JPH09170335A - Repairing method of cracking inducing joint - Google Patents

Abstract

PROBLEM TO BE SOLVED: To make it possible to surely execute sealing by directly grouting cracks. SOLUTION: The repairing method is installed in the central part of a section decrease part 12 trying to form a crack inducing plate 16 to installed a plurality of grouting pieces 181-1 -184-4 . One end side of each of the grouting pipes 181-1 -184-4 is closed with filler 20. One end side of each of them closed with the filler 20 is so installed that it is positioned to the in-plane of the section decrease part 12. The grouting pipes 181-1 -184-4 are slantly crossed oblique in the longitudinal direction of a structure 10 to be built, the length of the other end side is so set that it is projected only to one side of the structure l10, and the projected end sides of the grouting pipes 181-1 -184-4 are opened. After the completion of the installation of the inducing plate 16 and 181-1 -184-4 , a form for forming a notched groove 14 is installed to place concrete, and the structure 10 is built. When cracks occur in the section decrease part 12, the filler 20 is cut off, and grout is grouted from the grouting pipes 181-1 -184-4 .

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for repairing crack-induced joints.

[0002]

2. Description of the Related Art It is sometimes difficult to suppress the temperature cracking phenomenon that occurs in a wall-shaped structure made of mass concrete by controlling the mixing ratio of materials. In such a case, a method is known in which cross-section reduced portions are provided at regular intervals along the longitudinal direction of the structure, cracks are induced in this cross-sectional reduced portion, and the occurrence of cracks in other portions is prevented, The reduced cross section provided for this purpose is called a crack-inducing joint.

By the way, the cracks induced in the structure must be properly repaired in order to prevent water leakage from the portion and corrosion of the reinforcing bar. Therefore, conventionally, for example, the repair is performed by the method shown in FIG. In the repairing method shown in FIG. 1A, in order to form the cross-section reduced portion 2 in the concrete structure 1, the backup material 4 is formed in the trapezoidal notch groove 3 provided on the outer periphery of the structure 1.
Is inserted, and the elastic sealing material 5 is filled on the outside thereof.

Further, in the repairing method shown in FIG. 3 (b), the adhesive 6 is applied to the inner peripheral surface of the cutout groove 3 and the resin mortar 7 is filled on the adhesive 6. However,
Such a conventional repair method has the technical problems described below.

[0005]

That is, in the conventional repairing method in which the elastic sealing material 5 and the resin mortar 7 are filled in the notch groove 3 for forming the cross-section reduced portion 2, the crack generated inside the concrete is directly damaged. It cannot be repaired. Further, in such a conventional repairing method, when sealing is insufficient or when the resin mortar 7 is not sufficiently adhered, water enters through the gaps and causes corrosion of the reinforcing bars.

The present invention has been made in view of the above problems, and an object thereof is to inject a curing agent directly into cracks generated inside, so that the curing agent can be sufficiently and surely. It is to provide a method of repairing a crack-induced joint that enables sealing. Another object of the present invention is to provide a repair method capable of easily repairing a crack even if one of the structures is close to or in contact with the natural ground.

[0007]

