includes a left side facility 50A close to the pier 102, a right side facility 50B close to the pier 104, and two pedestals 10C and 10D. The left side equipment 50A and the right side equipment 50B of the superstructure member removing facility 50 are arranged so as to face each other with a length substantially the same as the length of the existing superstructure member 110 to be removed in the bridge axial direction. The gantry 10C and 10D are arranged at a position that roughly divides the existing superstructure member 110 to be removed into three equal parts when viewed from the direction perpendicular to the bridge axis, and below the existing superstructure member 110 to be removed.

上部工部材撤去設備50の左側設備50Aと右側設備50Bは同じ構成であり、どちらも、本体部52と、反力受け基礎部60と、を有してなり、本体部52の下方に反力受け基礎部60が配置されている。本体部52は撤去する既設上部工部材110の端部を直接的に支持しつつ、安全に下降させる機能を有する部位である。反力受け基礎部60は、本体部52が支持する既設上部工部材110の荷重の少なくとも一部を、橋脚102、104を経由させずに安全に地盤500に伝達する機能を有する部位である。本第2実施形態に係る上部工部材撤去設備50は、反力受け基礎部60を備えることにより、撤去する既設上部工部材110を支持しつつ下降させる際に本体部52が受ける荷重の少なくとも一部を、橋脚102、104を経由させずに地盤500に伝達することができるので、既設上部工部材110を支持しつつ下降させる際にも、橋脚102、104に伝達される荷重を、橋脚102、104の安全性を確保できる範囲内にすることができる。 The left side equipment 50A and the right side equipment 50B of the superstructure member removal equipment 50 have the same configuration, and both have a main body portion 52 and a reaction force receiving base portion 60, and a reaction force is applied below the main body portion 52. The receiving base portion 60 is arranged. The main body 52 is a portion having a function of safely lowering while directly supporting the end of the existing superstructure member 110 to be removed. The reaction force receiving foundation portion 60 is a portion having a function of safely transmitting at least a part of the load of the existing superstructure member 110 supported by the main body portion 52 to the ground 500 without passing through the piers 102 and 104. The superstructure member removing facility 50 according to the second embodiment includes the reaction force receiving base portion 60, so that at least one of the loads received by the main body portion 52 when the existing superstructure member 110 to be removed is supported and lowered. Since the portion can be transmitted to the ground 500 without passing through the piers 102 and 104, the load transmitted to the piers 102 and 104 can be transferred to the piers 102 even when the existing superstructure member 110 is supported and lowered. , 104 can be within the range in which the safety can be ensured.

本発明の第2実施形態に係る上部工部材撤去設備50は、前述したように、第1実施形態に係る上部工部材撤去設備10と同様の構成を、橋脚102、104において径間106とは橋軸方向反対側(径間126、136の橋脚102、104寄りの端部で橋脚102、104の近傍領域)にも設けた構成となっており、左側設備50Aおよび右側設備50Bのどちらにおいても、反対側橋軸直角方向連結部材32には、反対側レール保持用上下方向部材56が取り付けられ、反対側レール保持用上下方向部材56には反対側上下方向レール54が取り付けられている。そして、反対側上下方向レール54には昇降装置24が上下方向に移動可能なように取り付けられ、昇降装置24のブラケット24Cには上部工部材受け用橋軸直角方向部材26が取り付けられ、反対側レール保持用上下方向部材56の上端面には残置部受け用橋軸直角方向部材36が取り付けられている。 As described above, the superstructure member removal facility 50 according to the second embodiment of the present invention has the same configuration as the superstructure member removal facility 10 according to the first embodiment, and the bridge piers 102 and 104 have the same configuration as the span 106. It is also provided on the opposite side of the bridge axis direction (the area near the piers 102 and 104 at the ends of the spans 126 and 136 near the piers 102 and 104), and both the left side equipment 50A and the right side equipment 50B have a configuration. The opposite side rail holding vertical member 56 is attached to the opposite side bridge axis perpendicular direction connecting member 32, and the opposite side vertical rail 54 is attached to the opposite side rail holding vertical member 56. Then, the lifting device 24 is attached to the vertical rail 54 on the opposite side so as to be movable in the vertical direction, and the bridge axis perpendicular direction member 26 for receiving the superstructure member is attached to the bracket 24C of the lifting device 24 on the opposite side. A member 36 in the direction perpendicular to the bridge axis for receiving the remaining portion is attached to the upper end surface of the vertical member 56 for holding the rail.

また、反対側レール保持用上下方向部材56の下方には、第1実施形態の反力受け基礎部40と同様の構成の反力受け基礎部が設けられており、本第2実施形態に係る上部工部材撤去設備50の反力受け基礎部60は、橋脚102、104それぞれについて橋軸方向両側に反力受け基礎部40が設けられて構成されている。反対側レール保持用上下方向部材56および反対側上下方向レール54ならびに昇降装置24等の部材や装置は、径間126、136の橋脚102、104寄りの端部に設けられた反力受け基礎部40によって下方から支持されている。 Further, below the vertical member 56 for holding the opposite rail, a reaction force receiving base portion having the same configuration as that of the reaction force receiving base portion 40 of the first embodiment is provided, which is related to the second embodiment. The reaction force receiving foundation portion 60 of the superstructure member removing facility 50 is configured by providing reaction force receiving foundation portions 40 on both sides in the bridge axial direction for each of the piers 102 and 104. The members and devices such as the vertical member 56 for holding the opposite rail, the vertical rail 54 on the opposite side, and the lifting device 24 are the reaction force receiving foundations provided at the ends of the spans 126 and 136 near the piers 102 and 104. It is supported from below by 40.

このため、本発明の第2実施形態に係る上部工部材撤去設備50は、橋脚102と橋脚104との間の径間106内の既設上部工部材110の撤去に用いることができるだけでなく、橋脚102、104において径間106と橋軸方向反対側の径間126、136内の既設上部工部材120、130の撤去にも用いることができる実施形態である。 Therefore, the superstructure member removing facility 50 according to the second embodiment of the present invention can be used not only for removing the existing superstructure member 110 within the span 106 between the pier 102 and the pier 104, but also for the pier. In 102 and 104, it is an embodiment that can also be used for removing the existing superstructure members 120 and 130 in the span 106 and the span 126 and 136 on the opposite side in the bridge axis direction.

本第2実施形態に係る上部工部材撤去設備50について、第1実施形態に係る上部工部材撤去設備10と対比しつつ、さらに説明する。 The superstructure member removal facility 50 according to the second embodiment will be further described in comparison with the superstructure member removal facility 10 according to the first embodiment.

第1実施形態に係る上部工部材撤去設備10では、上下方向レール22、レール保持用上下方向部材28および昇降装置24等の上下方向の移動に直接的に関与する部材や装置は、橋軸直角方向から見て、橋脚102と橋脚104との間の径間106の範囲内にしか設けられておらず、橋脚102、104において径間106とは橋軸方向反対側の径間126、136には設けられていなかったが、本第2実施形態に係る上部工部材撤去設備50においては、橋脚102、104において径間106とは橋軸方向反対側(径間126、136の橋脚102、104寄りの端部で橋脚102、104の近傍領域)にも、反対側上下方向レール54、反対側レール保持用上下方向部材56および昇降装置24等の上下方向の移動に直接的に関与する部材や装置が設けられている。 In the superstructure member removing facility 10 according to the first embodiment, the members and devices directly involved in the vertical movement such as the vertical rail 22, the vertical member 28 for holding the rail, and the lifting device 24 are perpendicular to the bridge axis. When viewed from the direction, it is provided only within the range of the span 106 between the pier 102 and the pier 104, and in the piers 102 and 104, the span 126 and 136 on the opposite side of the pier 106 in the bridge axial direction. However, in the superstructure member removal facility 50 according to the second embodiment, the piers 102 and 104 are on the opposite side of the bridge axis direction from the span 106 (the piers 102 and 104 with spans 126 and 136). Also in the area near the piers 102 and 104 at the near end), members that are directly involved in the vertical movement of the opposite vertical rail 54, the vertical member 56 for holding the opposite rail, the lifting device 24, etc. A device is provided.

また、第1実施形態に係る上部工部材撤去設備10では、後打ち杭46等からなる反力受け基礎部40は、橋軸直角方向から見て、橋脚102と橋脚104との間の径間106の範囲内にしか設けられていなかったが、本発明の第2実施形態に係る上部工部材撤去設備50の反力受け基礎部60においては、橋脚102、104において径間106とは橋軸方向反対側(径間126、136の橋脚102、104寄りの端部で橋脚102、104の近傍領域)にも、後打ち杭46等からなる反力受け基礎部40が設けられており、本第2実施形態に係る上部工部材撤去設備50の反力受け基礎部60は、橋脚102、104それぞれについて橋軸方向両側に反力受け基礎部40が設けられて構成されている。 Further, in the superstructure member removing facility 10 according to the first embodiment, the reaction force receiving foundation portion 40 made of post-pile 46 and the like has a span between the pier 102 and the pier 104 when viewed from the direction perpendicular to the bridge axis. Although it was provided only within the range of 106, in the reaction force receiving foundation portion 60 of the superstructure member removing facility 50 according to the second embodiment of the present invention, the span 106 is the bridge shaft in the piers 102 and 104. A reaction force receiving foundation 40 made of post-pile 46 and the like is also provided on the opposite side in the direction (the end near the piers 102 and 104 of the spans 126 and 136 and the vicinity of the piers 102 and 104). The reaction force receiving foundation portion 60 of the superstructure member removing facility 50 according to the second embodiment is configured by providing reaction force receiving foundation portions 40 on both sides in the bridge axial direction for each of the piers 102 and 104.

したがって、本発明の第2実施形態に係る上部工部材撤去設備50は、橋脚102と橋脚104との間の径間106内の既設上部工部材110の撤去に用いることができるだけでなく、橋脚102、104において径間106とは橋軸方向反対側の径間126、136内の既設上部工部材120、130の撤去にも用いることができるように構成されている。 Therefore, the superstructure member removing facility 50 according to the second embodiment of the present invention can be used not only for removing the existing superstructure member 110 within the span 106 between the pier 102 and the pier 104, but also for removing the existing superstructure member 110. , 104 is configured so that it can also be used for removing the existing superstructure members 120 and 130 in the spans 126 and 136 on the opposite side of the span 106 in the bridge axis direction.

なお、径間126の他端側(径間126において橋脚102とは反対の側)の橋脚にも、本第2実施形態に係る上部工部材撤去設備50の橋脚102についての設備と同様の構成の設備が設けられ、径間136の他端側(径間136において橋脚104とは反対の側)の橋脚にも、本第2実施形態に係る上部工部材撤去設備50の橋脚104についての設備と同様の構成の設備が設けられているものとする。 The bridge pier on the other end side of the span 126 (the side opposite to the pier 102 in the span 126) has the same configuration as the equipment for the pier 102 of the superstructure member removing facility 50 according to the second embodiment. Equipment for the pier 104 of the superstructure member removal equipment 50 according to the second embodiment also on the pier on the other end side of the span 136 (the side opposite to the pier 104 in the span 136). It is assumed that equipment having the same configuration as the above is provided.

(2−2)第2実施形態に係る上部工部材架け替え設備の構成
本発明の第2実施形態に係る上部工部材架け替え設備(図示せず)は、第1実施形態に係る上部工部材架け替え設備12と同様の構成を、橋脚102、104において径間106とは橋軸方向反対側(径間126、136の橋脚102、104寄りの端部で橋脚102、104の近傍領域)にも設けた構成からなる架け替え設備である。したがって、本発明の第1実施形態に係る上部工部材架け替え設備12の構成についての説明をもって、本発明の第2実施形態に係る上部工部材架け替え設備の構成についての説明に代えることとする。
(2-2) Configuration of Superstructure Member Replacement Equipment According to Second Embodiment The superstructure member replacement equipment (not shown) according to the second embodiment of the present invention is a superstructure member according to the first embodiment. The same configuration as the replacement equipment 12 is provided on the bridge piers 102 and 104 on the side opposite to the span 106 in the direction of the bridge axis (the end of the piers 102 and 104 of the span 126 and 136 near the piers 102 and 104). It is a replacement facility with a configuration that also provides. Therefore, the description of the configuration of the superstructure member replacement facility 12 according to the first embodiment of the present invention will be replaced with the description of the configuration of the superstructure member replacement facility according to the second embodiment of the present invention. ..

