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JP6378662B2 - Manhole levitation prevention device - Google Patents
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JP6378662B2 - Manhole levitation prevention device - Google Patents

Manhole levitation prevention device Download PDF

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JP6378662B2
JP6378662B2 JP2015224122A JP2015224122A JP6378662B2 JP 6378662 B2 JP6378662 B2 JP 6378662B2 JP 2015224122 A JP2015224122 A JP 2015224122A JP 2015224122 A JP2015224122 A JP 2015224122A JP 6378662 B2 JP6378662 B2 JP 6378662B2
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container
manhole
weight
containers
peripheral wall
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JP2016211354A (en
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大津賀 則男
則男 大津賀
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株式会社サンリツ
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Description

本発明は、地盤変化に伴うマンホールの浮上を防止するための浮上防止装置を提供することにある。 It is an object of the present invention to provide an ascent prevention device for preventing manholes from rising due to ground changes.

マンホールは、地中に埋設されて下水道と連絡するものである。しかしながら、地震などによる地盤の液状化現象により、マンホールが浮き上がって道路の交通の妨げになり、さらに、マンホール周壁や下水道配管などが壊される問題点が起こっている。   The manhole is buried in the ground and communicates with the sewer. However, due to the ground liquefaction due to earthquakes and the like, manholes are lifted up, hindering road traffic, and the manhole peripheral walls and sewer pipes are broken.

実開昭61−11841号公報Japanese Utility Model Publication No. 61-11841

上記のような液状化現象への対策として、マンホール周壁の内周側または外周側に重りとなるものを設置し、マンホールの浮力よりもマンホール重量を大きくするものであった。このうち、人が通るスペースを確保したうえでマンホールの周壁内周側にブロック状をなす鋳物を配置し、マンホールの重量を大きくするものがあった。ところが、マンホール内では下水から発生するガスによって鋳物が腐食してしまい、このことから、短期の鋳物の交換やメンテナンスが必要となり、保守コストが増大する。さらに、約50年と言われる長期の稼働を義務付けられるマンホールにおいて、鋳物の腐食によって常時の浮上防止効果が得られないことは、深刻な欠陥となる。   As a countermeasure against the liquefaction phenomenon as described above, a weight is installed on the inner peripheral side or the outer peripheral side of the manhole peripheral wall, and the manhole weight is made larger than the buoyancy of the manhole. Among these, there is one that increases the weight of the manhole by arranging a block-shaped casting on the inner peripheral side of the peripheral wall of the manhole after securing a space for passing a person. However, in the manhole, the casting is corroded by the gas generated from the sewage, which necessitates short-term casting replacement and maintenance, which increases maintenance costs. Furthermore, in manholes that are required to operate for a long period of about 50 years, it is a serious defect that the effect of preventing levitation cannot be obtained due to corrosion of castings.

本発明は、上記課題を鑑みてなされたものであり、地盤の液状化現象等の地盤変化におけるマンホールの浮上防止装置を提供することにある。 The present invention has been made in view of the above problems, and it is an object of the present invention to provide a manhole floating prevention device in ground changes such as ground liquefaction.

本発明のうち請求項1記載の発明は、周壁と底部で構成されるマンホールの重量を増大させ、液状化現象等の地盤変化による浮き上がりを防ぐために用い、複数の収容体と、収容体に入れる重りと、を備えており、個々の収容体には、重りを入れるための収容部を有しており、収容部は隔壁で囲まれており、個々の収容体は、マンホール周壁の内周面の一部領域だけを塞ぐ大きさであり、収容体を水平方向と垂直方向の両方に連続的に配置することで、マンホール周壁の内周面の全周を覆い、水平方向に隣接する収容体同士を連結するため、収容体の側部には連結部を有しており、隔壁の一部は開閉自在に取り付けてあり、隔壁を開放することで収容部に重りを収容可能で、重りを収容後に隔壁を閉鎖することで重りが外気から隔離されることを特徴とするマンホールの浮上防止装置であるAccording to one aspect of the present invention is to increase the weight of the formed manhole in the peripheral wall and the bottom, used to prevent lifting by ground changes such liquefaction, and multiple racks are placed in a container A weight, and each container has a container for inserting a weight, the container is surrounded by a partition, and each container is an inner peripheral surface of a manhole peripheral wall. Is a size that covers only a part of the area, and by continuously arranging the container in both the horizontal direction and the vertical direction, it covers the entire circumference of the inner peripheral surface of the manhole peripheral wall and is adjacent to the horizontal direction. In order to connect each other, there is a connecting part on the side part of the container, a part of the partition wall is attached to be openable and closable , and a weight can be accommodated in the container part by opening the partition wall. this the weight is isolated from the outside air by closing the partition wall after receiving A floating preventing device manhole according to claim.

本発明のうち請求項2記載の発明は、収容体を安定して載置するためのもので、収容体の下端部は、マンホール底部と一致する形状をなしており、また収容体の上端部には、他の収容体の下端部を嵌め込むため、内周側と外周側の二箇所で突出する接続部を設けてあることを特徴とする。 The invention according to claim 2 of the present invention is for stably placing the container, and the lower end of the container has a shape matching the bottom of the manhole, and the upper end of the container In order to fit the lower end part of another container, the connection part which protrudes in two places of an inner peripheral side and an outer peripheral side is provided, It is characterized by the above-mentioned.

本発明のうち請求項3記載の発明は、無駄なく浮上防止の施工を行うためのもので、隔壁は、収容体の底面および側面を形成する本体と、本体の上部開放口を閉塞する蓋と、で構成してあり、蓋は開閉自在であることを特徴とする。 The invention according to claim 3 of the present invention is for performing construction for preventing ascending without waste, and the partition wall includes a main body that forms the bottom and side surfaces of the container, and a lid that closes the upper opening of the main body. The lid is openable and closable .

本発明のうち請求項4記載の発明は、収容体の倒伏を防ぐためのもので、隣接する収容体同士の境界には、止水部材を介在させてあることを特徴とする。 The invention according to claim 4 of the present invention is for preventing the container from falling down, and is characterized in that a water stop member is interposed at the boundary between the adjacent containers .

本発明のうち請求項5記載の発明は、連結箇所に止水部材を確実に配置するためのもので、連結部は、雌雄状の嵌め込みによるものであり、隣接する収容体の一方には連結凸部を設け、他方には連結凹部を設け、連結凸部には止水部材を組み込んであることを特徴とする。 The invention according to claim 5 of the present invention is for securely disposing the water-stopping member at the connecting portion, and the connecting portion is formed by male-female fitting, and is connected to one of the adjacent containers. A convex portion is provided, a connecting concave portion is provided on the other side, and a water stop member is incorporated in the connecting convex portion .