In order to achieve the above object, the present invention provides a part having a reduced cross section in a concrete structure, induces a crack in the reduced part, and causes the crack to occur. In the method of repairing a crack-induced joint that repairs afterwards, a plurality of injection pipes that have one end side closed in the plane of the cross-section reduced portion and the other end side project outside the concrete structure to be constructed are installed. In addition, after inducing a crack in the cross-section reduced portion, the closed portion of the injection pipe is opened and the curing agent is injected from the other end side of the injection pipe. According to such a repair method, the hardening agent can be directly injected into the crack generated inside the concrete structure from the injection pipe. Further, the injection pipe may be arranged such that the closed one end side is located on an intersection of lattices divided at equal intervals with respect to a surface of the cross-section reduced portion. By arranging the one end side of the injection pipe in this way, it is possible to reliably inject the curing agent into the cracks that randomly occur in the plane of the reduced cross-section. Further, in the injection pipe, the closed portion is located at one end in the thickness direction of the cross-section reduced portion, and when the closed portion is opened, holes having different lengths are formed in the extension direction of the injection pipe. can do. When the closed portion of the injection pipe is opened in this manner and the drilled hole is extended and formed, the hardening agent can be reliably injected into cracks that randomly occur in the thickness direction of the cross-section reduction portion. Further, in the repair method, a crack inducing plate may be installed in the central portion of the cross-section reduced portion, and a peeling agent that prevents adhesion of concrete may be applied to the crack inducing plate. According to the repairing method thus configured, the crack inducing plate coated with the release agent is installed in the central portion of the cross-section reduced portion, so that the crack can be surely induced in the cross-sectional reduced portion. Furthermore, in the repair method, the injection pipe can be installed so as to be oblique to the surface direction of the cross-section reduced portion, and the other end side of the injection pipe protrudes only to one surface side of the concrete structure. When the injection pipe is installed at such a position, even if the back side of the protruding portion of the injection pipe is close to or in contact with the ground, the curing agent can be surely injected into the cracks generated inside.

[0008]

Embodiments of the present invention will be described below in detail with reference to the accompanying drawings. 1 and 2 show an embodiment of a method for repairing a crack-induced joint according to the present invention. The repair method shown in the figure is a case where the present invention is applied to a structure 10 made of mass concrete having a substantially vertical cross section, and when the structure 10 is constructed,
Along the longitudinal direction of the structure 10, a cross-section reducing portion 12 for inducing a crack is formed.

The cross-section reduction portion 12 is a portion in which the size of the vertical cross section of the structure 10 is reduced, and for this reason, a notch groove 14 having a trapezoidal cross section is formed around the outer periphery of the structure 10. The size of the notch groove 14 is set so that the cross-section reduction rate is about 20% or more. Also, in FIGS.
Although only one position is shown, the notch groove 14 is formed at a plurality of positions along the longitudinal direction of the structure 10 at intervals of about 4 to 5 m.

When carrying out the repairing method of this embodiment, first, the crack inducing plate 16 is installed in the center of the cross-section reduced portion 12 to be formed. This crack inducing plate 16
Is a shape similar to the vertical cross section of the structure 10, and is formed into a substantially square shape with a steel plate, a synthetic resin plate, a precast plate, or the like, and a peeling agent that prevents adhesion of concrete to the outer peripheral surface thereof, for example, grease is used. It is applied beforehand.

The crack inducing plate 16 is installed at a predetermined position.
16 injection pipes 18 in place_1-1~ 18
_4-4Is installed. This injection pipe 18_1-1~ 18_4-4
Is made of synthetic resin such as vinyl chloride,
Each injection pipe 18_1-1~ 18 _4-4One end side of
Blocked by filling with a filling material 20 such as mortar.
Have been. Injection pipe 18_1-1~ 18_4-4Filler 20
The one end side closed by is located in the plane of the cross-section reduction portion 12.
It is installed to do.

Twist Specifically, each injection pipe 18 _1-1 ~
The installation state of one end side of 18 _4-4 is set on the intersections of the lattice that divides the cross-section reduced portions 12 to be formed at substantially equal intervals, and as shown in a part of FIG.
It is arranged so as to face one end side in the thickness direction of the cross-section reduced portion 12. And each injection pipe 18 _1-1 to 18 _4-4
Is the surface direction of the cross-section reduced portion 12 (the structure 10 to be formed).
(Vertical cross section direction of), obliquely crossed at an angle of about 45 °,
The other end side is set to have a length so as to project only to one side surface side of the structure 10, and each of the injection pipes 18 _1-1 to 18 _4-4.
The projecting end sides of are open.

Crack inducing plate 16 and injection pipe 18
_When the installation of _1-1 to 18 _4-4 is completed, a formwork for forming the notch groove 14 is installed, concrete is poured, and the structure 10 is constructed. At this time, since one end side of each of the injection pipes 18 _1-1 to 18 _4-4 is closed with the filler 20, concrete does not flow into the inside.