なお、径間126の他端側(径間126において橋脚102とは反対の側)の橋脚にも、本第2実施形態に係る上部工部材架け替え設備の橋脚102についての設備と同様の構成の設備が設けられ、径間136の他端側(径間136において橋脚104とは反対の側)の橋脚にも、本第2実施形態に係る上部工部材架け替え設備の橋脚104についての設備と同様の構成の設備が設けられているものとする。 The bridge pier on the other end side of the span 126 (the side opposite to the pier 102 in the span 126) has the same configuration as the equipment for the pier 102 of the superstructure member replacement equipment according to the second embodiment. Equipment for the pier 104 of the superstructure member replacement equipment according to the second embodiment also on the pier on the other end side of the span 136 (the side opposite to the pier 104 in the span 136). It is assumed that equipment having the same configuration as the above is provided.

(2−3)第2実施形態に係る上部工部材撤去設備の構築方法
本発明の第2実施形態に係る上部工部材撤去設備50は、第1実施形態に係る上部工部材撤去設備10と同様の構成を、橋脚102、104において径間106とは橋軸方向反対側(径間126、136の橋脚102、104寄りの端部で橋脚102、104の近傍領域)にも設けた構成となっているので、第1実施形態に係る上部工部材撤去設備10の構築方法を、橋脚102、104において径間106とは橋軸方向反対側(径間126、136の橋脚102、104寄りの端部で橋脚102、104の近傍領域)にも適用することで、本発明の第2実施形態に係る上部工部材撤去設備50を構築することができる。したがって、第1実施形態に係る上部工部材撤去設備10の構築方法についての説明をもって、本発明の第2実施形態に係る上部工部材撤去設備50の構築方法についての説明に代えることとする。
(2-3) Method for constructing superstructure member removal equipment according to the second embodiment The superstructure member removal equipment 50 according to the second embodiment of the present invention is the same as the superstructure member removal equipment 10 according to the first embodiment. Is also provided on the piers 102 and 104 on the side opposite to the span 106 in the direction of the bridge axis (the end of the piers 126 and 136 near the piers 102 and 104 and the region near the piers 102 and 104). Therefore, the method of constructing the superstructure member removing facility 10 according to the first embodiment is described in the bridge piers 102 and 104 on the opposite side of the bridge axis direction from the span 106 (the ends of the spans 126 and 136 near the piers 102 and 104). By applying this to the regions near the piers 102 and 104), it is possible to construct the superstructure member removing facility 50 according to the second embodiment of the present invention. Therefore, the description of the method of constructing the superstructure member removal facility 10 according to the first embodiment will be replaced with the description of the method of constructing the superstructure member removal facility 50 according to the second embodiment of the present invention.

(2−4)第2実施形態に係る上部工部材架け替え設備の構築方法
本発明の第2実施形態に係る上部工部材架け替え設備は、第1実施形態に係る上部工部材架け替え設備12と同様の構成を、橋脚102、104において径間106とは橋軸方向反対側(径間126、136の橋脚102、104寄りの端部で橋脚102、104の近傍領域)にも設けた構成となっているので、第1実施形態に係る上部工部材架け替え設備12の構築方法を、橋脚102、104において径間106とは橋軸方向反対側(径間126、136の橋脚102、104寄りの端部で橋脚102、104の近傍領域)にも適用することで、本発明の第2実施形態に係る上部工部材架け替え設備を構築することができる。したがって、第1実施形態に係る上部工部材架け替え設備12の構築方法についての説明をもって、本発明の第2実施形態に係る上部工部材架け替え設備の構築方法についての説明に代えることとする。
(2-4) Method for constructing superstructure member replacement equipment according to the second embodiment The superstructure member replacement equipment according to the second embodiment of the present invention is the superstructure member replacement equipment 12 according to the first embodiment. The same configuration as is provided on the piers 102 and 104 on the side opposite to the span 106 in the direction of the bridge axis (the end of the piers 126 and 136 near the piers 102 and 104 and the region near the piers 102 and 104). Therefore, the method of constructing the superstructure member replacement facility 12 according to the first embodiment is described in the bridge piers 102 and 104 on the opposite side of the bridge axis direction from the span 106 (bridge piers 102 and 104 with spans 126 and 136). By applying it to the vicinity of the piers 102 and 104 at the near end), it is possible to construct the superstructure member replacement facility according to the second embodiment of the present invention. Therefore, the description of the method of constructing the superstructure member replacement facility 12 according to the first embodiment will be replaced with the description of the method of constructing the superstructure member replacement facility 12 according to the second embodiment of the present invention.

(2−5)第2実施形態に係る上部工部材撤去方法
本発明の第2実施形態に係る上部工部材撤去設備50は、第1実施形態に係る上部工部材撤去設備10と同様の構成を、橋脚102、104において径間106とは橋軸方向反対側(径間126、136の橋脚102、104寄りの端部で橋脚102、104の近傍領域)にも設けた構成となっており、橋脚102と橋脚104との間の径間106内の既設上部工部材110の撤去に用いることができるだけでなく、橋脚102、104において径間106とは橋軸方向反対側の径間126、136内の既設上部工部材120、130の撤去にも用いることができるように構成されている。本発明の第2実施形態に係る上部工部材撤去設備50を用いて径間106内の既設上部工部材110を撤去する際の撤去方法は、第1実施形態に係る上部工部材撤去方法と同様であり、また、橋脚102、104において径間106とは橋軸方向反対側の径間126、136内の既設上部工部材120、130を撤去する際の撤去方法は、径間106内の既設上部工部材110を撤去する際の撤去方法と同様であるので、第1実施形態に係る上部工部材撤去方法についての説明をもって、本発明の第2実施形態に係る上部工部材撤去方法についての説明に代えることとする。
(2-5) Method for removing superstructure member according to the second embodiment The superstructure member removal facility 50 according to the second embodiment of the present invention has the same configuration as the superstructure member removal facility 10 according to the first embodiment. , The piers 102 and 104 are also provided on the side opposite to the span 106 in the direction of the bridge axis (the end of the piers 126 and 136 near the piers 102 and 104 and the vicinity of the piers 102 and 104). Not only can it be used to remove the existing superstructure member 110 in the span 106 between the pier 102 and the bridge pier 104, but also in the piers 102 and 104, the span 126, 136 on the side opposite to the span 106 in the bridge axial direction. It is configured so that it can also be used for removing the existing superstructure members 120 and 130 inside. The removal method when removing the existing superstructure member 110 in the span 106 by using the superstructure member removal facility 50 according to the second embodiment of the present invention is the same as the superstructure member removal method according to the first embodiment. Further, in the bridge piers 102 and 104, the removal method when removing the existing superstructure members 120 and 130 in the spans 126 and 136 on the opposite side of the span 106 in the bridge axial direction is the existing in the span 106. Since it is the same as the removal method when removing the superstructure member 110, the superstructure member removal method according to the second embodiment of the present invention will be described with the explanation of the superstructure member removal method according to the first embodiment. Will be replaced with.

なお、前述したように、径間126の他端側(径間126において橋脚102とは反対の側)の橋脚にも、本第2実施形態に係る上部工部材撤去設備50の橋脚102についての設備と同様の構成の設備が設けられ、径間136の他端側(径間136において橋脚104とは反対の側)の橋脚にも、本第2実施形態に係る上部工部材撤去設備50の橋脚104についての設備と同様の構成の設備が設けられているものとする。 As described above, the pier 102 on the other end side of the span 126 (the side opposite to the pier 102 in the span 126) also has the pier 102 of the superstructure member removing facility 50 according to the second embodiment. Equipment having the same configuration as the equipment is provided, and the pier on the other end side of the span 136 (the side opposite to the pier 104 in the span 136) is also the superstructure member removing equipment 50 according to the second embodiment. It is assumed that equipment having the same configuration as the equipment for the pier 104 is provided.

(2−6)第2実施形態に係る上部工部材架け替え方法
本発明の第2実施形態に係る上部工部材架け替え設備は、第1実施形態に係る上部工部材架け替え設備12と同様の構成を、橋脚102、104において径間106とは橋軸方向反対側(径間126、136の橋脚102、104寄りの端部で橋脚102、104の近傍領域)にも設けた構成となっており、橋脚102と橋脚104との間の径間106内の既設上部工部材110の架け替えに用いることができるだけでなく、橋脚102、104において径間106とは橋軸方向反対側の径間126、136内の既設上部工部材120、130の架け替えにも用いることができるように構成されている。本発明の第2実施形態に係る上部工部材架け替え設備を用いて径間106内の既設上部工部材110を架け替える際の架け替え方法は、第1実施形態に係る上部工部材架け替え方法と同様であり、また、橋脚102、104において径間106とは橋軸方向反対側の径間126、136内の既設上部工部材120、130を架け替える際の架け替え方法は、径間106内の既設上部工部材110を架け替える際の架け替え方法と同様であるので、第1実施形態に係る上部工部材架け替え方法についての説明をもって、本発明の第2実施形態に係る上部工部材架け替え方法についての説明に代えることとする。
(2-6) Method for replacing superstructure members according to the second embodiment The superstructure member replacement equipment according to the second embodiment of the present invention is the same as the superstructure member replacement equipment 12 according to the first embodiment. The configuration is also provided on the piers 102 and 104 on the side opposite to the span 106 in the direction of the bridge axis (the end of the piers 126 and 136 near the piers 102 and 104 and the region near the piers 102 and 104). Not only can it be used to replace the existing superstructure member 110 in the span 106 between the pier 102 and the bridge pier 104, but also in the piers 102 and 104, the span on the opposite side of the span 106 from the bridge axis direction. It is configured so that it can also be used to replace the existing superstructure members 120 and 130 in 126 and 136. The replacement method when replacing the existing superstructure member 110 within the span 106 by using the superstructure member replacement equipment according to the second embodiment of the present invention is the superstructure member replacement method according to the first embodiment. In addition, the method of replacing the existing superstructure members 120 and 130 in the spans 126 and 136 on the opposite side of the span 106 from the span 106 in the piers 102 and 104 is the span 106. Since it is the same as the replacement method when replacing the existing superstructure member 110 in the above, the superstructure member according to the second embodiment of the present invention will be described with the description of the superstructure member replacement method according to the first embodiment. The explanation will be replaced with the explanation of the replacement method.

なお、前述したように、径間126の他端側(径間126において橋脚102とは反対の側)の橋脚にも、本第2実施形態に係る上部工部材架け替え設備の橋脚102についての設備と同様の構成の設備が設けられ、径間136の他端側(径間136において橋脚104とは反対の側)の橋脚にも、本第2実施形態に係る上部工部材架け替え設備の橋脚104についての設備と同様の構成の設備が設けられているものとする。 As described above, the pier 102 on the other end side of the span 126 (the side opposite to the pier 102 in the span 126) also has the pier 102 of the superstructure member replacement facility according to the second embodiment. Equipment having the same configuration as the equipment is provided, and the pier on the other end side of the span 136 (the side opposite to the pier 104 in the span 136) is also the superstructure member replacement equipment according to the second embodiment. It is assumed that equipment having the same configuration as the equipment for the pier 104 is provided.

(2−7)第2実施形態の効果
本第2実施形態に係る上部工部材撤去設備50および上部工部材架け替え設備ならびに上部工部材撤去方法および上部工部材架け替え方法によれば、橋脚102、104に上下方向に沿わせた上下方向レール22に沿って上下方向に昇降する昇降装置24を用いて既設上部工部材110の撤去および架け替えを行うことができるので、既設上部工部材110の高さ位置にまで届く重機を用いることを不要にすることができ、また、既設上部工部材110の高さ位置の近傍にまで到達するベントを構築することも不要にすることができる。
(2-7) Effect of the Second Embodiment According to the superstructure member removal equipment 50 and the superstructure member replacement equipment and the superstructure member removal method and the superstructure member replacement method according to the second embodiment, the pier 102 , 104, the existing superstructure member 110 can be removed and replaced by using the elevating device 24 that moves up and down along the vertical rail 22 along the vertical direction of the existing superstructure member 110. It is possible to eliminate the need to use a heavy machine that reaches the height position, and it is also possible to eliminate the need to construct a vent that reaches the vicinity of the height position of the existing superstructure member 110.

