JPH02204529A - Method of placing concrete using passway forming member - Google Patents

Abstract

PURPOSE:To improve the prevention of water leakage from a boundary section by joining a passway forming member along a wall surface of one concrete wall, by forming another concrete wall through the intermediary of the passway forming member, and by press-filling a sealant into the passway forming member. CONSTITUTION:A passway forming member 1 is composed of a semicircular cross-sectional shape half ring part 10, a first plate part 11 connected to one end of the half ring part 10 and a second plate part 12 connected to the other thereof and inclined by a predetermined angle. Then the passway forming member 1 is joined to a wall surface 20 of one of concrete walls 2 so as to define a semicircular passway 14 between the half ring part 10 and the one concrete wall 2, and the other concrete wall 3 is formed by placing concrete on the former concrete wall 2 with a boundary part in which the passway forming member 1 is disposed, therebetween. Then a fluidable sealant is press-filled into the passway 14 defined by the semicircular half ring part 10 so as to form a seal 4. Further, seal parts 40, 41 are formed in a grooved space part 2a and a gap between a concave and convex part 21 on the wall surface 20 and the first plate part 11, and a film-like seal part 43 is formed in a the gap 20a.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a concrete construction method using a passage forming member.

[Prior Art] Concrete structures cannot be completed within -membranes with -degrees of concrete pouring. Therefore, we decided to pour concrete in a certain area and form the concrete wall first, then pour concrete on the wall side of the first concrete wall and form the other concrete wall next to it. There is.

[Problems to be Solved by the Invention] In concrete structures, water sometimes leaks from the boundary between the first concrete wall that is cast and the second concrete wall that is cast later. The main reason for this is that a surface film is generated on the surface of the concrete wall at the same time as the concrete cures and hardens. This is thought to be because the concrete wall in 1 and the concrete wall in 2 did not integrate, leaving a small gap between them.

Particularly in recent years, underground concrete structures have tended to have deeper depths, for example, 30 to 50 m, and therefore water pressure has become considerably high, making water leakage from the boundaries of concrete walls even more of a concern.

The present invention was made in view of the above-mentioned conventional situation, and its purpose is to improve the problem of water leakage from the boundary between the concrete wall that was cast first and the other concrete wall that was cast later. An object of the present invention is to provide a method for constructing concrete using a passage forming member that can be used to form concrete.

[Means for Solving the Problems] A concrete construction method using the passage forming member of the present invention includes joining the passage forming member to the wall surface of one concrete wall, and extending the passage forming member and the wall surface along the wall surface. With the passage formed, there is a holding process in which the passage forming member is held on one concrete wall, and concrete is poured on the wall side of the one concrete wall to form another concrete wall. A casting process in which a passage forming member is interposed at the boundary between the concrete wall and the concrete wall, and a flowable sealant is press-fitted into the passage formed by the passage forming member, and the concrete wall is connected to the other concrete wall. A sealing step of sealing at least a portion of the boundary portion with the wall is performed in sequence.

The passage forming member used in the present invention has a predetermined cross-sectional shape and extends long along the wall surface of one concrete wall. When the passage forming member is joined to the wall surface of one concrete wall, it forms a passage extending along the wall surface. The material for the passage forming member may be metal, resin, rubber, etc., but it is necessary to have enough strength to prevent the passage from closing due to the pressure during concrete pouring. In addition.

The cross-sectional shape of the passage can be appropriately selected as required, such as semicircular or triangular.

In the holding step, the passage forming member is held on the wall surface of one concrete wall. As a holding means, nailing, bolting,
Adhesive fasteners, metal fittings, etc. can be used.

In this state, a long passageway is formed along the wall surface by the wall surface of one concrete wall and the passage forming member.In the pouring process, concrete is poured on the wall side of one concrete wall, form another concrete wall adjacent to this concrete wall. As a result, the passage forming member is interposed at the boundary between one concrete wall and another concrete wall.