[0014] Then, when the crack area reduction portion 12 occurs, cutout grooves 14 formwork is removed for forming, from the projecting end side by inserting drill each injection pipe 18 _1-1 to 18 in _4-4 , The filler 20 on one end side is cut, and each injection pipe 1
8 _1-1 to 18 _4-4 are opened. Drilling with a drill of this time, in the thickness direction of the cross-section decreased portion 12, varied in any length that is formed on the extension of the injection pipe 18 _1-1 to 18 _4-4, randomly set.

That is, in FIG. 2, the injection pipe 18
_1-3The drilling length of is the thickness of the cross-section reduced portion 12 at the tip.
It extends almost to the center of the direction. Also injection pipe
18 _2-3The drilling length of the
Is extended so as to face the back side.
Furthermore, the injection pipe 18_3-3The drilling length of
It is extended so as to face the front side of the crack inducing plate 16.
You. Furthermore, the injection pipe 18_4-3The drilling length of
Where the tip of the end faces the other end side in the thickness direction of the cross-section reduced portion 12
It has been extended to Oki.

When the openings and drilling of the injection pipes 18 _1-1 to 18 _4-4 are completed, the injection pipes 18 _1-1 to 18 _4-4 are completed.
An injection pump is connected via a hose, and a hardening agent such as cement milk or an inorganic crack injection agent is injected by the injection pump. Then, the repair of the crack-inducing joint is completed by hardening the injected hardening agent. In addition,
In this case, the curing agent is injected over the entire length of each of the injection pipes 18 _1-1 to 18 _4-4 , and each of the injection pipes 18 _1-1 to 18
There is no cavity in _4-4 , and the portion of the structure 10 protruding outward is cut and removed. In addition, in the notch groove 14,
Similar to the conventional repair method described above, the elastic sealing material and the resin mortar are filled.

[0017] Now, according to the configured method of repairing cracks induced joint as described above, the injection pipe 18 _1-1 to 18
_{As for 4-4} , one end side thereof is located in the plane of the cross-section reduction portion 12, so that the concrete structure 1 of the cross-section reduction portion 12 is
The injection pipe 18 _1-1 ~
Hardener can be injected directly from 18 _4-4 .

Therefore, it is possible to reliably repair the cracks generated inside the cross-section reduced portion 12, and it is possible to inject the hardening material even when the member of the concrete structure 10 has a large thickness. Also, the injection pipe 18 _1-1 to 1
In 8 _4-4 , the closed one end side is located at the intersections of the lattices divided at equal intervals with respect to the plane of the cross-section reduced portion 12, so that the cross-section reduced portion 12 is randomly arranged in the plane. The curing agent can be reliably injected into the cracks that occur.

Further, the injection pipes 18 _1-1 to 18
The closed portion _4-4 is located at one end in the thickness direction of the cross-section reduced portion 12, and when opening the closed portion, the length of the closed portion is increased in the extending direction of the injection pipes 18 _1-1 to 18 _4-4. Since different drilling holes are formed, it is possible to reliably inject the curing agent into the cracks that randomly occur in the thickness direction of the cross-section reduced portion 12.

Furthermore, in the repairing method of this embodiment, the crack inducing plate 16 is installed in the central portion of the cross-section reduced portion 12, and the crack inducing plate 16 is coated with a release agent for preventing the adhesion of concrete. Therefore, the cross-section reduced portion 12
It can surely induce cracks. Further, in the repair method of this embodiment, the injection pipe 18 _1-1 to 18
_{Since 4-4} is installed so as to be oblique to the surface of the cross-section reduced portion 12 and the other end side thereof projects to only one surface side of the concrete structure 10, for example, the injection pipe 18 _1-1
Even if the rear surface side of the part where -18 _4-4 projects is close to or in contact with the natural ground, the curing agent can be reliably injected into the cracks generated inside.