このため、地上高が高い高架橋の既設上部工部材の撤去および架け替えを行う場合であっても、重機の小型化、ベント設備の簡素化、上部工部材の撤去・架設作業の効率化を図ることができる。 For this reason, even when removing or replacing the existing superstructure members of the viaduct with a high ground clearance, the weight of heavy machinery will be reduced, the venting equipment will be simplified, and the efficiency of the removal and erection work of the superstructure members will be improved. be able to.

また、本第2実施形態に係る上部工部材撤去設備50および上部工部材架け替え設備ならびに上部工部材撤去方法および上部工部材架け替え方法によれば、橋脚102と橋脚104との間の径間106内の既設上部工部材110の撤去および架け替えに用いることができるだけでなく、橋脚102、104において径間106とは橋軸方向反対側の径間126、136内の既設上部工部材120、130の撤去および架け替えにも用いることができる。 Further, according to the superstructure member removal facility 50 and the superstructure member replacement facility, the superstructure member removal method, and the superstructure member replacement method according to the second embodiment, the span between the pier 102 and the bridge pier 104 Not only can it be used for removing and replacing the existing superstructure member 110 in 106, but also in the bridge piers 102 and 104, the existing superstructure member 120 in the spans 126 and 136 on the opposite side of the span 106 from the span 106, It can also be used for removal and replacement of 130.

(3)第3実施形態
(3−1)第3実施形態に係る上部工部材撤去設備の構成
図58は、本発明の第3実施形態に係る上部工部材撤去設備70を用いて、橋梁100の隣接する橋脚102、104の間の径間106内の既設上部工部材110を撤去している状況を示す正面図(橋梁100の橋軸直角方向から見た正面図で、図60のLVIII線矢視図)であり、撤去する既設上部工部材110を下降させる前の状態を示す正面図である。撤去する既設上部工部材110は、切断面110A、110Bで切断されて橋梁100から切り離されている。
(3) Third Embodiment (3-1) Configuration of Superstructure Member Removal Equipment According to Third Embodiment FIG. 58 shows a bridge 100 using the superstructure member removal equipment 70 according to the third embodiment of the present invention. Front view showing the situation where the existing superstructure member 110 in the span 106 between the adjacent piers 102 and 104 is removed (a front view of the bridge 100 viewed from the direction perpendicular to the bridge axis, line LVIII of FIG. 60). It is a front view which shows the state before lowering the existing superstructure member 110 to be removed. The existing superstructure member 110 to be removed is cut at the cut surfaces 110A and 110B and separated from the bridge 100.

図59は、本発明の第3実施形態に係る上部工部材撤去設備70を用いて、橋梁100の隣接する橋脚102、104の間の径間106内の既設上部工部材110を撤去している状況を示す断面図(橋梁100の橋軸方向と平行な鉛直面で、橋梁100の橋軸直直角方向の中央部付近を切断した断面図)であり、撤去する既設上部工部材110を下降させる前の状態を示す断面図(図60のLIX−LIX線断面図)である。 In FIG. 59, the existing superstructure member 110 in the span 106 between the adjacent piers 102 and 104 of the bridge 100 is removed by using the superstructure member removal facility 70 according to the third embodiment of the present invention. It is a cross-sectional view showing the situation (a cross-sectional view in which the vicinity of the central portion of the bridge 100 in the direction perpendicular to the bridge axis is cut at a vertical plane parallel to the bridge axis direction of the bridge 100), and the existing superstructure member 110 to be removed is lowered. It is sectional drawing (LIX-LIX line sectional drawing of FIG. 60) which shows the previous state.

図60は、本発明の第3実施形態に係る上部工部材撤去設備70を用いて、橋梁100の隣接する橋脚102、104の間の径間106内の既設上部工部材110を撤去している状況を示す断面図(橋梁100の橋軸直角方向と平行な鉛直面で、橋梁100を切断した断面図)であり、撤去する既設上部工部材110を下降させる前の状態を示す断面図(図58および図59のLX−LX線断面図)である。 In FIG. 60, the existing superstructure member 110 in the span 106 between the adjacent piers 102 and 104 of the bridge 100 is removed by using the superstructure member removal equipment 70 according to the third embodiment of the present invention. It is a cross-sectional view (a cross-sectional view of the bridge 100 cut at a vertical plane parallel to the direction perpendicular to the bridge axis of the bridge 100) showing the situation, and is a cross-sectional view (FIG.) showing the state before lowering the existing superstructure member 110 to be removed. 58 and LX-LX sectional view of FIG. 59).

図61は、本発明の第3実施形態に係る上部工部材撤去設備70を用いて、橋梁100の隣接する橋脚102、104の間の径間106内の既設上部工部材110を撤去している状況を示す断面図(橋梁100の橋軸直角方向と平行な鉛直面で、橋梁100を切断した断面図)であり、撤去する既設上部工部材110を下降させる前の状態を示す断面図(図58および図59のLXI−LXI線断面図)である。図58および図59に図61の断面図の切断位置を示すように、図61は、上下方向レール22のウェブの中央部付近を通る、橋梁100の橋軸直角方向と平行な鉛直面で切断して得られた断面を示す断面図である。 In FIG. 61, the existing superstructure member 110 in the span 106 between the adjacent piers 102 and 104 of the bridge 100 is removed by using the superstructure member removal facility 70 according to the third embodiment of the present invention. It is a cross-sectional view (a cross-sectional view of the bridge 100 cut at a vertical plane parallel to the direction perpendicular to the bridge axis of the bridge 100) showing the situation, and is a cross-sectional view (FIG.) showing the state before lowering the existing superstructure member 110 to be removed. 58 and LXI-LXI line sectional view of FIG. 59). As shown in FIGS. 58 and 59, the cutting position of the cross-sectional view of FIG. 61 is shown in FIG. 61, which is cut in a vertical plane parallel to the bridge axis perpendicular direction of the bridge 100, passing near the center of the web of the vertical rail 22. It is sectional drawing which shows the cross section obtained by this.

図62は、図61の下部を拡大して示す断面図であり、であり、図63は、図62のLXIII部拡大図である。図64は、図62のLXIV−LXIV線断面図であり、図65は、図64のLXV部拡大図である。 62 is an enlarged cross-sectional view showing the lower part of FIG. 61, and FIG. 63 is an enlarged view of the LXIII portion of FIG. 62. FIG. 64 is a sectional view taken along line LXIV-LXIV of FIG. 62, and FIG. 65 is an enlarged view of the LXV portion of FIG.

図66は、本発明の第3実施形態に係る上部工部材撤去設備70の下部を橋梁100の橋軸直角方向から見た正面図(図62のLXVI−LXVI線矢視図)である。 FIG. 66 is a front view of the lower portion of the superstructure member removing facility 70 according to the third embodiment of the present invention as viewed from the direction perpendicular to the bridge axis of the bridge 100 (LXVI-LXVI line arrow view of FIG. 62).

本発明の第3実施形態に係る上部工部材撤去設備70は、第2実施形態に係る上部工部材撤去設備50の反力受け基礎部60を、敷き鋼板82を用いた反力受け基礎部80に変更した実施形態であり、反力受け基礎部80に敷き鋼板82を用いたこと、およびそれに対応するための構成以外は、本第3実施形態に係る上部工部材撤去設備70の構成は、第2実施形態に係る上部工部材撤去設備50の構成と同様であるので、本発明の第3実施形態に係る上部工部材撤去設備70において、第2実施形態に係る上部工部材撤去設備50の部材および装置に対応する部材および装置には、原則として同一の符号および名称を用い、説明は原則として省略する。 In the superstructure member removing facility 70 according to the third embodiment of the present invention, the reaction force receiving base portion 60 of the superstructure member removing facility 50 according to the second embodiment is replaced with the reaction force receiving base portion 80 using the laid steel plate 82. The configuration of the superstructure member removal facility 70 according to the third embodiment is different from the embodiment in which the steel plate 82 is used for the reaction force receiving base portion 80 and the configuration for corresponding to the steel plate 82. Since the configuration is the same as that of the superstructure member removal facility 50 according to the second embodiment, in the superstructure member removal facility 70 according to the third embodiment of the present invention, the superstructure member removal facility 50 according to the second embodiment As a general rule, the same reference numerals and names are used for the members and devices corresponding to the members and devices, and the description is omitted in principle.

本発明の第3実施形態に係る上部工部材撤去設備70は、橋脚102に近接した左側設備70Aと、橋脚104に近接した右側設備70Bと、2つの架台10C、10Dと、からなる。上部工部材撤去設備70の左側設備70Aと右側設備70Bとは、撤去する既設上部工部材110の長さとほぼ同じ長さだけ橋軸方向に隔てられて対向して配置されている。架台10C、10Dは、橋軸直角方向から見て、撤去する既設上部工部材110をおおよそ3等分するような位置で、かつ、撤去する既設上部工部材110の下方に配置されている。 The superstructure member removing facility 70 according to the third embodiment of the present invention includes a left side facility 70A close to the pier 102, a right side facility 70B close to the pier 104, and two pedestals 10C and 10D. The left side equipment 70A and the right side equipment 70B of the superstructure member removing facility 70 are arranged so as to face each other with a length substantially the same as the length of the existing superstructure member 110 to be removed in the bridge axial direction. The gantry 10C and 10D are arranged at a position that roughly divides the existing superstructure member 110 to be removed into three equal parts when viewed from the direction perpendicular to the bridge axis, and below the existing superstructure member 110 to be removed.

上部工部材撤去設備70の左側設備70Aと右側設備70Bは同じ構成であり、どちらも、本体部72と、反力受け基礎部80と、を有してなり、本体部72の下方に反力受け基礎部80が配置されている。本体部72は撤去する既設上部工部材110の端部を直接的に支持しつつ、安全に下降させる機能を有する部位であり、本第3実施形態に係る上部工部材撤去設備70の本体部72は、第2実施形態に係る上部工部材撤去設備50の本体部52と同様の構成である。反力受け基礎部80は、本体部72が支持する既設上部工部材110の荷重の少なくとも一部を、橋脚102、104を経由させずに安全に地盤500に伝達する機能を有する部位である。本第3実施形態に係る上部工部材撤去設備70は、反力受け基礎部80を備えることにより、撤去する既設上部工部材110を支持しつつ下降させる際に本体部72が受ける荷重の少なくとも一部を、橋脚102、104を経由させずに地盤500に伝達することができるので、既設上部工部材110を支持しつつ下降させる際にも、橋脚102、104に伝達される荷重を、橋脚102、104の安全性を確保できる範囲内にすることができる。 The left side equipment 70A and the right side equipment 70B of the superstructure member removal equipment 70 have the same configuration, and both have a main body portion 72 and a reaction force receiving base portion 80, and a reaction force is applied below the main body portion 72. The receiving base portion 80 is arranged. The main body 72 is a portion having a function of safely lowering while directly supporting the end of the existing superstructure member 110 to be removed, and the main body 72 of the superstructure member removal facility 70 according to the third embodiment. Has the same configuration as the main body 52 of the superstructure member removing facility 50 according to the second embodiment. The reaction force receiving foundation portion 80 is a portion having a function of safely transmitting at least a part of the load of the existing superstructure member 110 supported by the main body portion 72 to the ground 500 without passing through the piers 102 and 104. The superstructure member removing facility 70 according to the third embodiment includes the reaction force receiving base portion 80, so that at least one of the loads received by the main body portion 72 when the existing superstructure member 110 to be removed is supported and lowered. Since the portion can be transmitted to the ground 500 without passing through the piers 102 and 104, the load transmitted to the piers 102 and 104 can be transferred to the piers 102 even when the existing superstructure member 110 is supported and lowered. , 104 can be within the range in which the safety can be ensured.

