JP2010275724A - Structure for reinforcing manhole - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To reinforce an existing manhole in any shape by simple work. <P>SOLUTION: A reinforcing layer (more specifically, an ultrahigh-strength mortar layer formed by pouring ultrahigh-strength mortar) 13 is arranged on a position along a lower floor slab 10 of the manhole 1 in such a manner as to be interposed between two side walls facing each other (e.g. between side walls 12a and 12c or between side walls 12b and 12d). An external force F<SB>1</SB>acting on the side walls can be received by the reinforcing layer 13, and the manhole 1 can be reinforced. Since the reinforcing layer 13 can be formed by pouring the ultrahigh-strength mortar, the manhole in any shape can be reinforced, and also the reinforcing work is simplified. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

    The present invention relates to a manhole reinforcing structure for reinforcing an existing manhole having a lower floor slab, an upper floor slab, and a side wall.

    The manholes laid on the road are usually made of reinforced concrete and, of course, have a strength sufficient to withstand the weight of the passing vehicle.

    However, manholes installed in times when traffic volume is low are often insidious, and in recent years when vehicle weight and traffic volume tend to increase, there is a concern about insufficient strength. Therefore, various reinforcing structures have been proposed for reinforcing such unsettled existing manholes (see, for example, Patent Documents 1 and 2).

    FIG. 2 is a cross-sectional view showing an example of a conventional reinforcing structure for manholes. Reference numeral 20 denotes a manhole embedded in the ground, and reference numeral 21 denotes a plurality of manholes laid along the inner wall surface of the manhole 20. The reinforcing block is shown. These blocks 21 are bonded with an adhesive.

JP 2008-002175 A JP 2002-129589 A

    However, in the case of the reinforcing structure shown in FIG. 2, it is necessary to carry the reinforcing block 21 into the manhole, lay it at a predetermined position of the manhole, and further adhere it with an adhesive. It was difficult to work in a narrow manhole. In particular, in the case of a lantern where telephone lines and communication cables are laid, these lines and the like are also laid in the manhole, which is particularly troublesome.

    An object of the present invention is to provide a manhole reinforcement structure that solves the above-described problems.

The invention according to claim 1 is illustrated in FIGS. 1 (a) to 1 (c) and includes an existing manhole (1) having a lower floor slab (10), an upper floor slab (11), and a side wall (12). In the manhole reinforcement structure
The lower floor slab (10) so as to be interposed between two opposing side wall portions (for example, portions indicated by reference numerals 12a and 12c and portions indicated by reference numerals 12b and 12d) in the side wall (12). And a reinforcing layer (13) such as an ultra-high strength mortar layer laid along the upper surface of the substrate.

    The invention according to claim 2 is the support according to the invention according to claim 1, wherein the support is arranged along the lower surface of the upper floor slab (11) so as to support at least a part of the side wall (12). It is provided with.

The invention according to claim 3 is illustrated in FIG. 1 (d), and in the invention according to claim 2, the anchor bolt is arranged so that the support works along at least a part (12a) of the side wall. (25) is a shape steel (24) fixed to the upper floor slab (11),
A mortar (26) is filled at least between the section steel (24) and the upper floor slab (11) or between the section steel (24) and the side wall (12a). .

    The numbers in parentheses are for the sake of convenience indicating the corresponding elements in the drawings, and therefore the present description is not limited to the descriptions on the drawings.

    According to the first aspect of the present invention, a reinforcing layer such as an ultra-high strength mortar layer is interposed between two opposing side wall portions, so that the force acting on the side wall portion is applied to the reinforcing layer. The existing manhole (specifically, the side wall) can be reinforced. Further, the reinforcing layer in the present invention is formed by pouring ultra-high strength mortar or ultra-high-strength concrete, so what is the shape of the bottom of the manhole (that is, a polygon such as a square or a pentagon, Reinforcement can be performed even in a substantially circular shape, an elliptical shape, and other shapes. Furthermore, according to the present invention, a simple operation of pouring ultra-high-strength mortar or placing ultra-high-strength concrete is sufficient, and the work in a narrow space in the manhole can be reduced.

    According to the invention which concerns on Claim 2 and 3, the upper part of a side wall can be reinforced by support.

FIG. 1 (a) is a cross-sectional view (vertical cross-sectional view) showing an example of a manhole reinforcing structure according to the present invention, and FIG. 1 (b) is a cross-sectional view taken along the line BB in FIG. (A) CC sectional drawing of the (a), the same figure (d) is an expanded sectional view which shows an example of the shape and arrangement | positioning state of a support work. FIG. 2 is a cross-sectional view showing an example of a conventional reinforcing structure for manholes.

    Hereinafter, an embodiment of the present invention will be described with reference to FIG.