本発明のうち請求項1記載の発明によれば、収容体は、任意の数量の重りを収容できる収容部を有し、少なくとも収容部には、上記の重りとマンホール内周側の空間とを隔てる隔壁を有している。これにより、収容体の隔壁によってマンホール内に発生する硫化水素などのガスと重りとが接触しないので、発生ガスによる重りの腐食を防ぐことができる。したがって、マンホール内で重りを長期的に使用できることから、液状化現象などで起こるマンホールの浮上を防止する効果を長期間付与し続けることができる。   According to the invention described in claim 1 of the present invention, the container has a container that can accommodate an arbitrary number of weights, and at least the container includes the weight and the space on the inner peripheral side of the manhole. It has a separating partition. Thereby, since gas such as hydrogen sulfide generated in the manhole and the weight do not come into contact with each other due to the partition walls of the container, corrosion of the weight due to the generated gas can be prevented. Therefore, since the weight can be used in the manhole for a long time, the effect of preventing the manhole from floating due to the liquefaction phenomenon can be continuously provided for a long time.

本発明のうち請求項2記載の発明によれば、マンホールの底部にあるインバートの傾斜や、あるいは、既設管に合わせて最下段に配置する収容体の下端部の形状を対応させることにより、最下段の収容体より上側に積み上げる収容体を安定して載置することができる。   According to the invention described in claim 2 of the present invention, the invert slope at the bottom of the manhole or the shape of the lower end of the container placed at the lowest level in accordance with the existing pipe is made to correspond to the bottom. The containers stacked above the lower container can be stably placed.

本発明のうち請求項3記載の発明によれば、収容体の収容部が密閉されていることにより、収容体が単体でもマンホール内で発生したガスとの接触を防ぐことができる。これにより、収容体を個体単位でマンホールの浮力よりも大きい重量に設定できるので、現場状況に合わせて無駄なく浮上防止の施工を行うことができるようになる。   According to the third aspect of the present invention, since the housing portion of the housing is sealed, contact with the gas generated in the manhole can be prevented even if the housing is a single body. Thereby, since a container can be set to the weight larger than the buoyancy of a manhole in an individual unit, it becomes possible to perform the construction for preventing the levitation without waste according to the on-site situation.

本発明のうち請求項4記載の発明によれば、積層した収容体間に止水部材が介在することにより、隣接する各収容体の間から浸入した水が収容体とマンホール周壁の間に入り込むのを防ぐことができる。これにより、マンホール内に設置した各収容体の倒伏を防ぐことができる。   According to the invention described in claim 4 of the present invention, the water blocking member is interposed between the stacked containers, so that the water that has entered from between the adjacent containers enters between the container and the peripheral wall of the manhole. Can be prevented. Thereby, the fall of each container installed in the manhole can be prevented.

本発明のうち請求項5記載の発明によれば、収容体の連結部が凹状または凸状をなす雌雄状に連結しており、さらに、凸状をなす連結部の先端に水膨張性を有する止水部材が設けてあることで、左右に隣接する各収容体が地盤震動などで回動しても、それぞれの連結箇所に止水部材が確実に配置される。   According to the invention described in claim 5 of the present invention, the connecting portion of the container is connected in a male or female shape having a concave shape or a convex shape, and further, the tip of the convex connecting portion has water expandability. By providing the water stop member, the water stop member is surely disposed at each connecting portion even if the containers adjacent to the left and right are rotated by ground vibration or the like.

本実施によるマンホールの浮上防止装置の全体を示す一部を断面した斜視図である。It is the perspective view which carried out the cross section of a part which shows the whole manhole rising prevention apparatus by this implementation. 本実施によるマンホールの浮上防止装置の(a)は、図1中A−A線断面図であり、(b)は、図2(a)中B−B線断面図である。FIG. 2A is a cross-sectional view taken along line AA in FIG. 1, and FIG. 2B is a cross-sectional view taken along line BB in FIG. 2A. 本実施によるマンホールの浮上防止装置に使用する収容体と重りの斜視図である。It is a perspective view of the container and weight used for the floating prevention device of a manhole by this implementation. (a)(b)は、左右に隣接する収容体同士の連結状態を示す拡大図である。(A) (b) is an enlarged view which shows the connection state of the accommodating bodies adjacent on either side. (a)(b)は、上下に隣接する収容体同士の連結状態を示す拡大図である。(A) (b) is an enlarged view which shows the connection state of the containers adjacent up and down. 本実施による重りを示すものであり、(a)は、中央の重りを差し入れるときの状態を示す正面図であり、(b)は、重りを入れた後の状態を示す正面図である。The weight by this implementation is shown, (a) is a front view which shows the state when inserting a center weight, (b) is a front view which shows the state after putting a weight. 本実施によるマンホールの浮上防止装置に使用する既設管に対応した収容体の(a)は、縦断面図であり、(b)は、C−C線断面図であり、(c)は、要部を拡大した正面図である。(A) of the container corresponding to the existing pipe used for the manhole levitation preventing apparatus according to the present embodiment is a longitudinal sectional view, (b) is a sectional view taken along the line CC, and (c) is required. It is the front view which expanded the part. (a)〜(d)は、本実施によるマンホールの浮上防止装置の施工手順を示す簡略化した図である。(A)-(d) is the simplified figure which shows the construction procedure of the floating prevention apparatus of the manhole by this implementation. 本発明の他の実施形態のマンホールの浮上防止装置の一部を省略した斜視図である。It is the perspective view which abbreviate | omitted a part of manhole floating prevention apparatus of other embodiment of this invention. 本発明の他の実施形態のマンホールの浮上防止装置の(a)は、収容体の内部を示す横断面図であり、(b)は、重りの斜視図であり、(c)は、収容体を連結してその連結箇所を拡大した横断面図である。(A) of the manhole floating prevention apparatus of other embodiment of this invention is a cross-sectional view which shows the inside of a container, (b) is a perspective view of a weight, (c) is a container. It is the cross-sectional view which expanded and connected the connection location. 本発明の他の実施形態の収容体の斜視図である。It is a perspective view of the container of other embodiments of the present invention. 本発明の他の実施形態のマンホールの浮上防止装置の収容体を示す斜視図である。It is a perspective view which shows the container of the levitating prevention apparatus of the manhole of other embodiment of this invention. 本発明の他の実施形態のマンホール浮上防止装置の全体を示す(a)は、平面図であり、(b)は、縦断面図である。(A) which shows the whole manhole rising prevention apparatus of other embodiment of this invention is a top view, (b) is a longitudinal cross-sectional view. 図13(a)中のDを拡大して示す横断面図である。It is a cross-sectional view which expands and shows D in Fig.13 (a). 本発明の他の実施形態を示す平面図であり、(a)は、図16中Eを拡大して各収容体の作動状態を示すものであり、(b)は、図16中Fを拡大して各収容体の作動状態を示すものである。It is a top view which shows other embodiment of this invention, (a) expands E in FIG. 16, and shows the operating state of each container, (b) expands F in FIG. Thus, the operating state of each container is shown. 本発明の他の実施形態を示す全体平面図であり、(a)は、正円形状のマンホールに適用したもの、(b)は、楕円形状のマンホールに適用したもの、(c)は、矩形状のマンホールに適用したものである。It is a whole top view which shows other embodiment of this invention, (a) is what was applied to the perfect circular manhole, (b) was what was applied to the elliptical manhole, (c) was rectangular This is applied to a manhole with a shape. (a)(b)は、本発明の他の実施形態を示す横断面図である。(A) (b) is a cross-sectional view which shows other embodiment of this invention.