本発明の第3実施形態に係る上部工部材撤去設備70は、前述したように、反力受け基礎部80に敷き鋼板82を用いたことが、第2実施形態に係る上部工部材撤去設備50と相違する点であり、反力受け基礎部80に敷き鋼板82を用いたことおよびそれに対応するための構成以外は、本第3実施形態に係る上部工部材撤去設備70の構成は、第2実施形態に係る上部工部材撤去設備50の構成と同様であるので、以下、反力受け基礎部80の構成について説明する。 As described above, in the superstructure member removing equipment 70 according to the third embodiment of the present invention, the use of the laid steel plate 82 on the reaction force receiving base portion 80 is the fact that the superstructure member removing equipment 50 according to the second embodiment is used. The configuration of the superstructure member removal facility 70 according to the third embodiment is the second, except that the steel plate 82 is used for the reaction force receiving base portion 80 and the configuration corresponding to the steel plate 82 is used. Since the configuration is the same as that of the superstructure member removing facility 50 according to the embodiment, the configuration of the reaction force receiving foundation portion 80 will be described below.

反力受け基礎部80は、敷き鋼板82と、サンドル84と、受け梁86と、を有してなる。 The reaction force receiving base portion 80 includes a laid steel plate 82, a sandle 84, and a receiving beam 86.

敷き鋼板82は、本体部72(レール保持用上下方向部材28)下方に配置されて、地盤500上に敷かれる鋼板であり、厚さ22〜25mm程度の鋼板である。上部工部材撤去設備70の本体部72が受ける鉛直方向下向きの荷重の大部分は、敷き鋼板82から地盤500へと伝達される。敷き鋼板82の上にはサンドル84が適宜の間隔で配置され、サンドル84の上には受け梁86が配置されていて、受け梁86は、上部工部材撤去設備70の本体部72のレール保持用上下方向部材28の下端面に連結されている。 The laid steel plate 82 is a steel plate that is arranged below the main body 72 (vertical member 28 for holding the rail) and laid on the ground 500, and is a steel plate having a thickness of about 22 to 25 mm. Most of the vertical downward load received by the main body 72 of the superstructure member removing facility 70 is transmitted from the paving steel plate 82 to the ground 500. Sands 84 are arranged on the laid steel plate 82 at appropriate intervals, and a receiving beam 86 is arranged on the sanding 84, and the receiving beam 86 holds the rail of the main body 72 of the superstructure member removing facility 70. It is connected to the lower end surface of the vertical member 28.

サンドル84は、敷き鋼板82の上に配置される部材であり、受け梁86と敷き鋼板82との間の空間を埋める部材であり、上部工部材撤去設備70の本体部72から受け梁86が受けた荷重を、敷き鋼板82に伝達する役割を有する。本体部72から受け梁86が受けることが想定される荷重に応じて、配置するサンドルの形状および配置間隔を決定する。本第3実施形態では、サンドル84として、H鋼を井桁状に組んで重ねたものを用いているが、サンドル84として用いることができる部材はこれに限定されるわけではなく、必要な性能を有していれば材質や形状は特には限定されない。 The sandle 84 is a member arranged on the paving steel plate 82, and is a member that fills the space between the receiving beam 86 and the paving steel plate 82, and the receiving beam 86 is removed from the main body 72 of the superstructure member removing facility 70. It has a role of transmitting the received load to the laid steel plate 82. The shape of the sandals to be arranged and the arrangement interval are determined according to the load expected to be received from the main body 72 to the receiving beam 86. In the third embodiment, as the sandal 84, H steel is assembled and stacked in a grid shape, but the members that can be used as the sandal 84 are not limited to this, and the required performance is obtained. If it has, the material and shape are not particularly limited.

受け梁86は、反力受け基礎部80の最上部に配置される部材で、レール保持用上下方向部材28の下方に配置されており、レール保持用上下方向部材28の下端面に連結されている。上部工部材撤去設備70の本体部72が受ける鉛直方向下向きの荷重の大部分は、本体部72のレール保持用上下方向部材28から受け梁86へと伝達される。 The receiving beam 86 is a member arranged at the uppermost portion of the reaction force receiving base portion 80, is arranged below the rail holding vertical direction member 28, and is connected to the lower end surface of the rail holding vertical direction member 28. There is. Most of the vertical downward load received by the main body 72 of the superstructure member removing facility 70 is transmitted from the rail holding vertical member 28 of the main body 72 to the receiving beam 86.

受け梁86は、本発明の第3実施形態に係る上部工部材撤去設備70の本体部72が受ける鉛直方向下向きの荷重の大部分を直接的に受け止める部材であり、受け止めた荷重を、サンドル84を介して敷き鋼板82に伝達して地盤500に伝達する。受け梁86の長さは、橋軸直角方向連結部材30と同等程度の長さである。 The receiving beam 86 is a member that directly receives most of the vertically downward load received by the main body 72 of the superstructure member removing facility 70 according to the third embodiment of the present invention, and receives the received load by the sandle 84. It is transmitted to the laid steel plate 82 and transmitted to the ground 500 via the above. The length of the receiving beam 86 is about the same as that of the bridge axis perpendicular direction connecting member 30.

本第3実施形態では、受け梁86として、長さ方向に適宜の間隔で補強用のプレートが溶接されたH鋼を用いており、受け梁86は、サンドル84とレール保持用上下方向部材28との間に配置されており、ボルト接合により、サンドル84およびレール保持用上下方向部材28と連結されている。 In the third embodiment, as the receiving beam 86, H steel in which reinforcing plates are welded at appropriate intervals in the length direction is used, and the receiving beam 86 is a sandle 84 and a vertical member 28 for holding a rail. It is arranged between the two, and is connected to the sandle 84 and the vertical member 28 for holding the rail by bolting.

本第3実施形態の反力受け基礎部80は、第1および第2実施形態の反力受け基礎部40および60と比べて簡易な構成であり、コスト的には安価である。ただし、本第3実施形態の反力受け基礎部80は、第1および第2実施形態の反力受け基礎部40および60と比べて荷重負担能力が劣る可能性があるので、この点には留意する。 The reaction force receiving base portion 80 of the third embodiment has a simpler configuration than the reaction force receiving base portions 40 and 60 of the first and second embodiments, and is inexpensive in terms of cost. However, the reaction force receiving base portion 80 of the third embodiment may be inferior in load bearing capacity to the reaction force receiving foundation portions 40 and 60 of the first and second embodiments. pay attention to.

(3−2)第3実施形態に係る上部工部材架け替え設備の構成
本発明の第3実施形態に係る上部工部材撤去設備70は、撤去する既設上部工部材110を支持しつつ下降させることができる能力を備えているが、本発明の第3実施形態に係る上部工部材架け替え設備(図示せず)は、それに加えて、架設する新設橋桁を支持しつつ上昇させることができる能力を備えている。この能力の違いが、本発明の第3実施形態に係る上部工部材撤去設備70と本発明の第3実施形態に係る上部工部材架け替え設備との相違点である。
(3-2) Configuration of Superstructure Member Replacement Equipment According to Third Embodiment The superstructure member removal equipment 70 according to the third embodiment of the present invention shall be lowered while supporting the existing superstructure member 110 to be removed. However, the superstructure member replacement equipment (not shown) according to the third embodiment of the present invention, in addition, has the ability to raise the new bridge girder while supporting it. I have. This difference in capability is the difference between the superstructure member removal equipment 70 according to the third embodiment of the present invention and the superstructure member replacement equipment according to the third embodiment of the present invention.

前記能力の違いは、昇降装置24の出力および数、ならびに上下方向レール22およびレール保持用上下方向部材28の断面性能および数を調整することによって対応することができる。 The difference in capacity can be dealt with by adjusting the output and number of the elevating device 24, and the cross-sectional performance and number of the vertical rail 22 and the vertical member 28 for holding the rail.

したがって、本発明の第3実施形態に係る上部工部材架け替え設備の基本的な構成は、本発明の第3実施形態に係る上部工部材撤去設備70の構成と同様であるので、本発明の第3実施形態に係る上部工部材撤去設備70の構成についての説明をもって、本発明の第3実施形態に係る上部工部材架け替え設備の構成についての説明に代えることとする。 Therefore, the basic configuration of the superstructure member replacement equipment according to the third embodiment of the present invention is the same as the configuration of the superstructure member removal equipment 70 according to the third embodiment of the present invention. The description of the configuration of the superstructure member removal facility 70 according to the third embodiment will be replaced with the description of the configuration of the superstructure member replacement facility according to the third embodiment of the present invention.

(3−3)第3実施形態に係る上部工部材撤去設備の構築方法
前述したように、本発明の第3実施形態に係る上部工部材撤去設備70は、第2実施形態に係る上部工部材撤去設備50の反力受け基礎部60を、敷き鋼板82を用いた反力受け基礎部80に変更した実施形態であり、反力受け基礎部80に敷き鋼板82を用いたこと、およびそれに対応するための構成以外は、本第3実施形態に係る上部工部材撤去設備70の構成は、第2実施形態に係る上部工部材撤去設備50の構成と同様であるので、本第3実施形態に係る上部工部材撤去設備70の構築方法の説明では、反力受け基礎部80の構築方法を中心に説明する。本第3実施形態に係る上部工部材撤去設備70の本体部72の構築方法の説明は、第1実施形態に係る上部工部材撤去設備10の本体部20の構築方法についての説明および第2実施形態に係る上部工部材撤去設備50の本体部52の構築方法についての説明をもって、代えることとする。
(3-3) Method for constructing superstructure member removal equipment according to the third embodiment As described above, the superstructure member removal equipment 70 according to the third embodiment of the present invention is the superstructure member removal equipment according to the second embodiment. In this embodiment, the reaction force receiving base portion 60 of the removal facility 50 is changed to the reaction force receiving base portion 80 using the laid steel plate 82, and the laid steel plate 82 is used for the reaction force receiving base portion 80, and the corresponding steel plate 82 is used. The configuration of the superstructure member removing facility 70 according to the third embodiment is the same as the configuration of the superstructure member removal facility 50 according to the second embodiment, except for the configuration for the above. In the description of the method of constructing the superstructure member removing facility 70, the method of constructing the reaction force receiving foundation portion 80 will be mainly described. The description of the method of constructing the main body 72 of the superstructure member removing facility 70 according to the third embodiment describes the method of constructing the main body 20 of the superstructure member removal facility 10 according to the first embodiment and the second embodiment. It will be replaced with the explanation of the method of constructing the main body 52 of the superstructure member removing facility 50 according to the embodiment.

以下、本第3実施形態に係る上部工部材撤去設備70の構築方法について、反力受け基礎部80の構築方法を中心に、ステップに分けて説明する。 Hereinafter, the method of constructing the superstructure member removing facility 70 according to the third embodiment will be described in steps, focusing on the method of constructing the reaction force receiving foundation portion 80.

<ステップS31>
本第3実施形態に係る上部工部材撤去設備70の本体部72を構築する際には、撤去する既設上部工部材110の橋軸方向の両端部の位置に対応する地盤500の位置(撤去する既設上部工部材110の橋軸方向の両端部の鉛直方向下方の地盤500の位置)を中心にして、敷き鋼板82を地盤500上に敷く。敷き鋼板82に配置するサンドル84が、敷き鋼板82の外側にはみ出すことのないように、敷き鋼板82は十分に余裕を持った範囲に敷く。
<Step S31>
When constructing the main body 72 of the superstructure member removing facility 70 according to the third embodiment, the position of the ground 500 corresponding to the positions of both ends of the existing superstructure member 110 to be removed in the bridge axis direction (removed). The laid steel plate 82 is laid on the ground 500 centering on the position of the ground 500 vertically below both ends of the existing superstructure member 110 in the bridge axis direction). The laid steel plate 82 is laid in a range with sufficient margin so that the sanddle 84 arranged on the laid steel plate 82 does not protrude to the outside of the laid steel plate 82.