In the sealing step, a fluid sealant is press-fitted into the passage formed by the passage forming member to seal at least a portion of the boundary between one concrete wall and another concrete wall. When press-fitting the sealant, the sealant may be press-fitted into the passageway from the end side in the length direction of the passage-forming member, or the sealant may be press-fitted into the passageway through an injection hole that penetrates the passage-forming member in the thickness direction. You can. As the sealant to be press-fitted, a material that has fluidity during press-fitting and hardens after press-fitting, such as rubber, resin, etc., specifically, silicone rubber, foamable urethane, etc. can be used. In particular, from the viewpoint of ensuring sealing properties, those with high swelling properties, good fluidity, and good permeability are preferred. A vulcanizing agent, a vulcanization accelerator, a filler, an anti-aging agent, a foaming agent, a plasticizer, a curing agent, etc. can be added to the rubber as necessary.

[Function] In the concrete structure constructed by the construction method of the present invention,
Sealing performance at the boundary between one concrete wall and another concrete wall is improved.

[Example] Hereinafter, the concrete construction method of the present invention will be explained according to an example shown in FIGS. 1 to 5.

First, the passage forming member 1 used in the construction method of this embodiment will be explained. The passage forming member 1 is made of steel, extends long, and has a predetermined cross-sectional shape.

As shown in FIG. 2, the cross-sectional shape of the passage forming member 1 is as follows.
It is formed of a half ring part 10, a first plate part 11 connected to one end of the half ring part 10, and a second plate part 12 connected to the other end of the half ring part 10 and inclined at a predetermined angle. ing. Note that the half-ring portion 10 of the passage forming member 1 needs to have a strength that will not deform even under the pressure of pouring concrete.

In the implementation method of this example, first, concrete is poured into a space divided by appropriately assembled concrete frames,
The concrete is cured and solidified to form one concrete wall 2 as shown in FIG.

In the holding process, as shown in FIG.
to hold. In this state, the wall surface 20 of one concrete wall 2 and the half ring portion 10 of the passage forming member 1 form a passage 14 having a semicircular cross section. The passage 14 extends long along the wall surface 20 of the concrete 2.

In the pouring process, concrete is poured into a space defined by a concrete frame, and the concrete is cured and solidified, thereby allowing one concrete wall 2 to form another concrete wall 3 adjacent to it, as shown in Fig. 3. Form. As a result, the passage forming member 1 is interposed at the boundary between one concrete wall 2 and another concrete wall 3. In the pouring process, as shown in FIG. 3, between the second plate part 12 and the wall surface 20,
A groove-like space 2a into which concrete does not enter is formed. The groove/shaped space 2a extends in the direction in which the passage forming member 1 continues.

In the sealing process, a fluid sealing agent is press-fitted into the passageway 14 defined by the half-ring part 10 of the passageway forming member 1, and the inside of the passageway 14 is charged and the sealant is solidified, as shown in FIG. A sealing portion 4 is formed to seal the boundary between one concrete wall 2 and another concrete wall 3. Here, the surface 4a of the sealing part 4 and the concrete wall 2
The surface 4b of the seal portion 4 is in close contact with the wall surface 20 of the seal portion 4.
and the inner surface of the half-ring part 10 of the passage forming member 1, and furthermore, minute unevenness 21 is formed on the surface of the wall surface 20, so that the second plate part 12 is
A minute gap is formed between the root portion and the wall surface 20, and the sealing agent enters into the groove-shaped space 2a through the gap and fills it to form the sealing portion 40. is the gap 20 between concrete wall 2 and concrete wall 3
A membrane-like seal portion 43 is formed which also enters the gap 20a and fills the gap 20a. As a result, the boundary between one concrete wall 2 and another concrete wall 3 is sealed.

When press-fitting the sealant, sealing agent is inserted into the concrete wall 3 at predetermined intervals along the length of the passage forming member 1 so as to penetrate through the concrete wall 3, with both lengthwise ends of the passage forming member 1 blocked. A sealant is press-fitted into the passage forming member 1 through the formed press-in port 3a. Note that as the sealant is press-fitted, the air in the passage 14 and the groove-shaped space 2a is forced into the gap 2.
It is discharged to the outside of the concrete wall 2 and the concrete wall 3 via 0a.