The present invention relates to a reinforcing structure for reinforcing an existing manhole, and the manhole is represented by reference numeral 1 in FIG.
A lower floor slab 10 that forms the bottom of the manhole 1,
An upper floor slab 11 that forms the ceiling of the manhole 1,
A side wall 12 forming the side of the manhole 1
Etc. are constituted. In addition, this manhole 1 is shown in FIG.
The side wall portion indicated by reference numeral 12a and the side wall portion indicated by reference numeral 12c. The side wall portion indicated by reference numeral 12b and the side wall portion indicated by reference numeral 12d. The side wall portion indicated by reference numeral 12b and the side wall portion indicated by reference numeral 12e. The side wall portions indicated by reference numeral 12e are arranged in a state of being opposed to each other, but between the two opposite side wall portions, that is,
Between the side wall part 12a and the side wall part 12c, between the side wall part 12b and the side wall part 12d, between the side wall part 12b and the side wall part 12e, and between the side wall part 12c and the side wall part 12e. In this way, a reinforcing layer 13 is laid along the upper surface of the lower floor slab 10 (see FIGS. 1A and 1B). Here, “the state in which the reinforcing layer is interposed between two opposing side wall portions” means that one side wall portion (for example, the side wall portion 12a) to the other side wall portion (for example, the side wall portion 12c). The reinforcing layer is continuously arranged until the force acting on the side wall portion (FIG. 1 (a)
Arrow shown by F _1, it means a state capable of receiving the force) acting in the direction along the surface of the lower deck 10 in. Here, as the reinforcing layer,
・ A layer (super high strength mortar layer) formed by pouring ultra high strength mortar,
・ A layer formed by placing ultra high strength concrete (ultra high strength concrete layer)
And so on. According to the present invention, since the reinforcing layer 13 is interposed between two opposing side wall portions (for example, between the side wall portion 12a and the side wall portion 12c), a force acting on the side wall portion is provided. F ₁ can be received by the reinforcing layer 13 and existing manholes (specifically, the side wall portions 12a,...) Can be reinforced. In addition, since the reinforcing layer 13 in the present invention is formed by pouring ultrahigh strength mortar or ultrahigh strength concrete, the shape of the bottom portion of the manhole 1 (that is, a multiplicity such as a quadrangular shape or a pentagonal shape). Reinforcement can be performed even in the case of a square shape, a substantially circular shape, an oval shape, and other shapes. Furthermore, according to the present invention, a simple operation of pouring ultra-high strength mortar or placing ultra-high-strength concrete is sufficient, and the work in a narrow space in the manhole can be reduced.

By the way, Fig. 1 (a)
In the structure shown in (c), the reinforcing layer 13 is laid on substantially the entire upper surface of the lower floor slab 10 so as to be in contact with all the side wall portions 12a, but not on the entire upper surface. It is not excluded from the scope of the present invention that a portion is arranged so as to be in contact with only one set of side wall portions. This is because even in such a state, the force acting on the side wall portion (side wall portion in contact with the reinforcing layer) can be received by the reinforcing layer. That is, “a reinforcing layer is interposed between two opposing side wall portions” means “a reinforcing layer is interposed between at least one pair of side wall portions”.

In addition, if the reinforcement layer 13 is arrange | positioned along the lower floor slab 10 as mentioned above, the lower part of the side wall 12 will be reinforced, but the upper part of the side wall 12 arrange | positions the support work 14 instead of a reinforcement layer. It is better to reinforce. Specifically, the support work 14 may be arranged along the lower surface of the upper floor slab 11 so as to support at least a part of the side wall 12. 1 (a) to 1 (c) includes a frame-like portion 14a arranged so as to contact the side wall portions 12a, 12b, 12c, and 12d, and a state shown in FIG. 1 (c). However, the present invention is not limited to this and may have a shape other than that shown in the figure. If an attempt is made to form a layer of ultra high strength mortar or ultra high strength concrete in the upper space in the manhole (that is, the portion along the upper floor slab 11), it will be necessary to form a mold or the like, and the work will be complicated. When the support work 14 is installed, such trouble is reduced. The support 14 may be made of an aluminum material that is excellent in weight reduction and durability. Here, as shown in FIG. 1 (d), a structural steel (support work) 24 is fixed to the upper floor slab 11 with anchor bolts 25 along the part 12a of the side wall 12, and at least the structural steel 24 and the steel A mortar 26 may be provided between the upper floor slab 11 or between the shape steel 24 and the side wall portion 12a. When configured in such may receive a force F ₂ acting on the side wall portion 12a at the anchor bolts 25 through the mortar 26 or section bar 24, it is possible to reinforce the existing manhole. The shape steel 24 is sufficient if it can be installed in the manhole, and it is not necessary to finely adjust the shape of the shape steel 24 according to the shape and size of the manhole to be reinforced. Can be simplified. By the way, the shape steel 24 and the side wall portion 12a may be slightly separated, and the mortar 26 may be filled in the gap. In such a case is able to place a shape steel 24 irrespective of whether the side wall portion 12a is flat, moreover, the force F ₂ acting on the side wall portion 12a, the gap (the form It is transmitted to the section steel 24 through the mortar 26 filled in the gap between the steel 24 and the side wall portion 12a, and the side wall portion 12a can be reliably reinforced. Figure 1 (d)
The shape steel 24 shown in FIG. 5 is a grooved steel, but may be any shape as long as it functions as a mold for the mortar 26. For example, a shape steel such as an H-shaped steel or an L-shaped steel may be used. If a sealing member is used, another shape of steel may be used. By the way, Fig. 1 (d)
Then, although it shows only about the side wall part shown by the code | symbol 12a, you may arrange | position the above-mentioned shape steel 24 so that the other side wall parts 12b, ... may be followed.

The present invention also provides:
・ Sewer pipes,
・ Tubes for telephone lines,
・ It can be applied to manholes of any kind, such as pipes for other communication cables.

1 Manhole 10 Lower floor slab 11 Upper floor slab 12 Side wall 12a, 12b, 12c, 12d Side wall part 13 Strengthening layer

Claims (3)

In the manhole reinforcement structure that reinforces an existing manhole having a lower floor slab, an upper floor slab, and a side wall,
A reinforcing layer such as an ultra-high strength mortar layer laid along the upper surface of the lower floor slab so as to be interposed between the two opposing side wall portions of the side wall;
A manhole reinforcement structure characterized by comprising: A supporting work arranged along the lower surface of the upper floor slab so as to support at least a part of the side wall;
The manhole reinforcement structure according to claim 1, comprising: The support is a shape steel fixed to the upper slab by anchor bolts along at least a part of the side wall,
Mortar is filled at least between the shape steel and the upper floor slab, or between the shape steel and the side wall,
The manhole reinforcement structure according to claim 2, wherein:

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