<ステップS32>
レール保持用上下方向部材28の鉛直方向下方の敷き鋼板82の上にサンドル84を設置する。サンドル84は、調整プレート等により適切な高さを調整する。
<Step S32>
The sandle 84 is installed on the laid steel plate 82 vertically below the rail holding vertical member 28. The height of the sandle 84 is adjusted appropriately by an adjustment plate or the like.

<ステップS33>
敷き鋼板82の上に設置したサンドル84の上に受け梁86を配置して、受け梁86をサンドル84にボルトで連結する。
<Step S33>
The receiving beam 86 is arranged on the sandal 84 installed on the laid steel plate 82, and the receiving beam 86 is connected to the sandal 84 with bolts.

<ステップS34>
一体化した上下方向レール22とレール保持用上下方向部材28とを、クレーンで吊り上げて、受け梁86の上面にレール保持用上下方向部材28の下端面が配置されるように配置して、レール保持用上下方向部材28を受け梁86にボルトで連結するとともに、レール保持用上下方向部材28を橋軸直角方向連結部材30にボルトで連結して、1段目の上下方向レール22とレール保持用上下方向部材28を設置する。
<Step S34>
The integrated vertical rail 22 and the rail holding vertical member 28 are lifted by a crane and arranged so that the lower end surface of the rail holding vertical member 28 is arranged on the upper surface of the receiving beam 86. The holding vertical member 28 is connected to the beam 86 with a bolt, and the rail holding vertical member 28 is connected to the bridge axis perpendicular connecting member 30 with a bolt to hold the first-stage vertical rail 22 and the rail. Vertical member 28 for use is installed.

以降のステップは、「(1−3)第1実施形態に係る上部工部材撤去設備の構築方法」に記載したステップS12〜S15と同様である。 Subsequent steps are the same as steps S12 to S15 described in "(1-3) Method for constructing superstructure member removing equipment according to the first embodiment".

なお、橋脚102、104において径間106とは橋軸方向反対側(径間126、136の橋脚102、104寄りの端部で橋脚102、104の近傍領域)に設ける構成も同様に構築することができる。 It should be noted that the piers 102 and 104 are similarly constructed so as to be provided on the side opposite to the span 106 in the direction of the bridge axis (the end of the piers 126 and 136 near the piers 102 and 104 and the vicinity of the piers 102 and 104). Can be done.

(3−4)第3実施形態に係る上部工部材架け替え設備の構築方法
「(3−2)第3実施形態に係る上部工部材架け替え設備の構成」で前述したように、本発明の第3実施形態に係る上部工部材架け替え設備の基本的な構成は、本発明の第3実施形態に係る上部工部材撤去設備70の構成と同様であるので、「(3−3)第3実施形態に係る上部工部材撤去設備の構築方法」で記載した本発明の第3実施形態に係る上部工部材撤去設備70の構築方法についての説明をもって、本発明の第3実施形態に係る上部工部材架け替え設備の構築方法についての説明に代えることとする。
(3-4) Method for constructing superstructure member replacement equipment according to the third embodiment As described above in "(3-2) Configuration of superstructure member replacement equipment according to the third embodiment", the present invention. Since the basic configuration of the superstructure member replacement facility according to the third embodiment is the same as the configuration of the superstructure member removal facility 70 according to the third embodiment of the present invention, "(3-3) Third. The superstructure according to the third embodiment of the present invention is described with the description of the method for constructing the superstructure member removal equipment 70 according to the third embodiment of the present invention described in "Method for constructing the superstructure member removal equipment according to the embodiment". It will be replaced with the explanation of the construction method of the member replacement equipment.

(3−5)第3実施形態に係る上部工部材撤去方法
前述したように、本発明の第3実施形態に係る上部工部材撤去設備70は、第2実施形態に係る上部工部材撤去設備50の反力受け基礎部60を、敷き鋼板82を用いた反力受け基礎部80に変更した実施形態であり、反力受け基礎部80に敷き鋼板82を用いたこと、およびそれに対応するための構成以外については、本第3実施形態に係る上部工部材撤去設備70の構成は、第2実施形態に係る上部工部材撤去設備50の構成と同様であるので、本第3実施形態に係る上部工部材撤去方法は、第2実施形態に係る上部工部材撤去方法と同様である。したがって、第2実施形態に係る上部工部材撤去方法についての説明をもって、本発明の第3実施形態に係る上部工部材撤去方法についての説明に代えることとする。
(3-5) Method for removing superstructure member according to the third embodiment As described above, the superstructure member removal facility 70 according to the third embodiment of the present invention is the superstructure member removal facility 50 according to the second embodiment. In the embodiment in which the reaction force receiving base portion 60 of the above is changed to the reaction force receiving base portion 80 using the laid steel plate 82, the laid steel plate 82 is used for the reaction force receiving base portion 80, and the corresponding steel plate 82 is used. Except for the configuration, the configuration of the superstructure member removing facility 70 according to the third embodiment is the same as the configuration of the superstructure member removal facility 50 according to the second embodiment. Therefore, the upper part according to the third embodiment. The method for removing the work member is the same as the method for removing the superstructure member according to the second embodiment. Therefore, the description of the superstructure member removing method according to the second embodiment will be replaced with the description of the superstructure member removal method according to the third embodiment of the present invention.

(3−6)第3実施形態に係る上部工部材架け替え方法
前述したように、本発明の第3実施形態に係る上部工部材架け替え設備は、第2実施形態に係る上部工部材架け替え設備の反力受け基礎部60を、敷き鋼板82を用いた反力受け基礎部80に変更した実施形態であり、反力受け基礎部80に敷き鋼板82を用いたこと、およびそれに対応するための構成以外については、本第3実施形態に係る上部工部材架け替え設備の構成は、第2実施形態に係る上部工部材架け替え設備の構成と同様であるので、本第3実施形態に係る上部工部材架け替え方法は、第2実施形態に係る上部工部材架け替え方法と同様である。したがって、第2実施形態に係る上部工部材架け替え方法についての説明をもって、本発明の第3実施形態に係る上部工部材架け替え方法についての説明に代えることとする。
(3-6) Method for Replacing Superstructure Member According to Third Embodiment As described above, the superstructure member replacement facility according to the third embodiment of the present invention replaces the superstructure member according to the second embodiment. In this embodiment, the reaction force receiving base portion 60 of the equipment is changed to the reaction force receiving base portion 80 using the laid steel plate 82, and the laid steel plate 82 is used for the reaction force receiving base portion 80, and in order to cope with it. Except for the configuration of the above, the configuration of the superstructure member replacement equipment according to the third embodiment is the same as the configuration of the superstructure member replacement equipment according to the second embodiment. The superstructure member replacement method is the same as the superstructure member replacement method according to the second embodiment. Therefore, the description of the superstructure member replacement method according to the second embodiment will be replaced with the description of the superstructure member replacement method according to the third embodiment of the present invention.

(3−7)第3実施形態の効果
本第3実施形態に係る上部工部材撤去設備70および上部工部材架け替え設備ならびに上部工部材撤去方法および上部工部材架け替え方法によれば、橋脚102、104に上下方向に沿わせた上下方向レール22に沿って上下方向に昇降する昇降装置24を用いて既設上部工部材110の撤去および架け替えを行うことができるので、既設上部工部材110の高さ位置にまで届く重機を用いることを不要にすることができ、また、既設上部工部材110の高さ位置の近傍にまで到達するベントを構築することも不要にすることができる。
(3-7) Effect of Third Embodiment According to the superstructure member removal equipment 70, the superstructure member replacement equipment, the superstructure member removal method, and the superstructure member replacement method according to the third embodiment, the pier 102 , 104, the existing superstructure member 110 can be removed and replaced by using the elevating device 24 that moves up and down along the vertical rail 22 along the vertical direction of the existing superstructure member 110. It is possible to eliminate the need to use a heavy machine that reaches the height position, and it is also possible to eliminate the need to construct a vent that reaches the vicinity of the height position of the existing superstructure member 110.

このため、地上高が高い高架橋の既設上部工部材の撤去および架け替えを行う場合であっても、重機の小型化、ベント設備の簡素化、上部工部材の撤去・架設作業の効率化を図ることができる。 For this reason, even when removing or replacing the existing superstructure members of the viaduct with a high ground clearance, the weight of heavy machinery will be reduced, the venting equipment will be simplified, and the efficiency of the removal and erection work of the superstructure members will be improved. be able to.

また、本第3実施形態に係る上部工部材撤去設備70および上部工部材架け替え設備ならびに上部工部材撤去方法および上部工部材架け替え方法によれば、橋脚102と橋脚104との間の径間106内の既設上部工部材110の撤去および架け替えに用いることができるだけでなく、橋脚102、104において径間106とは橋軸方向反対側の径間126、136内の既設上部工部材120、130の撤去および架け替えにも用いることができる。 Further, according to the superstructure member removal facility 70 and the superstructure member replacement facility, the superstructure member removal method, and the superstructure member replacement method according to the third embodiment, the span between the pier 102 and the bridge pier 104 Not only can it be used for removing and replacing the existing superstructure member 110 in 106, but also in the bridge piers 102 and 104, the existing superstructure member 120 in the span 126 and 136 on the side opposite to the span 106 in the bridge axial direction, It can also be used for removal and replacement of 130.

また、本第3実施形態の反力受け基礎部80は、第1および第2実施形態の反力受け基礎部40および60と比べて簡易な構成であり、コスト的には安価である。ただし、本第3実施形態の反力受け基礎部80は、第1実施形態の反力受け基礎部40および第2実施形態の反力受け基礎部60と比べて荷重負担能力が劣る可能性があるので、この点には留意する。 Further, the reaction force receiving base portion 80 of the third embodiment has a simpler configuration than the reaction force receiving base portions 40 and 60 of the first and second embodiments, and is inexpensive in terms of cost. However, the reaction force receiving base portion 80 of the third embodiment may be inferior in load bearing capacity to the reaction force receiving base portion 40 of the first embodiment and the reaction force receiving base portion 60 of the second embodiment. There is, so keep this in mind.

(4)橋脚上に残置した既設上部工部材112、114の撤去方法の変形例
第1〜第3実施形態の上部工部材撤去方法において、橋脚102、104上に残置した既設上部工部材112、114を撤去する際に、地盤500上または橋梁100上に配置したクレーン(図示せず)で吊り上げて搬出、撤去するようにしたが、障害物や干渉物等があるために、クレーンが使えない場合も想定される。
(4) Deformation Example of Removal Method of Existing Superstructure Members 112, 114 Left on Bridge Piers In the superstructure member removal method of the first to third embodiments, the existing superstructure members 112, left on the bridge piers 102, 104, When removing 114, I tried to lift it up with a crane (not shown) placed on the ground 500 or bridge 100, carry it out, and remove it, but the crane cannot be used due to obstacles and interference. The case is also assumed.

このような場合には、橋脚102、104上に残置した既設上部工部材112、114を、撤去する既設上部工部材110上に引き込んで、仮置きして固定し、既設上部工部材110の下降とともに、既設上部工部材112、114も下降させて、既設上部工部材110の撤去に合わせて、既設上部工部材112、114を撤去してもよい。 In such a case, the existing superstructure members 112 and 114 left on the piers 102 and 104 are pulled onto the existing superstructure member 110 to be removed, temporarily placed and fixed, and the existing superstructure member 110 is lowered. At the same time, the existing superstructure members 112 and 114 may also be lowered to remove the existing superstructure members 112 and 114 in accordance with the removal of the existing superstructure member 110.