以下に、図面に基づいて本発明によるマンホールの浮上防止装置の実施形態について説明する。
本実施によるマンホールの浮上防止装置は、図1と図2(a)(b)のように、マンホール底部Uの周壁1内周側に、全周に亘って複数の収容体2を積み重ねて配置するものである。また、マンホールに設置する重り3a,3bの総重量は、従来から一般的に知られている浮上判定式により算出される。そして、前述した浮上判定式の多くのものは、液状化現象等の地盤変化によってマンホールの底部外周側に受けた水圧などにより、マンホールが浮上しようとする浮揚力に対して、マンホール周壁1外周部と埋戻し土との摩擦抵抗と重り3a,3bの総重量を加えた値が大きくなるように設定されるものである。
Hereinafter, an embodiment of a manhole floating prevention apparatus according to the present invention will be described with reference to the drawings.
As shown in FIGS. 1 and 2 (a) and 2 (b), the manhole levitation preventing device according to the present embodiment is arranged on the inner peripheral side of the peripheral wall 1 of the manhole bottom U by stacking a plurality of containers 2 over the entire circumference. To do. Further, the total weight of the weights 3a and 3b installed in the manhole is calculated by a conventionally known levitation determination formula. And many of the above-mentioned levitation judgment formulas are that the outer periphery of the manhole peripheral wall 1 against the levitation force that the manhole is about to float due to the water pressure received on the outer periphery of the bottom of the manhole due to ground change such as liquefaction The value obtained by adding the frictional resistance between the soil and the backfill soil and the total weight of the weights 3a and 3b is set to be large.

収容体2は、図3のように、収容部Sを耐候性の高い樹脂で成形された隔壁4aで囲み、上方が開放する有底筒型の本体4と、本体4の収容部S上側の開口部を閉塞する蓋5とから構成してあり、その全体が円弧状をなしている。また、本体4は、図4(a)のように、隣り合う他の収容体2,2と隣接する両側の隔壁4a,4aに、収容部S側に凹んだ保持溝6が上下方向に連続して設けてある。さらに、複数の収容体2をマンホール周壁1の内周側のほぼ全周に並べて配置したときに、各収容体2の両側の隔壁4a,4aにある保持溝6が対面して断面円形状をなす止水部材用保持孔7を形成する。また、止水部材用保持孔7には、図4(b)のように、丸棒状の止水部材8が配置される。止水部材8は、弾性を有しており、止水部材用保持孔7に配置した後に外周が拡張することにより、収容体2の両側の隔壁4a,4aに圧接し、隣接する収容体2,2間の隙間を閉塞する。これにより、隣り合う各収容体2,2同士の気密性と水密性を確保することになる。   As shown in FIG. 3, the housing 2 surrounds the housing portion S with a partition wall 4 a formed of a highly weather-resistant resin, and has a bottomed cylindrical main body 4 that opens upward, and an upper side of the housing portion S of the main body 4. It is comprised from the lid | cover 5 which obstruct | occludes an opening part, The whole has comprised the circular arc shape. Further, as shown in FIG. 4 (a), the main body 4 has the holding grooves 6 recessed in the housing portion S side continuously in the partition walls 4a and 4a on both sides adjacent to the other housings 2 and 2 adjacent to each other. It is provided. Furthermore, when the plurality of containers 2 are arranged side by side on the entire inner circumference side of the manhole peripheral wall 1, the holding grooves 6 in the partition walls 4a and 4a on both sides of each container 2 face each other to form a circular cross section. The water stop member holding hole 7 to be formed is formed. Further, as shown in FIG. 4B, a round bar-shaped water stop member 8 is disposed in the water stop member holding hole 7. The water stop member 8 has elasticity, and its outer periphery expands after being disposed in the water stop member holding hole 7 so as to be in pressure contact with the partition walls 4a and 4a on both sides of the container 2 and adjacent container 2 , The gap between the two is closed. Thereby, the airtightness and watertightness of adjacent containers 2 and 2 are ensured.

上記の収容体2は、図5(a)のように、その上端部に接続部9が設けてある。接続部9は、収容体2のマンホール内周側とマンホール外周側の二箇所にそれぞれ設けてあり、この二つの接続部9,9によって、図5(b)のように、収容体2の上端部が上向きコ字状に形成される。そして、上記の収容体2の二つの接続部9,9の間のほぼ上向きコ字型をなす溝状の部分に、他の収容体2を差し込むことにより、上下に隣り合う各収容体2,2同士が離脱することなく、複数の収容体2を積層したときに設置状態を安定させることができる。   As shown in FIG. 5A, the container 2 has a connecting portion 9 at the upper end. The connection portions 9 are provided at two locations on the inner peripheral side of the manhole and on the outer peripheral side of the manhole, respectively, and the upper ends of the storage member 2 are formed by the two connection portions 9 and 9 as shown in FIG. The part is formed in an upward U-shape. Then, by inserting another container 2 into a groove-like portion having a substantially upward U-shape between the two connecting portions 9 and 9 of the container 2, the containers 2 adjacent to each other vertically The installation state can be stabilized when the plurality of containers 2 are stacked without separating the two.

重り3a,3bは、図6(a)のように、両側と中央の計三つに分割している。そして、上記のように分割したものを組み合わせた重り3a,3bは、収容体2の収容部Sとほぼ同一の形状、大きさに形成してあり、配置したうちの両側二つのほぼ台形の重り3aと、中央のほぼ三角形状をなす重り3bとから構成してある。そして、収容体2の収容部Sに三つすべての重り3a,3bを入れたときには、図6(b)のように、中央に配置される重り3bが自重で下方に差し込まれると、両側の各重り3a,3aが押し拡げられる。これにより、両側の各重り3a,3aが収容体2の両側の各隔壁4aに圧接し、重り3a,3bが収容体2内でほとんど動かなくなるので、地盤震動などの外的影響を受けても、収容体2を設置したときには安定する。   As shown in FIG. 6A, the weights 3a and 3b are divided into a total of three on both sides and the center. The weights 3a and 3b obtained by combining the parts divided as described above are formed in substantially the same shape and size as the accommodating portion S of the container 2, and two trapezoidal weights on both sides of the arrangement. 3a and a weight 3b having a substantially triangular shape at the center. And when all three weights 3a and 3b are put in the accommodating part S of the accommodating body 2, when the weight 3b arrange | positioned in the center is inserted below with its own weight like FIG. Each weight 3a, 3a is expanded. As a result, the weights 3a, 3a on both sides are pressed against the bulkheads 4a on both sides of the container 2, and the weights 3a, 3b hardly move within the container 2, so that even if subjected to external influences such as ground vibrations. When the container 2 is installed, it is stable.