As explained above, in the concrete structure constructed using the construction method of this embodiment, the boundary between the first concrete wall 2 and the second concrete wall 3 is sealed, and the first concrete wall 3 is sealed. The water-stopping effect between the wall 2 and the other concrete wall 3 is further enhanced. Here, as shown in FIG. 5, minute unevenness 21 is formed on the wall surface 20 of the previously cast concrete wall 2, and this unevenness 21 and the passage forming member 1 First plate part 11
The sealing agent also enters the gap between the uneven portion 21 and the first plate portion 11 of the passage forming member 1, and overflows from the gap between the uneven portion 21 and the first plate portion 11 of the passage forming member 1 to form a film-like seal portion 41.

Therefore, the sealing performance between the first plate part 11 and the second plate part 12 and the concrete wall 2 can be further improved, and the water-stopping effect can be further ensured.

Another embodiment of the invention is shown in FIGS. 6-8.

In this embodiment, as shown in FIG.
It is formed of a foam body 61 that is applied to the outer wall surface of. Vibro 0, foam 61 is wall surface 2 of concrete wall 2
It extends along 0. Note that an appropriate number of through holes are formed in the portion of the vibro 0 that faces the foam 61. In the implementation method of this embodiment, the Vibro 0 and the foam 61 are held adjacent to the wall surface 20 of one concrete wall 2 with nails, metal fittings, etc. Next, in the same manner as in the embodiment described above, concrete is poured to form another concrete wall 3 as shown in FIG.

In this case, the foam 61 requires a certain level of strength so as not to collapse significantly. Thereafter, a fluid sealant is press-fitted into the passage 60a of the vibro 0.

Then, the sealant discharged from the through hole formed in the peripheral wall of the vibro 0 causes the foam 61 to contract due to the pressure applied when the sealant is press-fitted. Once the sealant has solidified, a loading part 63 loaded into the passage 60a of the vibro 0 is formed, and
A sealed portion 7 is formed in the area where the foam 61 has shrunk. The seal portion 7 is in close contact with the concrete wall 2.3, increasing the water-stopping effect between the two.

[Effects of the Invention] According to the concrete construction method using the passage forming member of the present invention, the sealing performance at the boundary between the first concrete wall placed earlier and the other concrete wall placed later is improved, It can enhance the water stopping effect.

Therefore, it is suitable for constructing underground concrete structures that are deep and where there is a concern about water leakage.

[Brief explanation of the drawing]

Figures 1 to 5 show an embodiment of the present invention, with Figure 1 being a sectional view of a concrete wall that has been previously cast, and Figure 2 being a sectional view of a concrete wall that has undergone a holding process. It is. FIG. 3 is a cross-sectional view of the concrete wall after the pouring process has been carried out. FIG. 4 is a cross-sectional view of the concrete wall after the sealing process has been performed, and FIG. 5 is a cross-sectional view of the vicinity of the main part of the passage forming member after the sealing process has been performed. 6 to 8 show other embodiments of the present invention, in which FIG. 6 is a diagram equivalent to FIG. 2, FIG. 7 is a diagram equivalent to FIG. 3, and FIG. 8 is a diagram equivalent to FIG. 4. In the figure, 1 is a passage forming member, 2 is a concrete wall, and 3 is a concrete wall.
4.7 indicates another concrete wall, 4.7 indicates a seal portion, and 41 indicates a membrane seal portion.

Claims (1)

[Claims] (1) A passage forming member is joined to the wall surface of one concrete wall, and the passage forming member and the wall surface form a passage extending along the wall surface, and the passage forming member is attached to the one concrete wall. a holding step of holding; pouring concrete on the wall surface side of one of the concrete walls to form another concrete wall; and forming the passage forming member at the boundary between one of the concrete walls and the other concrete wall. a pouring step of press-fitting and loading a fluid sealant into the passage formed by the passage forming member, and filling at least the boundary portion between one of the concrete walls and the other concrete wall. A method for constructing concrete using a passage forming member, characterized in that a sealing step for sealing a part of the concrete is performed in sequence.