具体的には、以下のステップS201〜S208のように行うことができる。なお、以下のステップS201〜S208の説明では、図67〜図73を参照するが、図67は、橋脚102、104上の所定の位置に軌条設備600を設けるとともに、既設上部工部材108上の所定の位置に軌条設備602を設けた状態を模式的に示す正面図(橋軸直角方向から見た図)であり、図68は、軌条設備600、602が連結できる位置まで、既設上部工部材110を下降させて、軌条設備600と軌条設備602とを連結して一体化させた後、軌条設備600上のチルタンク610に既設上部工部材112、114を搭載した状態を模式的に示す正面図(橋軸直角方向から見た図)であり、図69は図68のLXIX部拡大図であり、図70は、既設上部工部材112、114を、既設上部工部材110上の軌条設備602上に引き込んで固定した状態を模式的に示す正面図(橋軸直角方向から見た図)であり、図71は、既設上部工部材112、114を既設上部工部材110上に引き込んで固定した後に、既設上部工部材110を下降させて架台10C、10D上に載置した状態を模式的に示す正面図(橋軸直角方向から見た図)であり、図72は、撤去する既設上部工部材110を架台10C、10D上で切断した状態を模式的に示す正面図(橋軸直角方向から見た図)であり、図73は、架台10C、10D上で切断した既設上部工部材110(110X、110Y、110Z)および既設上部工部材112、114をクレーン200で吊り上げて撤去する直前の状態を模式的に示す正面図(橋軸直角方向から見た図)である。ただし、図面については、主要なステップにおける状態のみを模式的に示しており、1つの図面を複数のステップの説明に用いることがある。 Specifically, the following steps S201 to S208 can be performed. In the following description of steps S201 to S208, FIGS. 67 to 73 will be referred to. In FIG. 67, the rail equipment 600 is provided at a predetermined position on the bridge piers 102 and 104, and the rail equipment 600 is provided on the existing superstructure member 108. FIG. 68 is a front view (viewed from a direction perpendicular to the bridge axis) schematically showing a state in which the rail equipment 602 is provided at a predetermined position, and FIG. 68 shows existing superstructure members up to a position where the rail equipment 600 and 602 can be connected. A front view schematically showing a state in which the existing superstructure members 112 and 114 are mounted on the chill tank 610 on the rail equipment 600 after the rail equipment 600 and the rail equipment 602 are connected and integrated by lowering the 110. (View from the direction perpendicular to the bridge axis), FIG. 69 is an enlarged view of the LXIX portion of FIG. 68, and FIG. 70 shows the existing superstructure members 112 and 114 on the rail equipment 602 on the existing superstructure member 110. It is a front view (viewed from the direction perpendicular to the bridge axis) schematically showing the state of being pulled in and fixed to the bridge, and FIG. 71 shows the existing superstructure members 112 and 114 after being pulled in and fixed on the existing superstructure member 110. , FIG. 72 is a front view (viewed from a direction perpendicular to the bridge axis) schematically showing a state in which the existing superstructure member 110 is lowered and placed on the gantry 10C and 10D, and FIG. 72 shows the existing superstructure member to be removed. FIG. 73 is a front view (viewed from a direction perpendicular to the bridge axis) schematically showing a state in which 110 is cut on the pedestals 10C and 10D, and FIG. , 110Y, 110Z) and 112, 114 of the existing superstructure members 112, 114 are front views (viewed from a direction perpendicular to the bridge axis) schematically showing a state immediately before being lifted and removed by the crane 200. However, with respect to the drawings, only the states in the main steps are schematically shown, and one drawing may be used to explain a plurality of steps.

以下のステップS201〜S208の説明では、橋脚102、104上に残置した既設上部工部材112、114を撤去する際に、軌条設備600、602を用いる場合を、第1実施形態の上部工部材撤去方法の変形例として取り上げて、説明する。 In the following description of steps S201 to S208, when the rail facilities 600 and 602 are used when removing the existing superstructure members 112 and 114 left on the piers 102 and 104, the superstructure member removal of the first embodiment is performed. It will be explained by taking it as a modification of the method.

<ステップS201>
既設上部工部材108の両端部(既設上部工部材108の部位のうち、既設上部工部材112、114にそれぞれ対応する部位)の主桁下の位置に、橋脚102、104上に軌条設備600を橋軸方向に設けるとともに、既設上部工部材108の両端部以外の部位(既設上部工部材108の部位のうち、既設上部工部材110の両端部に対応する部位)上にも、軌条設備600に対応する位置に、軌条設備602を橋軸方向に設ける。上方から透視すると、軌条設備600と軌条設備602とは、一直線状になるような位置関係にある。第1〜第3実施形態の上部工部材撤去方法において、撤去対象の既設上部工部材の主桁は3本であるので、軌条設備600、602もそれぞれ3本設けることになる。軌条設備600、602の設置が終わった状態を図67に模式的に示す。
<Step S201>
Rail equipment 600 is installed on the bridge piers 102 and 104 at positions below the main girder of both ends of the existing superstructure member 108 (parts of the existing superstructure member 108 corresponding to the existing superstructure members 112 and 114, respectively). In addition to being provided in the direction of the bridge axis, the rail equipment 600 is also provided on parts other than both ends of the existing superstructure member 108 (parts of the existing superstructure member 108 that correspond to both ends of the existing superstructure member 110). Rail equipment 602 is installed at the corresponding position in the direction of the bridge axis. When viewed from above, the rail equipment 600 and the rail equipment 602 are in a linear relationship with each other. In the method for removing superstructure members according to the first to third embodiments, since the number of main girders of the existing superstructure members to be removed is three, three rail facilities 600 and 602 are also provided. FIG. 67 schematically shows a state in which the rail facilities 600 and 602 have been installed.

<ステップS202>
既設上部工部材108を切断面110A、110Bで切断して、既設上部工部材110、112、114に切り分ける。そして、軌条設備600と軌条設備602とを連結できる位置まで、既設上部工部材110を下降させる(図68および図69参照)。
<Step S202>
The existing superstructure member 108 is cut at the cut surfaces 110A and 110B and cut into the existing superstructure members 110, 112 and 114. Then, the existing superstructure member 110 is lowered to a position where the rail equipment 600 and the rail equipment 602 can be connected (see FIGS. 68 and 69).

<ステップS203>
軌条設備600と軌条設備602とをボルト(図示せず)で連結して一体化する(図68および図69参照)。
<Step S203>
The rail equipment 600 and the rail equipment 602 are connected and integrated with bolts (not shown) (see FIGS. 68 and 69).

<ステップS204>
橋脚102、104上に残置した既設上部工部材112、114をジャッキアップして、軌条設備600上に設置したチルタンク610に搭載する(図68および図69参照)。なお、コロ台車として所定の機能を有するものであれば、チルタンク610に替えて用いてもよい。
<Step S204>
The existing superstructure members 112 and 114 left on the piers 102 and 104 are jacked up and mounted on the chill tank 610 installed on the rail equipment 600 (see FIGS. 68 and 69). If the roller trolley has a predetermined function, it may be used instead of the chill tank 610.

<ステップS205>
チルタンク610に搭載した既設上部工部材112、114を、チルホール(図示せず)等の引き込み装置で既設上部工部材110上の軌条設備602上に引き込んで固定する(図70参照)。
<Step S205>
The existing superstructure members 112 and 114 mounted on the chill tank 610 are pulled into and fixed on the rail equipment 602 on the existing superstructure member 110 by a pull-in device such as a chill hole (not shown) (see FIG. 70).

<ステップS206>
ステップS203で一体化した軌条設備600と軌条設備602とを解体して切り離した後、既設上部工部材110を上部工部材撤去設備10で下降させて、架台10C、10Dに載置する(図71参照)。
<Step S206>
After the rail equipment 600 and the rail equipment 602 integrated in step S203 are disassembled and separated, the existing superstructure member 110 is lowered by the superstructure member removal equipment 10 and placed on the gantry 10C and 10D (FIG. 71). reference).

<ステップS207>
既設上部工部材110を架台10C、10D上で橋軸直角方向に切断して、長手方向におおよそ3等分して、既設上部工部材110X、110Y、110Zに切り分ける(図72参照)。
<Step S207>
The existing superstructure member 110 is cut on the gantry 10C and 10D in the direction perpendicular to the bridge axis, divided into approximately three equal parts in the longitudinal direction, and cut into the existing superstructure members 110X, 110Y, and 110Z (see FIG. 72).

<ステップS208>
架台10C、10D上で切断した既設上部工部材110(110X、110Y、110Z)および既設上部工部材112、114をクレーン200で吊り上げて搬出、撤去する(図73参照)。
<Step S208>
The existing superstructure members 110 (110X, 110Y, 110Z) cut on the gantry 10C and 10D and the existing superstructure members 112 and 114 are lifted by the crane 200 and carried out and removed (see FIG. 73).

(5)橋脚上に新設上部工部材162、164を設置する方法の変形例
第1〜第3実施形態の上部工部材架け替え方法において、橋脚102、104上に新設上部工部材162、164を設置する際、地盤500上または橋梁100上に配置したクレーン(図示せず)で吊り上げて設置するようにしたが、障害物や干渉物等があるために、クレーンが使えない場合も想定される。
(5) Modification Example of Method of Installing New Superstructure Members 162 and 164 on Bridge Piers In the method of replacing superstructure members of the first to third embodiments, new superstructure members 162 and 164 are placed on bridge piers 102 and 104. When installing, it was installed by lifting it with a crane (not shown) placed on the ground 500 or the bridge 100, but it is assumed that the crane cannot be used due to obstacles or interferences. ..

このような場合には、新たに架設する新設上部工部材160上に新設上部工部材162、164を仮置き固定して、新設上部工部材160とともに新設上部工部材162、164を所定の高さ位置まで上昇させた後、軌条設備600、602を用いて橋脚102、104上の所定位置まで新設上部工部材162、164を橋軸方向に移動させて設置するようにしてもよい。 In such a case, the new superstructure members 162 and 164 are temporarily placed and fixed on the newly erected new superstructure member 160, and the new superstructure members 162 and 164 are placed at a predetermined height together with the new superstructure member 160. After raising to the position, the new superstructure members 162 and 164 may be moved and installed in the bridge axis direction to the predetermined positions on the piers 102 and 104 by using the rail facilities 600 and 602.

具体的には、以下のステップS301〜S306のように行うことができる。なお、以下のステップS301〜S306の説明では、図74および図75を参照するが、図74は、橋脚102、104上の所定の位置に軌条設備600を設けるとともに、新設上部工部材160上の所定の位置に軌条設備602を設け、軌条設備602上のチルタンク610に新設上部工部材162、164を搭載して固定した状態を模式的に示す正面図(橋軸直角方向から見た図)であり、図75は、新設上部工部材160を所定の高さ位置まで上昇させた後、軌条設備600と軌条設備602とを連結した状態を模式的に示す正面図(橋軸直角方向から見た図)である。ただし、図面については、主要なステップにおける状態のみを模式的に示しており、1つの図面を複数のステップの説明に用いることがある。 Specifically, the following steps S301 to S306 can be performed. In the following description of steps S301 to S306, FIGS. 74 and 75 are referred to. In FIG. 74, the rail equipment 600 is provided at a predetermined position on the bridge piers 102 and 104, and the rail equipment 600 is provided on the newly installed superstructure member 160. A front view (viewed from a direction perpendicular to the bridge axis) schematically showing a state in which the rail equipment 602 is provided at a predetermined position and the newly installed superstructure members 162 and 164 are mounted and fixed on the chill tank 610 on the rail equipment 602. FIG. 75 is a front view schematically showing a state in which the rail equipment 600 and the rail equipment 602 are connected after the newly constructed superstructure member 160 is raised to a predetermined height position (viewed from a direction perpendicular to the bridge axis). Figure). However, with respect to the drawings, only the states in the main steps are schematically shown, and one drawing may be used to explain a plurality of steps.

以下のステップS301〜S306の説明では、橋脚102、104上に新たに新設上部工部材162、164を設置する際に、軌条設備600、602を用いる場合を、第1実施形態の上部工部材架け替え方法の変形例として取り上げて、説明する。 In the following description of steps S301 to S306, when the new superstructure members 162 and 164 are newly installed on the piers 102 and 104, the case where the rail facilities 600 and 602 are used is the case where the superstructure members of the first embodiment are hung. It will be described by taking up as a modified example of the replacement method.