[0021] In the above embodiment, one end of the infusion pipes 18 _1-1 to 18 _{4 4} closed by the filler 20, to the plane of the cross-section decreased portion 12, the grating is divided into equal intervals was exemplified when placed on intersections, the practice of the present invention is not limited to, filler pipe 18 _1-1 to 18
The arrangement pattern of _4-4 can be set arbitrarily. In addition, the cross-sectional reduced portion 1 of each injection pipe 18 _1-1 to 18 _4-4
The arrangement of 2 in the thickness direction is not limited to the state in the above embodiment, and can be set arbitrarily. further,
In the above-mentioned embodiment, the case where the crack inducing plate 16 is installed in the center of the cross-section reduced portion 12 is illustrated, but the cross-section reduced portion 1
If the size of 2 is properly set, the installation of the induction plate 16 is not always necessary.

[0022] Furthermore, the injection pipe 18 _1-1 to 18
The arrangement state of _4-4 is not limited to 45 ° shown in the above-mentioned embodiment, but may be an acute angle than this, and the extension direction should be extended in the direction indicated by the phantom line in FIG. Good.

[0023]

As described above in detail in the embodiments,
According to the method of repairing a crack-induced joint according to the present invention,
Since the hardening agent can be injected into the cracks generated inside the cross-section reduced portion of the structure, reliable repair can be performed, and the bending resistance and waterproof property of the structure can be improved.

According to the structure of claim 2, one end side of the injection pipe for injecting the curing agent is provided with respect to the surface of the reduced cross section.
Since they are arranged on the intersections of the lattices divided at equal intervals, the reliability of repairing cracks randomly generated in the plane of the reduced cross section is further improved. According to the configuration of claim 3, since the drilling holes having different lengths are formed in the extension direction of the injection pipe, the reliability of repairing cracks randomly generated in the thickness direction of the reduced cross section is further improved.

According to the structure of claim 4, since the crack inducing plate is arranged at the center of the cross-section reduced portion, the crack can be surely induced in this portion. According to the configuration of claim 5, even when the natural grounds are close to or in contact with each other, the hardening agent can be surely injected into the crack.

[Brief description of the drawings]

FIG. 1 is a perspective view of a construction state showing an embodiment of a method of repairing a crack-induced joint according to the present invention.

FIG. 2 is a longitudinal sectional view of FIG.

FIG. 3 is an explanatory diagram of a conventional repair method.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 10 Structure 12 Cross-section reduction part 14 Notch groove 16 Crack induction plate 18 _1-1 to 18 _4-4 Injection pipe 20 Mortar

Claims (5)

[Claims] 1. A method for repairing a crack-inducing joint, comprising providing a section-reduced portion in a part of a concrete structure, inducing a crack in the section-reduced portion, and subsequently repairing the crack caused by the induction. One end side is closed in the plane of the part,
A plurality of injection pipes projecting to the outside of the concrete structure whose other end side is constructed are installed, and after inducing cracks in the cross-section reduction portion, the closed portion of the injection pipe is opened, and the injection pipe concerned A method for repairing crack-induced joints, which comprises injecting a curing agent from the other end side of the. 2. The injection pipe is characterized in that the closed one end side is located on an intersection of lattices divided at equal intervals with respect to a surface of the cross-section reduction portion.
A method for repairing the crack-inducing joint described. 3. The injection pipe has a closed portion located at one end in the thickness direction of the reduced cross-section portion, and when opening the closed portion, in the extension direction of the injection pipe,
The drilled holes having different lengths are formed.
Alternatively, the method of repairing a crack-inducing joint as described in 2. 4. A crack inducing plate is installed in the central portion of the cross-section reduced portion, and a release agent for preventing adhesion of concrete is applied to the crack inducing plate. Method for repairing crack-inducing joints described in paragraph. 5. The injection pipe is installed so as to be oblique to the surface direction of the reduced cross-section portion, and the other end side of the injection pipe protrudes only to one surface side of the concrete structure. 4. The method for repairing a crack inducing joint according to any one of 4 above.