上記のように構成される収容体2を実際にマンホール周壁1の内周側に配置するときには、マンホールの蓋を開けてマンホール周壁1の地表開口部を開放し、計六つの収容体2をマンホール周壁1の内周側に沿って順次環状に配置する。そして、隣接する各収容体2,2間に設けられた止水部材用保持孔7に止水部材8を圧入することにより、隣接する各収容体2,2間の連結強度が増し、さらに、隣接する各収容体2,2間の水密性や気密性が確保される。また、上記の状態では、使用する各収容体2を構成する本体4の上方が開放しており、その開放した収容部Sの中に、マンホール周壁1や底部に加わる浮力よりもマンホールの総重量が大きくなるように、浮上判定式により算出された重量分の所定数の重り3a,3bを入れる。そして、重り3a,3bを収容部Sに入れた後に蓋5をして封入することにより、重り3a,3bを外気と隔離する。これにより、収容体2の収容部Sの中にある重り3a,3bは、収容体2の本体4の隔壁4aと蓋5で外周を囲まれることによって、マンホール内に発生するガスと接触することがなくなる。したがって、マンホール内に本実施による浮上防止装置の設置後も重り3a,3bが腐食のしにくい状態となる。   When the container 2 configured as described above is actually arranged on the inner peripheral side of the manhole peripheral wall 1, the manhole cover is opened to open the surface openings of the manhole peripheral wall 1, and the six containers 2 in total are It arrange | positions cyclically | annularly along the inner peripheral side of the surrounding wall 1 sequentially. Then, by pressing the water stop member 8 into the water stop member holding hole 7 provided between the adjacent containers 2, 2, the connection strength between the adjacent containers 2, 2 increases, Watertightness and airtightness between the adjacent containers 2 and 2 are ensured. Further, in the above state, the upper portion of the main body 4 constituting each container 2 to be used is open, and the total weight of the manhole is larger than the buoyancy applied to the manhole peripheral wall 1 and the bottom in the opened storage portion S. The predetermined number of weights 3a and 3b corresponding to the weight calculated by the flying height determination formula is inserted. And after putting the weights 3a and 3b in the accommodating part S, the lid | cover 5 is covered and sealed, and the weights 3a and 3b are isolated from external air. Thereby, the weights 3a and 3b in the accommodating part S of the container 2 come into contact with the gas generated in the manhole by being surrounded by the partition wall 4a and the lid 5 of the main body 4 of the container 2. Disappears. Therefore, the weights 3a and 3b are not easily corroded even after the anti-floating device according to the present embodiment is installed in the manhole.

また、上記したマンホールの浮上防止装置は、図7(a)(b)(c)のように、マンホール底部に設置される最下段に配置する収容体22が上記した収容体2と一部構造が異なっている。上記の収容体22は、図7(c)のように、下端部に半円形状の窪み23が設けてあり、上記の窪み23は、外部からマンホール周壁1内に連絡する既設管10を避ける目的で設けてある。このように、浮上防止装置の最下段に配置する収容体22をマンホール周壁1内周側の全周に配置すると、マンホールの底部Uに既設管10が設けてある現場であっても、その既設管10を避けて収容体22をマンホールの底部Uに安定して設置できるので、本実施によるマンホールの浮上防止装置の施工が容易に行えるようになる。また、マンホールの底部Uは、インバートが設けてあり、そのインバートに向けて傾斜が設けてある。これにより、本実施によるマンホールの浮上防止装置の最下段に配置される収容体22とマンホールの底部Uとの間には隙間があくが、その隙間はモルタルなどで埋められる。   In addition, as shown in FIGS. 7A, 7B, and 7C, the above-described manhole levitation preventing device includes a container 22 that is disposed at the bottom of the manhole and a part of the structure of the container 2. Is different. As shown in FIG. 7 (c), the container 22 has a semicircular recess 23 at the lower end, and the recess 23 avoids the existing pipe 10 that communicates with the inside of the manhole peripheral wall 1 from the outside. It is provided for the purpose. As described above, when the container 22 arranged at the lowest stage of the levitation preventing device is arranged on the entire inner circumference side of the manhole peripheral wall 1, even if the existing pipe 10 is provided on the bottom U of the manhole, Since the container 22 can be stably installed on the bottom U of the manhole while avoiding the tube 10, the construction of the device for preventing the manhole from rising according to the present embodiment can be easily performed. Further, the bottom U of the manhole is provided with an invert, and is inclined toward the invert. As a result, there is a gap between the container 22 arranged at the lowest stage of the manhole rising prevention apparatus according to this embodiment and the bottom U of the manhole, but the gap is filled with mortar or the like.

上記のようなマンホールの浮上防止装置は、以下に示す手順でマンホールに施工される。
第一の手順として、図8(a)のように、最初にマンホール周壁1内周側の底部Uに、最下段用の収容体22を設置し、マンホールの底部Uに設けてある既設管10を避けるように、マンホール周壁1内周部に沿ってほぼ全周に亘って、蓋5をせずに収容部Sを開放した収容体22を載置する。
第二の手順として、図8(b)のように、最下段に配置した各収容体22の収容部Sにそれぞれ重り3a,3bを入れていく。
このときに、本実施による浮上防止装置を設置するマンホールの大きさやマンホール重量等の違いによって、配置した各収容体22の収容部Sに入れる重り3a,3bの数をそれぞれ調整する。さらに、各収容体22にそれぞれ重り3a,3bを入れた後、収容体22の本体4に蓋5を閉めて収容部Sを閉塞する。
第三の手順として、図8(c)のように、上記した第二手順で設置した最下段の収容体22の上に、他の収容体2を積んでいく。同様に、上記の第二の手順で行った各収容体2の収容部Sに重りを入れ、各収容体2の上部に蓋5を締めて収容部Sを閉塞する。
第四の手順として、図8(d)のように、マンホール周壁1内周側のほぼ全周に亘って収容体2,22を一段、二段と順次積み重ねていき、さらに、一段目(本実施のものでは最下段)の収容体22と二段目の収容体2の配置位置は、例えるならレンガ積みのように、マンホール周壁1の周方向に収容体2,22を半分移動した位置関係とする。
上記の第一〜第四の各手順を経ることにより、図1のように、マンホール内に本実施による浮上防止装置が設置される。
The above-described manhole levitation prevention apparatus is applied to the manhole according to the following procedure.
As a first procedure, as shown in FIG. 8A, first, the lowermost container 22 is installed at the bottom U on the inner peripheral side of the manhole peripheral wall 1, and the existing pipe 10 provided at the bottom U of the manhole. In order to avoid this, the housing body 22 having the housing portion S opened without placing the lid 5 is placed over the entire circumference along the inner circumferential portion of the manhole peripheral wall 1.
As a second procedure, as shown in FIG. 8 (b), the weights 3a and 3b are put into the accommodating portions S of the respective accommodating bodies 22 arranged at the lowermost stage.
At this time, the number of weights 3a and 3b to be inserted into the accommodating portions S of the respective accommodating bodies 22 is adjusted according to the difference in manhole size, manhole weight, and the like where the anti-lift device according to the present embodiment is installed. Furthermore, after putting the weights 3a and 3b in the respective housings 22, the lid 5 is closed on the main body 4 of the housing 22 to close the housing part S.
As a third procedure, as shown in FIG. 8C, another container 2 is stacked on the lowermost container 22 installed in the second procedure described above. Similarly, a weight is put into the accommodating part S of each container 2 performed by said 2nd procedure, the lid | cover 5 is tightened on the upper part of each container 2, and the accommodating part S is obstruct | occluded.
As a fourth procedure, as shown in FIG. 8 (d), the containers 2 and 22 are sequentially stacked in one and two stages over almost the entire circumference on the inner peripheral side of the manhole peripheral wall 1, and further, The arrangement position of the container 22 in the lowermost stage in the embodiment and the container 2 in the second stage is a positional relationship in which the containers 2 and 22 are moved by half in the circumferential direction of the manhole peripheral wall 1, for example, like brickwork. And
By going through the above first to fourth procedures, the anti-floating device according to the present embodiment is installed in the manhole as shown in FIG.