<ステップS301>
新設上部工部材160X、160Y、160Zを上部工部材受け用橋軸直角方向部材26および架台10C、10D上に配置して、それら新設上部工部材160X、160Y、160Zを添接板160Aで連結して新設上部工部材160を組み立てた後、組み立てた新設上部工部材160上の所定の位置(新設上部工部材160の主桁位置と対応する位置)に軌条設備602を設ける(図74参照)。そして、新設上部工部材160上の軌条設備602の上にチルタンク610を設置し、チルタンク610に新設上部工部材162、164を搭載して固定する(図74参照)。
<Step S301>
The new superstructure members 160X, 160Y, 160Z are arranged on the bridge axis perpendicular direction member 26 for receiving the superstructure member and the gantry 10C, 10D, and the new superstructure members 160X, 160Y, 160Z are connected by the splicing plate 160A. After assembling the new superstructure member 160, the rail equipment 602 is provided at a predetermined position (position corresponding to the main girder position of the new superstructure member 160) on the assembled new superstructure member 160 (see FIG. 74). Then, the chill tank 610 is installed on the rail equipment 602 on the new superstructure member 160, and the new superstructure members 162 and 164 are mounted and fixed on the chill tank 610 (see FIG. 74).

また、橋脚102、104上においても、軌条設備602の位置と対応する位置に軌条設備600を橋軸方向に設置する。設置した軌条設備600と軌条設備602とは、上方から見ると、一直線状になる。架け替え対象の新設上部工部材の主桁は3本であるので、軌条設備600、602もそれぞれ3本設ける。 Further, on the piers 102 and 104, the rail equipment 600 is installed in the direction of the bridge axis at a position corresponding to the position of the rail equipment 602. The installed rail equipment 600 and the rail equipment 602 are in a straight line when viewed from above. Since the number of main girders of the newly installed superstructure member to be replaced is three, three rail facilities 600 and 602 are also provided.

<ステップS302>
新設上部工部材160を上部工部材架け替え設備12で上昇させて、橋脚102、104上の軌条設備600と、新設上部工部材160上の軌条設備602とが、同一の高さ位置になるようにする。
<Step S302>
The new superstructure member 160 is raised by the superstructure member replacement facility 12, so that the rail equipment 600 on the piers 102 and 104 and the rail equipment 602 on the new superstructure member 160 are at the same height position. To.

<ステップS303>
軌条設備600と軌条設備602とをボルト(図示せず)で連結して一体化する(図75参照)。
<Step S303>
The rail equipment 600 and the rail equipment 602 are connected and integrated with bolts (not shown) (see FIG. 75).

<ステップS304>
新設上部工部材160上で固定した新設上部工部材162、164の固定を解除した後、チルホール(図示せず)等の引き込み装置で、新設上部工部材162、164を橋脚102、104上の正規の設置位置に引き込む。
<Step S304>
After releasing the fixation of the new superstructure members 162 and 164 fixed on the new superstructure member 160, the new superstructure members 162 and 164 are regularly mounted on the piers 102 and 104 with a pull-in device such as a chill hole (not shown). Pull in to the installation position of.

<ステップS305>
引き込んだ新設上部工部材162、164は、ジャッキアップして、橋脚102、104の支承(支点102A、104A)上に設置する。
<Step S305>
The retracted new superstructure members 162 and 164 are jacked up and installed on the bearings (fulcrums 102A and 104A) of the piers 102 and 104.

<ステップS306>
橋脚102、104の支承(支点102A、104A)上への新設上部工部材162、164の設置完了後、連結一体化していた軌条設備600と軌条設備602とを解体して切り離す。その後、新設上部工部材160を、上部工部材架け替え設備12で正規の設置高さ位置まで上昇させて、橋脚102、104の支承(支点102A、104A)上に設置した新設上部工部材162、164に、新設上部工部材160を添接板160B、160C(図47参照)で連結する。
<Step S306>
After the installation of the new superstructure members 162 and 164 on the bearings (fulcrums 102A and 104A) of the piers 102 and 104 is completed, the rail equipment 600 and the rail equipment 602 that have been connected and integrated are disassembled and separated. After that, the new superstructure member 160 was raised to the regular installation height position by the superstructure member replacement facility 12, and the new superstructure member 162, which was installed on the bearings (fulcrums 102A, 104A) of the piers 102 and 104, The new superstructure member 160 is connected to 164 with splicing plates 160B and 160C (see FIG. 47).

10、50、70…上部工部材撤去設備
10A、50A、70A…左側設備
10B、50B、70B…右側設備
10C、10D…架台
12…上部工部材架け替え設備
20、52、72…本体部
22…上下方向レール
22A、22B、28A、28B、30A…フランジ
22B1、30A1…ボルト
22C、28C…補強プレート
22C1…切り欠き
24…昇降装置
24A…クレビスジャッキ
24A1…ロッド
24B…H鋼クランプ
24C…ブラケット
26…上部工部材受け用橋軸直角方向部材
28…レール保持用上下方向部材
30…橋軸直角方向連結部材
32…反対側橋軸直角方向連結部材
34…橋軸方向連結部材
36…残置部受け用橋軸直角方向部材
40、60、80…反力受け基礎部
42…フーチング上面固定架台
44…高さ調整架台
46…後打ち杭
48…受け梁
54…反対側上下方向レール
56…反対側レール保持用上下方向部材
82…敷き鋼板
84…サンドル
86…受け梁
90…ブラケット
92…アンカー
100…橋梁
102、104…橋脚
102A、104A…支点
106、126、136…径間
108、110、110X、110Y、110Z、112、114、120、130…既設上部工部材
110A、110B、110C、110D…切断面
150、152…フーチング
160、160X、160Y、160Z、162、164…新設上部工部材
160A、160B、160C…添接板
200、202、204…クレーン
220…高所作業車
250…バイブロハンマー
500…地盤
600、602…軌条設備
610…チルタンク
10, 50, 70 ... Superstructure member removal equipment 10A, 50A, 70A ... Left side equipment 10B, 50B, 70B ... Right side equipment 10C, 10D ... Stand 12 ... Superstructure member replacement equipment 20, 52, 72 ... Main body 22 ... Vertical rails 22A, 22B, 28A, 28B, 30A ... Flange 22B1, 30A1 ... Bolts 22C, 28C ... Reinforcing plate 22C1 ... Notch 24 ... Lifting device 24A ... Crevis jack 24A1 ... Rod 24B ... H Steel clamp 24C ... Bracket 26 ... Bridge axis perpendicular member for receiving superstructure member 28 ... Vertical member for holding rail 30 ... Bridge axis orthogonal direction connecting member 32 ... Opposite side bridge axis orthogonal direction connecting member 34 ... Bridge axial direction connecting member 36 ... Remaining part receiving bridge Axis orthogonal direction members 40, 60, 80 ... Reaction force receiving base 42 ... Footing top surface fixed pedestal 44 ... Height adjustment pedestal 46 ... Post-casting ridge 48 ... Receiving bridge 54 ... Opposite vertical rail 56 ... For holding opposite rail Vertical member 82 ... Paving steel plate 84 ... Sandle 86 ... Receiving beam 90 ... Bracket 92 ... Anchor 100 ... Bridge 102, 104 ... Bridge pedestal 102A, 104A ... Supporting point 106, 126, 136 ... Span 108, 110, 110X, 110Y, 110Z , 112, 114, 120, 130 ... Existing superstructure members 110A, 110B, 110C, 110D ... Cut surfaces 150, 152 ... Footing 160, 160X, 160Y, 160Z, 162, 164 ... New superstructure members 160A, 160B, 160C ... Splicing plate 200, 202, 204 ... Crane 220 ... High-altitude work vehicle 250 ... Vibro hammer 500 ... Ground 600, 602 ... Rail equipment 610 ... Chill tank

Claims (14)