上記のように、本実施によるマンホールの浮上防止装置を施工することにより、以下の作用効果を奏する。
例えば地震などによる液状化現象により、マンホール周壁1外周側の埋戻し土が泥状になったときに、マンホールを当初設置された定位置に保持できなくなる。これにより、マンホールには、マンホール周壁1外周側と底部U外周側から加わるそれぞれの外圧で傾きながら浮き上がろうとする。これに対してマンホール周壁1内周側のほぼ全周に亘って重り3を入れた収容体2,22を配置することにより、マンホールの総重量がマンホール周壁1や底部Uに発生する浮力よりも大きくなることで、液状化現象等の地盤変化の影響でマンホールが浮き上がらずに所定の位置に留まらせることができる。
As described above, the following operational effects can be obtained by constructing the manhole floating prevention apparatus according to the present embodiment.
For example, when the backfill soil on the outer peripheral side of the manhole peripheral wall 1 becomes mud due to a liquefaction phenomenon due to an earthquake or the like, the manhole cannot be held in the originally installed position. As a result, the manhole tends to float while being inclined by the respective external pressures applied from the outer peripheral side of the manhole peripheral wall 1 and the outer peripheral side of the bottom U. On the other hand, the total weight of the manhole is larger than the buoyancy generated in the manhole peripheral wall 1 and the bottom U by arranging the containers 2 and 22 with the weights 3 placed on almost the entire inner periphery of the manhole peripheral wall 1. By increasing the size, the manhole can be kept at a predetermined position without being lifted by the influence of ground change such as a liquefaction phenomenon.

本発明の他の実施形態として、図9と図10(a)〜(c)のように、収容体2が隣接する他の収容体2と対面する一方の側部に、上下に連続する連結凸部(連結部)13を有しており、また、他方の側部には、連結凹部(連結部)14を有している。連結凸部13は、突出する先端側に上下に連続するほぼ断面円形状をなす溝15が設けてあり、この溝15には棒状に細長い水膨張性ゴム材(止水部材)16が嵌合している。また、収容体2の上面と底面には、図11のように、その収容体2の周方向のほぼ全長に亘って肉厚の薄いシール状をなすゴム製パッキン(止水部材)17が貼ってある。これにより、マンホール周壁1の内周側部に沿って各収容体2を配置したときに、収容体2が他の収容体2と隣接する左右両側は、連結凸部13の水膨張性ゴム材16が隣接する他方の収容体2の連結凹部14に密着し、さらに、隣接する各収容体2の連結箇所の隙間が水分を含んで膨張した水膨張性ゴム材16で閉塞されて、上記の各収容体2の連結箇所における水密性が確保される。また、収容体2の上下に配置される他の収容体2との間は、ゴム製パッキン17同士が密着し、上下に配置された各収容体2間の水密性が確保される。このことから、マンホール周壁1の内周部に配置されるすべての各収容体2間の水密性が確保できる。また、本実施による収容体2は、図10(b)のように、重り18を肉厚の薄い板状に形成してある。さらに、上記の板状の重り18を収容体2の上方から収容部Sにほぼ垂直に複数枚入れていき、収容体2に対して浮力に抗する重量を付与するものである。これにより、板状の重り18を抜き差しすることにより、収容体2の重さを微妙に変えることができて浮力に対して必要以上の過剰な重さにすることなく、収容体2と重り18の無駄な配置がなくなる。さらに、重り18自体も金属板や鉄屑、金属粉などで形成することができるため、入手が容易となり、本実施による浮上防止装置の製造コストを抑えることができる。   As another embodiment of the present invention, as shown in FIG. 9 and FIGS. 10A to 10C, the container 2 is continuously connected to one side part facing the other container 2 adjacent to the upper and lower parts. A convex portion (connecting portion) 13 is provided, and a connecting concave portion (connecting portion) 14 is provided on the other side portion. The connecting convex portion 13 is provided with a groove 15 having a substantially circular cross-section that is continuous in the vertical direction on the protruding tip side, and a rod-like elongated water-expandable rubber material (water-stop member) 16 is fitted into the groove 15. doing. Further, as shown in FIG. 11, a rubber packing (water blocking member) 17 having a thin seal shape is attached to the upper surface and the bottom surface of the container 2 over almost the entire length in the circumferential direction of the container 2. It is. Thereby, when each container 2 is arrange | positioned along the inner peripheral side part of the manhole surrounding wall 1, the right and left both sides where the container 2 adjoins the other container 2 are the water expansible rubber materials of the connection convex part 13. 16 is closely attached to the connecting recess 14 of the other container 2 adjacent to each other, and the gap between the connecting portions of the adjacent containers 2 is closed by the water-expandable rubber material 16 expanded with moisture, Water-tightness at the connection location of each container 2 is ensured. In addition, the rubber packings 17 are in close contact with the other containers 2 arranged above and below the container 2, and watertightness between the containers 2 arranged above and below is ensured. From this, the watertightness between all the accommodating bodies 2 arrange | positioned at the inner peripheral part of the manhole surrounding wall 1 is securable. Further, the container 2 according to the present embodiment has a weight 18 formed in a thin plate shape as shown in FIG. Further, a plurality of the above plate-like weights 18 are put into the accommodating portion S from above the accommodating body 2 so as to give a weight against the buoyancy to the accommodating body 2. Accordingly, the weight of the container 2 can be slightly changed by inserting and removing the plate-like weight 18, and the container 2 and the weight 18 are not excessively heavy with respect to buoyancy. No useless placement. Furthermore, since the weight 18 itself can be formed of a metal plate, iron scrap, metal powder, or the like, it is easy to obtain and the manufacturing cost of the anti-lift device according to the present embodiment can be reduced.

本発明の他の実施形態として、図12と図13(a)(b)のように、収容体2の内周部に上下に延長する凹溝(補強材配置溝)29を有しており、さらに、収容体2の蓋5の上面に嵌合溝31が設けてある。収容体2の凹溝29は、収容体2の内周側面の周方向のほぼ中央に設けてある。さらに、収容体2の内周側面の両端には、ほぼ矩形状をなす切欠30が設けてあり、この切欠30は、複数の収容体2を連結して隣接したときに、隣接する他方の収容体2に設けてある切欠30と対面し、これにより、上記の凹溝29とほぼ同じ形状の凹溝29を形成する。このように形成すると、マンホール周壁1の内周側部に沿って各収容体2を配置したときに、各収容体2の内周側部の周方向に間隔をあけた複数箇所に、上下方向に延びる凹溝29が配置される。そして、各凹溝29には、耐腐食性に優れたSUS製の鉄筋(補強材)32を嵌り込ませることができる。鉄筋32の下端は、最下段の収容体22にナット34で固定し、マンホールの底部から起立させるものである。さらに、各凹溝29に鉄筋32を嵌めたときには、各収容体2の内周側部に各鉄筋32が配置されることで、鉄筋32による各収容体2の耐震補強がなされ、各収容体2が地盤震動等の影響でマンホール周壁1内に倒れて崩壊しにくくなる。また、収容体2の蓋5の上面に設けてある嵌合溝31に止水部材33を嵌り込ませることにより、図14のように、収容体2の上面の周方向の全長に亘って止水部材33を嵌合溝31で位置決めした状態で配置できる。これにより、上記の嵌合溝31に止水部材33を嵌めた収容体2の上にさらに他の収容体2を積んだときに、水を含んで膨張した止水部材33が他の収容体2の荷重で上から潰されて、上下の収容体2間の隙間に広く配置される。このことから、上下の収容体2間の隙間が止水部材33で閉塞されて高い水密性を確保できるようになる。   As other embodiment of this invention, it has the concave groove (reinforcement material arrangement | positioning groove | channel) 29 extended up and down at the inner peripheral part of the container 2 like FIG. 12 and FIG. 13 (a) (b). Furthermore, a fitting groove 31 is provided on the upper surface of the lid 5 of the container 2. The concave groove 29 of the container 2 is provided substantially at the center in the circumferential direction of the inner peripheral side surface of the container 2. Furthermore, a substantially rectangular notch 30 is provided at both ends of the inner peripheral side surface of the container 2, and this notch 30 is connected to the other container that is adjacent when a plurality of containers 2 are connected to each other. It faces the notch 30 provided in the body 2, thereby forming a concave groove 29 having substantially the same shape as the concave groove 29 described above. When formed in this way, when each container 2 is arranged along the inner peripheral side portion of the manhole peripheral wall 1, the vertical direction is set at a plurality of locations spaced in the circumferential direction of the inner peripheral side portion of each container 2. A concave groove 29 extending in the direction is arranged. And, each concave groove 29 can be fitted with a SUS rebar (reinforcing material) 32 having excellent corrosion resistance. The lower end of the reinforcing bar 32 is fixed to the lowermost container 22 with a nut 34 and is erected from the bottom of the manhole. Further, when the reinforcing bars 32 are fitted in the respective concave grooves 29, the reinforcing bars 32 are arranged on the inner peripheral side portion of the containing bodies 2, whereby the reinforcing bodies 32 are seismically reinforced by the reinforcing bars 32. 2 falls into the manhole peripheral wall 1 due to the influence of ground vibration and the like and becomes difficult to collapse. Further, the water stop member 33 is fitted into the fitting groove 31 provided on the upper surface of the lid 5 of the container 2, thereby stopping the entire length of the upper surface of the container 2 in the circumferential direction as shown in FIG. 14. The water member 33 can be disposed in a state where the water member 33 is positioned in the fitting groove 31. Thereby, when the other container 2 is further stacked on the container 2 in which the water stop member 33 is fitted in the fitting groove 31, the water stop member 33 expanded with water is another container. It is crushed from above with a load of 2 and is widely arranged in the gap between the upper and lower containers 2. For this reason, the gap between the upper and lower containers 2 is closed by the water stop member 33 so that high water tightness can be secured.