橋梁の橋軸方向に隣接する橋脚の間の径間内において上部工部材を上下方向に運搬することができる上部工部材運搬設備であって、
前記橋梁の橋軸方向に隣接する前記橋脚それぞれに隣接して上下方向に延びていて、前記橋梁の橋軸直角方向から見て前記径間内に位置している上下方向レールと、
前記上下方向レールが取り付けられる部材であって、前記橋梁の橋軸直角方向から見て前記径間内に位置し、前記上下方向レールと略同一の方向に延びるように設置されたレール保持用上下方向部材と、
前記上下方向レールそれぞれに取り付けられていて、自身が取り付けられた前記上下方向レールに沿って移動可能な昇降装置と、
を備え、
前記上部工部材を支持しつつ上下方向に運搬することができる数の前記昇降装置を備えるとともに、前記レール保持用上下方向部材は、前記上下方向レールが受ける鉛直方向下向きの荷重の少なくとも一部を、前記橋脚を介さずに地盤に伝達するように構成されていることを特徴とする上部工部材運搬設備。
It is a superstructure member transportation facility that can transport superstructure members in the vertical direction within the span between piers adjacent to the bridge in the bridge axis direction.
A vertical rail extending in the vertical direction adjacent to each of the piers adjacent to the bridge axis direction and located within the span when viewed from the direction perpendicular to the bridge axis of the bridge, and a vertical rail.
A member to which the vertical rail is attached, and is located within the span when viewed from the direction perpendicular to the bridge axis of the bridge, and is installed so as to extend in substantially the same direction as the vertical rail. Directional members and
An elevating device that is attached to each of the vertical rails and can move along the vertical rail to which it is attached.
With
The elevating device is provided in a number capable of carrying the superstructure member in the vertical direction while supporting the superstructure member, and the vertical member for holding the rail receives at least a part of the vertical downward load received by the vertical rail. , A superstructure member transport facility characterized in that it is configured to transmit to the ground without going through the pier.
前記上下方向レールの長手方向の下端は、前記レール保持用上下方向部材の長手方向の下端よりも上方に位置していることを特徴とする請求項1に記載の上部工部材運搬設備。 The superstructure member transporting facility according to claim 1, wherein the lower end of the vertical rail in the longitudinal direction is located above the lower end of the vertical member for holding the rail in the longitudinal direction. 前記上下方向レールは、複数のレール部材を長手方向に継ぎ合わせて構成されており、前記レール保持用上下方向部材は、前記複数のレール部材同士を継ぎ合わせていることを特徴とする請求項1に記載の上部工部材運搬設備。 The vertical rail is configured by joining a plurality of rail members in the longitudinal direction, and the vertical member for holding the rail is characterized in that the plurality of rail members are joined to each other. Superstructure member transportation equipment described in. 前記昇降装置は、伸縮可能なジャッキと、前記ジャッキの両端部にそれぞれ取り付けられたクランプ装置と、を備え、前記クランプ装置によって前記上下方向レールに取り付けられており、前記クランプ装置は、前記上下方向レールへの固定とその固定の解除を繰り返し行うことができることを特徴とする請求項1〜3のいずれかに記載の上部工部材運搬設備。 The elevating device includes a telescopic jack and clamp devices attached to both ends of the jack, and is attached to the vertical rail by the clamp device. The clamp device is attached to the vertical rail in the vertical direction. The superstructure member transportation facility according to any one of claims 1 to 3, wherein the fixing to the rail and the release of the fixing can be repeated. 前記上下方向レール同士の間を前記橋梁の橋軸直角方向に架け渡して連結する橋軸直角方向連結部材をさらに備えることを特徴とする請求項1〜4のいずれかに記載の上部工部材運搬設備。 The superstructure member transportation according to any one of claims 1 to 4, further comprising a bridge axis orthogonal direction connecting member that bridges and connects the vertical rails in the direction perpendicular to the bridge axis of the bridge. Facility. 前記橋脚において前記径間とは前記橋梁の橋軸方向反対側に、橋軸直角方向に延びる反対側橋軸直角方向連結部材が配置され、かつ、前記橋脚の前記橋軸直角方向の側方に橋軸方向に延びる橋軸方向連結部材が配置されていて、前記橋軸直角方向連結部材、前記反対側橋軸直角方向連結部材および前記橋軸方向連結部材は、前記橋脚の周囲を一周巻き込むようにして該橋脚に取り付けられていることを特徴とする請求項5に記載の上部工部材運搬設備。 In the bridge pier, a connecting member in the direction perpendicular to the bridge axis on the opposite side extending in the direction perpendicular to the bridge axis is arranged on the side opposite to the span in the direction opposite to the bridge axis, and on the side of the pier in the direction perpendicular to the bridge axis. A bridge axis direction connecting member extending in the bridge axis direction is arranged, and the bridge axis perpendicular direction connecting member, the opposite side bridge axis perpendicular direction connecting member, and the bridge axis direction connecting member wrap around the bridge pedestal. The superstructure member transporting facility according to claim 5, wherein the bridge pier is attached to the bridge pier. さらに、前記橋脚それぞれにおいて、前記径間とは前記橋梁の橋軸方向反対側にも、上下方向に延びる反対側上下方向レールが取り付けられていて、該反対側上下方向レールそれぞれに、該反対側上下方向レールに沿って移動可能な昇降装置が取り付けられていることを特徴とする請求項6に記載の上部工部材運搬設備。 Further, in each of the piers, a vertical rail on the opposite side extending in the vertical direction is attached to the side opposite to the span in the vertical direction of the bridge, and each of the vertical rails on the opposite side has the opposite side. The superstructure member transportation facility according to claim 6, wherein an elevating device that can move along a vertical rail is attached. 前記上部工部材の下方に、前記上部工部材を載置する架台が設けられており、該架台の高さは地表面から1m以上3m以下であることを特徴とする請求項1〜7のいずれかに記載の上部工部材運搬設備。 Any of claims 1 to 7, wherein a pedestal on which the superstructure member is placed is provided below the superstructure member, and the height of the pedestal is 1 m or more and 3 m or less from the ground surface. Superstructure member transportation equipment described in Crab. 橋梁の橋軸方向に隣接する橋脚の間の径間内において上部工部材を上下方向に運搬する上部工部材運搬方法であって、
前記上部工部材を、請求項1〜8のいずれかに記載の上部工部材運搬設備で支持する支持工程と、
前記上部工部材運搬設備で支持した前記上部工部材を、前記上部工部材運搬設備で上下方向に運搬する運搬工程と、
を備えることを特徴とする上部工部材運搬方法。
This is a method of transporting superstructure members in the vertical direction within the span between piers adjacent to the bridge in the bridge axis direction.
A support step of supporting the superstructure member by the superstructure member transport facility according to any one of claims 1 to 8.
A transportation process in which the superstructure member supported by the superstructure member transportation facility is vertically transported by the superstructure member transportation facility, and a transportation process.
A method for transporting superstructure members, which comprises.
前記支持工程では、前記径間内の所定の領域の既設上部工部材を前記上部工部材運搬設備で支持する請求項9に記載の上部工部材運搬方法であって、
前記上部工部材運搬設備で支持した前記所定の領域の既設上部工部材を前記橋梁から切り離す切り離し工程を備え、
前記運搬工程は、前記切り離し工程で切り離された前記既設上部工部材を、前記上部工部材運搬設備で下降させる下降工程であることを特徴とする上部工部材運搬方法。
The method for transporting a superstructure member according to claim 9, wherein in the support step, an existing superstructure member in a predetermined region within the span is supported by the superstructure member transport facility.
It is provided with a separation step of separating the existing superstructure member in the predetermined area supported by the superstructure member transport facility from the bridge.
The transportation process is a method for transporting a superstructure member, which is a lowering step of lowering the existing superstructure member separated in the separation step by the superstructure member transportation facility.
前記下降工程で下降させた前記既設上部工部材を、前記上部工部材運搬設備から搬出する搬出工程と、
前記搬出工程の後、前記上部工部材運搬設備に新設上部工部材を載置する新設上部工部材載置工程と、
前記新設上部工部材載置工程で前記上部工部材運搬設備に載置した前記新設上部工部材を、前記上部工部材運搬設備で上昇させる上昇工程と、
前記上昇工程で上昇させた前記新設上部工部材を前記橋梁に連結する連結工程と、
を備えることを特徴とする請求項10に記載の上部工部材運搬方法。
The carry-out process of carrying out the existing superstructure member lowered in the lowering step from the superstructure member transport facility, and
After the unloading process, a new superstructure member mounting process for mounting the new superstructure member on the superstructure member transport facility, and a new superstructure member mounting process.
An ascending step of raising the newly installed superstructure member mounted on the superstructure member transportation facility in the new superstructure member mounting process by the superstructure member transportation facility,
A connecting step of connecting the newly constructed superstructure member raised in the ascending step to the bridge,
10. The method for transporting a superstructure member according to claim 10.
前記上部工部材運搬設備は請求項8に記載の上部工部材運搬設備であり、
前記下降工程は、前記切り離し工程で切り離された前記既設上部工部材を、前記上部工部材運搬設備で下降させて前記架台に載置する下降載置工程であることを特徴とする請求項10または11に記載の上部工部材運搬方法。
The superstructure member transport facility is the superstructure member transport facility according to claim 8.
10. The lowering step is a lowering mounting step in which the existing superstructure member separated in the separating step is lowered by the superstructure member transport facility and placed on the gantry. 11. The method for transporting superstructure members according to 11.
前記下降載置工程で前記架台に載置した前記既設上部工部材を、解体してから搬出することを特徴とする請求項12に記載の上部工部材運搬方法。 The method for transporting a superstructure member according to claim 12, wherein the existing superstructure member mounted on the gantry in the descending mounting step is disassembled and then carried out. 前記上部工部材運搬設備は請求項8に記載の上部工部材運搬設備であり、
前記新設上部工部材載置工程では、前記新設上部工部材を前記架台上に組み立てて、前記上部工部材運搬設備に載置することを特徴とする請求項11に記載の上部工部材運搬方法。
The superstructure member transport facility is the superstructure member transport facility according to claim 8.
The superstructure member transporting method according to claim 11, wherein in the new superstructure member mounting step, the new superstructure member is assembled on the gantry and mounted on the superstructure member transport facility.
JP2020167706A 2018-05-18 2020-10-02 Superstructure material transportation equipment and superstructure material transportation method Active JP6969646B2 (en)

Priority Applications (2)

Application Number Priority Date Filing Date Title
JP2020167706A JP6969646B2 (en) 2018-05-18 2020-10-02 Superstructure material transportation equipment and superstructure material transportation method
JP2021174978A JP7136309B2 (en) 2018-05-18 2021-10-26 Superstructure material transportation equipment and superstructure material transportation method

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
JP2018096681A JP6798527B2 (en) 2018-05-18 2018-05-18 Superstructure material transportation equipment and superstructure material transportation method
JP2020167706A JP6969646B2 (en) 2018-05-18 2020-10-02 Superstructure material transportation equipment and superstructure material transportation method

Related Parent Applications (1)

Application Number Title Priority Date Filing Date
JP2018096681A Division JP6798527B2 (en) 2018-05-18 2018-05-18 Superstructure material transportation equipment and superstructure material transportation method

Related Child Applications (1)

Application Number Title Priority Date Filing Date
JP2021174978A Division JP7136309B2 (en) 2018-05-18 2021-10-26 Superstructure material transportation equipment and superstructure material transportation method

Publications (2)

Publication Number Publication Date
JP2020204263A true JP2020204263A (en) 2020-12-24
JP6969646B2 JP6969646B2 (en) 2021-11-24

Family

ID=73837605

Family Applications (1)

Application Number Title Priority Date Filing Date
JP2020167706A Active JP6969646B2 (en) 2018-05-18 2020-10-02 Superstructure material transportation equipment and superstructure material transportation method

Country Status (1)

Country Link
JP (1) JP6969646B2 (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP7215633B1 (en) * 2022-10-14 2023-01-31 Jfeエンジニアリング株式会社 Bridge replacement device and bridge replacement method

Citations (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH06129108A (en) * 1992-10-19 1994-05-10 Taisei Corp Assembling device for form
JPH0667511U (en) * 1993-03-08 1994-09-22 株式会社高槻組 Electric automatic special support lifting device
JPH10237823A (en) * 1997-02-27 1998-09-08 Nkk Corp Method for replacing overhead bridge
US5960502A (en) * 1997-07-18 1999-10-05 Sherman; Yury Method and mechanism for erection of prefabricated modular deck of viaducts, motorway flyovers and the like
JP2004197517A (en) * 2002-12-20 2004-07-15 Nippon Sharyo Seizo Kaisha Ltd Removal working device and removal method
JP2011058226A (en) * 2009-09-09 2011-03-24 Masayasu Mifuji Integrally-molded steel pipe pole with fixed blade constituting fence
JP2012012835A (en) * 2010-06-30 2012-01-19 Okumura Corp Construction method of work floor for high altitude work

Patent Citations (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH06129108A (en) * 1992-10-19 1994-05-10 Taisei Corp Assembling device for form
JPH0667511U (en) * 1993-03-08 1994-09-22 株式会社高槻組 Electric automatic special support lifting device
JPH10237823A (en) * 1997-02-27 1998-09-08 Nkk Corp Method for replacing overhead bridge
US5960502A (en) * 1997-07-18 1999-10-05 Sherman; Yury Method and mechanism for erection of prefabricated modular deck of viaducts, motorway flyovers and the like
JP2004197517A (en) * 2002-12-20 2004-07-15 Nippon Sharyo Seizo Kaisha Ltd Removal working device and removal method
JP2011058226A (en) * 2009-09-09 2011-03-24 Masayasu Mifuji Integrally-molded steel pipe pole with fixed blade constituting fence
JP2012012835A (en) * 2010-06-30 2012-01-19 Okumura Corp Construction method of work floor for high altitude work

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP7215633B1 (en) * 2022-10-14 2023-01-31 Jfeエンジニアリング株式会社 Bridge replacement device and bridge replacement method

Also Published As

Publication number Publication date
JP6969646B2 (en) 2021-11-24

Similar Documents

Publication Publication Date Title
AU2013212529B2 (en) Automated formwork climbing system
CN110080526B (en) Stage reverse construction method for basement
JP2009132474A (en) Mounting device of climbing frame
WO2018052030A1 (en) Bridge construction method
JP6969646B2 (en) Superstructure material transportation equipment and superstructure material transportation method
JP7136309B2 (en) Superstructure material transportation equipment and superstructure material transportation method
JP2020002778A (en) Bridge pier construction method
CN109629449B (en) Mounting and positioning support and alignment method for steel-concrete combined section of arch foot of steel box arch bridge
JP7072483B2 (en) How to build a skeleton
JP2012202162A (en) Bridge crane, bridge erection method and bridge removal method
CN113005919A (en) Pier construction device and pier construction method
CN110316662B (en) Installation and construction method of large-span portal crane
JP6798527B2 (en) Superstructure material transportation equipment and superstructure material transportation method
JP6527074B2 (en) Bridge construction method
JP7185567B2 (en) Bridge pier repair method
KR101605011B1 (en) Repair and Reinforcement method of lower structure of bridge
KR101130166B1 (en) Apparatus and method for replacing bearings of box girder bridge
JP6059176B2 (en) Mobile lifting scaffold for assembling temporary elevated jetty
CN214831975U (en) Pier construction device
JP4504747B2 (en) Building construction method using tower crane
JP7012486B2 (en) Bridge construction method
JP4755998B2 (en) Cutting and rehabilitating connecting bridges with different distances between buildings
CN109056741B (en) Method for dismantling lower steel support in multi-layer steel support
JP6618116B2 (en) Construction method of pier
CN114561875B (en) Steel box girder pushing and high-position girder falling method

Legal Events

Date Code Title Description
A621 Written request for application examination

Free format text: JAPANESE INTERMEDIATE CODE: A621

Effective date: 20201002

TRDD Decision of grant or rejection written
A01 Written decision to grant a patent or to grant a registration (utility model)

Free format text: JAPANESE INTERMEDIATE CODE: A01

Effective date: 20210928

A61 First payment of annual fees (during grant procedure)

Free format text: JAPANESE INTERMEDIATE CODE: A61

Effective date: 20211011

R150 Certificate of patent or registration of utility model

Ref document number: 6969646

Country of ref document: JP

Free format text: JAPANESE INTERMEDIATE CODE: R150