本発明の他の実施形態として、図15(a)と図16(a)のように、収容体2,24,25の四隅の角部が取れた面取り形状をなすものである。また、本実施による収容体2,24,25は、周方向の寸法が違う収容体25と組み合わせている。さらに、収容体2,24,25の一側の隔壁4aには、隣接する他方の収容体2,24,25に連結する膨大状に先端が突出した連結回動部(連結部)11を有している。さらに、収容体2,24,25の他側の隔壁4aには、上記の連結回動部とほぼ同一形状をなす収容部S側に凹んだ被連結回動部(連結部)12を有している。また、収容体2をマンホール周壁1の内周に沿って配置するときは、一方の収容体2,24,25の連結回動部11を他方の収容体2,24,25の被連結回動部12に対し、上方からスライドして落とし込む。このときに、膨大状をなす連結回動部11と、それを受け入れる凹状をなす被連結回動部12が垂直軸回りに回動可能に連結する。さらに、収容体2,24,25の四隅の角部が取れた面取り形状をなしていることにより、収容体2,24,25同士は、互いの四隅の角部が緩衝することなく一定範囲内で回動することができる。これにより、マンホール周壁1内で収容体2,24,25を自由に配置できるようになる。上記のように構成することにより、具体的に、図16(b)に示すものは、楕円形状をなすマンホール周壁1の内周側の彎曲に沿って各収容体2,24,25の角度を少しずつ変えて対応させたものである。さらに、図16(c)に示すものは、矩形のマンホール周壁1に沿って周壁内周側に収容体2とコーナー用収容体24を配置したものである。上記の矩形をなすマンホール周壁1に使用するものは、図16(c)のように、マンホール周壁1内の四隅にそれぞれ配置するコーナー用収容体24がほぼ「く」の字状に形成してあり、このコーナー用収容体24を挟んで隣接する各収容体2の連結方向を90°、あるいは、図示は省略するが、多角形状のマンホール周壁1であればその他の角度に変えて連結することができるようになる。また、図17(a)は、マンホール周壁1に沿って配置した各収容体2の内周側のほぼ全周に亘ってリング状をなす収容体支持具28を配置したものである。収容体支持具28は、各収容体2の内周部に配置されることで、マンホール周壁1からの外圧が各収容体2に加わっても収容体支持具28が内周側から支持することにより、各収容体2のマンホール内への倒伏が防がれる。さらに、図17(b)のように、収容体支持具28を各収容体2の外周部に配置することもでき、このときに各収容体2は、内周部と外周部の両側を支持されることで、より一層マンホール周壁1からの外圧に抗する構造となる。
尚、符号27は、収容体2を上下に連結するための接続部であり、その構造については、上記した接続部9とほぼ同一であるが、各収容体2,24,25の回動を妨げないように、角部には設けていない。
As another embodiment of the present invention, as shown in FIGS. 15 (a) and 16 (a), it has a chamfered shape in which the corners of the four corners of the containers 2, 24, 25 are removed. Moreover, the container 2, 24, 25 by this implementation is combined with the container 25 from which the dimension of the circumferential direction differs. Further, the partition wall 4a on one side of the housings 2, 24, 25 has a connecting rotating portion (connecting portion) 11 with its tip protruding in a vast shape connected to the other adjacent housings 2, 24, 25. doing. Furthermore, the partition 4a on the other side of the housings 2, 24, 25 has a coupled rotating portion (connecting portion) 12 that is recessed toward the accommodating portion S and has substantially the same shape as the connecting rotating portion. ing. Further, when the container 2 is arranged along the inner periphery of the manhole peripheral wall 1, the connecting rotation part 11 of the one container 2, 24, 25 is connected to the other container 2, 24, 25. Slide into the part 12 from above and drop. At this time, the connecting and rotating part 11 having an enormous shape and the connected rotating part 12 having a concave shape for receiving the connecting and rotating part 11 are connected so as to be rotatable about the vertical axis. Furthermore, since the four corners of the containers 2, 24, 25 are chamfered, the containers 2, 24, 25 are within a certain range without buffering the corners of the four corners. Can be rotated. Thereby, the accommodating bodies 2, 24, and 25 can be freely arranged in the manhole peripheral wall 1. By configuring as described above, specifically, what is shown in FIG. 16 (b) is that the angles of the respective containers 2, 24, 25 are set along the inner side curvature of the manhole peripheral wall 1 having an elliptical shape. It is something that is changed little by little to correspond. Furthermore, what is shown in FIG. 16 (c) is one in which the container 2 and the corner container 24 are arranged on the inner peripheral side of the peripheral wall along the rectangular manhole peripheral wall 1. As shown in FIG. 16C, the corner housings 24 arranged at the four corners of the manhole peripheral wall 1 are formed in a substantially “<” shape. Yes, the connecting direction of the containers 2 adjacent to each other with the corner container 24 interposed therebetween is 90 °, or although not shown, the polygonal manhole peripheral wall 1 may be connected to other angles. Will be able to. Further, FIG. 17A shows a case in which a container support 28 having a ring shape is disposed over substantially the entire circumference on the inner peripheral side of each container 2 disposed along the manhole peripheral wall 1. The container support 28 is arranged on the inner peripheral portion of each container 2 so that the container support 28 supports from the inner peripheral side even if external pressure from the manhole peripheral wall 1 is applied to each container 2. Thus, the lodging of each container 2 into the manhole is prevented. Further, as shown in FIG. 17B, the container support 28 can be arranged on the outer peripheral part of each container 2, and at this time, each container 2 supports both the inner peripheral part and the outer peripheral part. As a result, the structure further resists the external pressure from the peripheral wall 1 of the manhole.
Reference numeral 27 denotes a connection part for connecting the container 2 up and down, and the structure thereof is substantially the same as that of the connection part 9 described above, but each container 2, 24, 25 is rotated. It is not provided at the corners so as not to interfere.

本発明のマンホールの浮上防止装置は、特許請求の範囲に記載する範囲内であれば、上記した各実施形態に示す収容体2,22,25、コーナー用収容体24や重り3等の各構成部品の形状等に限定されない。収容体2,22,25は、上記実施形態では同一形状および同一の大きさの6つの収容体2,22,25をほぼ60°間隔で配置して、マンホール周壁1内周側に沿ってほぼ全周に配置したものを示したが、マンホールの機能を損なわずに浮力を上回ることができれば、それ以外の大きさや形状であってもよい。各収容体2,22,25をマンホール周壁1内周側に沿ってほぼ全周に亘ってリング状に配置できる形状であるとともに、マンホールの地表開口部から入れることのできる大きさであればよい。さらに、収容体2,22,24,25は、マンホール周壁1内周の全周すべてに設けてもよいし、マンホール周壁1に足場等の障害物がある場合には、それらを避けて設けてもよい。また、収容体2,22,24,25の材質についても、重り3の腐食を防ぐことができるものであればよい。例えば、コストが低く入手が容易で加工性のよい塩化ビニールや、耐久性と内部の視認性が高くなるアクリル製のものなどが挙げられる。また、収容体2,22同士の接続部9についても、上記実施形態では二つの接続部9,9の間に挟み込む構造のものを示したが、収容体2,22,25及びコーナー用収容体24同士がマンホール周壁1の内周側に倒伏しない程度の手段であればよく、収容体2,22,24,25同士が凹凸に嵌合するものでもよい。さらに、収容体2,22,25とコーナー用収容体24との連結回動部11、被連結回動部12についても、隣接する収容体2,22,25あるいはコーナー用収容体24の連結方向を自在に変えることができるものであれば限定せず、隣接する収容体2,22,25あるいはコーナー用収容体24同士を容易に接続できる手段であればよい。さらに、止水部材8は、両側に隣接する各収容体2,22,25及びコーナー用収容体24間を密着させて隙間を作らないものであればよい。本実施のものではブチルゴムやシリコンなどの水膨張性を有する止水部材8を挟み込んでいるが、止水部材8は、モルタル等でもよく、水膨張性を有さなくてもよい。また、収容体支持具28は、上記実施形態で一部の収容体2のみに取り付けているが、その取付の対象は他の収容体22,24,25であっても可能である。さらに、マンホール周壁と本願の浮上防止装置との間にモルタルなどを充填し、浮上防止装置の設置の安定性を高めることもできる。   The manhole levitation preventing device of the present invention is within the scope described in the claims, and each configuration of the housings 2, 22, 25, the corner housing 24, the weight 3, and the like described in the above embodiments It is not limited to the shape of the parts. In the above-described embodiment, the accommodating bodies 2, 22 and 25 are arranged along the inner peripheral side of the manhole peripheral wall 1 by arranging six accommodating bodies 2, 22 and 25 having the same shape and the same size at intervals of approximately 60 °. Although what was arrange | positioned to the perimeter was shown, if the buoyancy can be surpassed without impairing the function of a manhole, the size and shape other than that may be sufficient. Each container 2, 22, 25 has a shape that can be arranged in a ring shape along the inner peripheral side of the manhole peripheral wall 1 and has a size that can be inserted from the surface opening of the manhole. . Further, the containers 2, 22, 24, 25 may be provided on the entire inner periphery of the manhole peripheral wall 1, or when there are obstacles such as scaffolds on the manhole peripheral wall 1, avoid them. Also good. Further, the material of the containers 2, 22, 24, 25 may be any material that can prevent the weight 3 from being corroded. For example, vinyl chloride which is low in cost and easily available and has good workability, and acrylic which has high durability and high internal visibility can be used. In addition, the connection part 9 between the containers 2 and 22 is also structured to be sandwiched between the two connection parts 9 and 9 in the above embodiment, but the containers 2, 22, 25 and the corner container Any means may be used as long as 24 does not fall down to the inner peripheral side of the manhole peripheral wall 1, and the containers 2, 22, 24, 25 may be fitted in unevenness. Further, the connecting rotation part 11 and the connected rotation part 12 between the accommodating bodies 2, 22, 25 and the corner accommodating body 24 are also connected in the connecting direction of the adjacent accommodating bodies 2, 22, 25 or the corner accommodating body 24. Any means can be used as long as it can easily connect adjacent containers 2, 22, 25 or corner containers 24. Furthermore, the water stop member 8 should just be what does not make a clearance gap by closely_contact | adhering between each accommodating body 2,22,25 and the corner accommodating body 24 which adjoin both sides. In the present embodiment, the water-stopping member 8 having water expandability such as butyl rubber or silicon is sandwiched, but the water-stopping member 8 may be mortar or the like and may not have water expandability. Moreover, although the container support tool 28 is attached to only some of the containers 2 in the above-described embodiment, the object of attachment may be another container 22, 24, 25. In addition, mortar or the like can be filled between the manhole peripheral wall and the rising prevention device of the present application to improve the installation stability of the rising prevention device.

1 マンホール周壁
2 収容体
3a,3b 重り
4 本体
4a 隔壁
5 蓋
6 保持溝(連結部)
7 止水部材用保持孔(連結部)
8 止水部材
9 接続部
10 既設管
11 連結回動部(連結部)
12 被連結回動部(連結部)
13 連結凸部(連結部)
14 連結凹部(連結部)
15 溝
16 水膨張製ゴム材(止水部材)
17 ゴム製パッキン(止水部材)
18 重り
22 収容体
23 窪み
24 コーナー用収容体
25 収容体
27 接続部
28 収容体支持具
29 凹溝(補強材配置溝)
30 切欠
31 嵌合溝
32 鉄筋(補強材)
33 水膨張性部材(止水部材)
34 ナット
S 収容部
U 底部
DESCRIPTION OF SYMBOLS 1 Manhole surrounding wall 2 Container 3a, 3b Weight 4 Main body 4a Partition 5 Lid 6 Holding groove (connection part)
7 Water retaining member holding hole (connecting part)
8 Water stop member 9 Connection portion 10 Existing pipe 11 Connection rotation portion (connection portion)
12 Connected rotation part (connection part)
13 Connection convex part (connection part)
14 Connection recess (connection)
15 Groove 16 Water expansion rubber material (water stop member)
17 Rubber packing (water-stop member)
18 Weight 22 Container 23 Recess 24 Corner Container 25 Container 27 Connection Unit 28 Container Support 29 Concave Groove (Reinforcing Material Disposition Groove)
30 Notch 31 Fitting groove 32 Reinforcing bar (reinforcing material)
33 Water-expandable member (water-stop member)
34 Nut S Housing part U Bottom

Claims (5)

周壁と底部で構成されるマンホールの重量を増大させ、液状化現象等の地盤変化による浮き上がりを防ぐために用い、
複数の収容体と、収容体に入れる重りと、を備えており、個々の収容体には、重りを入れるための収容部を有しており、収容部は隔壁で囲まれており、
個々の収容体は、マンホール周壁の内周面の一部領域だけを塞ぐ大きさであり、収容体を水平方向と垂直方向の両方に連続的に配置することで、マンホール周壁の内周面の全周を覆い、
水平方向に隣接する収容体同士を連結するため、収容体の側部には連結部を有しており、
隔壁の一部は開閉自在に取り付けてあり、隔壁を開放することで収容部に重りを収容可能で、重りを収容後に隔壁を閉鎖することで重りが外気から隔離されることを特徴とするマンホールの浮上防止装置。
Used to increase the weight of the manhole composed of the peripheral wall and the bottom, and prevent lifting due to ground changes such as liquefaction phenomenon ,
A plurality of containers, and a weight to be placed in the container , each container having a container for putting a weight, the container is surrounded by a partition,
Each container is sized to cover only a partial area of the inner peripheral surface of the manhole peripheral wall, and by continuously arranging the containers in both the horizontal direction and the vertical direction, the inner peripheral surface of the manhole peripheral wall Covering the entire circumference,
In order to connect the containers adjacent in the horizontal direction, the side of the container has a connecting part,
A part of the partition wall can be freely opened and closed, a weight can be accommodated in the accommodating portion by opening the partition wall, and the weight is isolated from the outside air by closing the partition wall after accommodating the weight. Anti-floating device.
収容体の下端部は、マンホール底部と一致する形状をなしており、また収容体の上端部には、他の収容体の下端部を嵌め込むため、内周側と外周側の二箇所で突出する接続部を設けてあることを特徴とする請求項1記載のマンホールの浮上防止装置。 The lower end of the container has a shape that matches the bottom of the manhole, and the upper end of the container protrudes at two locations on the inner peripheral side and the outer peripheral side in order to fit the lower end of another container. 2. A manhole levitation preventing device according to claim 1, further comprising a connecting portion . 隔壁は、収容体の底面および側面を形成する本体と、本体の上部開放口を閉塞する蓋と、で構成してあり、蓋は開閉自在であることを特徴とする請求項1又は2記載のマンホールの浮上防止装置。 The partition is composed of a main body that forms a bottom surface and a side surface of the container, and a lid that closes an upper opening of the main body, and the lid is openable and closable . Manhole rising prevention device. 隣接する収容体同士の境界には、止水部材を介在させてあることを特徴とする請求項1、2又は3記載のマンホールの浮上防止装置。 The apparatus for preventing a manhole from rising according to claim 1 , wherein a water-stopping member is interposed at a boundary between adjacent containers . 連結部は、雌雄状の嵌め込みによるものであり、隣接する収容体の一方には連結凸部を設け、他方には連結凹部を設け、連結凸部には止水部材を組み込んであることを特徴とする請求項4記載のマンホールの浮上防止装置。 The connecting part is formed by male-female fitting, wherein one of adjacent containers is provided with a connecting convex part, the other is provided with a connecting concave part, and the connecting convex part is incorporated with a water stop member. The manhole rising prevention apparatus according to claim 4.
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