JP2013217141A - Amplification reinforcement structure and amplification reinforcement method of existing concrete structure - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an amplification reinforcement structure of an existing concrete structure, capable of integrating and reinforcing new concrete and existing concrete.SOLUTION: The amplification reinforcement structure of an existing concrete structure comprises: existing concrete; new concrete to be installed on a surface of the existing concrete; and a prestress imparting member disposed over the existing concrete and the new concrete. In the amplification reinforcement structure of the existing concrete structure, the prestress imparting member includes a rod-like tension member inserted to an anchorage hole drilled in the existing concrete, and an anchorage member provided on a distal end of the tension member. The anchorage hole has an anchorage part in a truncated conical shape with a diameter enlarged in a depth direction of the anchorage hole, and the anchorage member is in a conical shape or a truncated conical shape with a diameter enlarged as separating from the tension member. The prestress imparting member is tensed in the state that an oblique side of the anchorage member and an oblique side of the anchorage part are in contact, prestress is imparted simultaneously to the existing concrete and the new concrete to integrate them.

Description

  The present invention relates to an amplification reinforcement structure and an amplification reinforcement method for an existing concrete structure.

An existing concrete structure may be reinforced in order to cope with an increase in load or a decrease in strength due to aging.
As a method for reinforcing an existing concrete structure, a method of joining members such as a steel plate or a method of newly amplifying and amplifying concrete are known.

The method of newly placing and amplifying concrete is a method in which a plurality of chemical anchors project from existing concrete, and concrete is newly placed and amplified using the projected chemical anchors as reinforcing bars.
The new part becomes a reinforced concrete (RC) member, and is integrated with the existing part via a reinforcing bar (chemical anchor).

However, there are the following problems in the reinforcement method in which concrete is newly placed and amplified.
(1) A large number of reinforcing bars (chemical anchors) are required to integrate the new part and the existing part to resist the design weight.
(2) In order to project a large number of chemical anchors, it is necessary to provide a plurality of holes in the existing concrete structure. Reinforcing bars are closely arranged near the surface of the existing structure. It is difficult to drill holes.
(3) When the drilling position and the existing reinforcing bar intersect, it is necessary to re-drill the hole by changing the position, which may seriously damage the existing concrete structure.
(4) Since the newly installed portion has an RC structure, cracking due to load is likely to occur, and corrosion factors such as water may invade from the joint between the newly installed portion and the existing portion, and the reinforcing bars (chemical anchors) may be corroded.

  An object of the present invention is to provide an amplification reinforcement structure for an existing concrete structure and a method for constructing the same, which can integrate and reinforce existing concrete with existing concrete.

A first invention of the present application is an existing concrete structure comprising: existing concrete; new concrete to be placed on a surface of the existing concrete; and a prestressing member disposed over the existing concrete and the new concrete. In the amplification reinforcing structure, the prestressing member includes a rod-shaped tension member inserted into a fixing hole drilled in the existing concrete, and a fixing member provided at a tip of the tension member, and the fixing hole Has a frustum-shaped fixing portion that expands in the depth direction of the fixing hole, and the fixing member has a conical shape or a frustum shape that increases in diameter as the distance from the tensile material increases, and the prestress application The member is pulled in a state in which the oblique side of the fixing member and the oblique side of the fixing part are in contact with each other, and the pressed concrete is simultaneously pressed onto the existing concrete and the new concrete. Characterized in that an integral by applying a scan, provide amplification reinforcing structure of existing concrete structures.
The second invention of the present application is the amplification reinforcing structure for an existing concrete structure according to the first invention, wherein the fixing member is made of grout or epoxy resin filled in the fixing portion. Provide a reinforcing structure.
According to a third invention of the present application, in the amplification reinforcement structure for an existing concrete structure according to the first invention, the fixing member includes a truncated cone-shaped taper nut screwed to the tension member, and an elastic member surrounding the taper nut. An amplification reinforcement structure for an existing concrete structure is provided.
A fourth invention of the present application is a method for amplifying and reinforcing an existing concrete structure, wherein a fixing hole is drilled in the existing concrete, and a part of the fixing hole has a conical shape or a truncated cone shape that expands in the depth direction. A fixing member is formed by inserting a rod-shaped tensile material into the fixing hole, projecting the tensile material from the surface of the existing concrete, and filling the fixing portion with a caking material. A part of the protruding portion of the tensile material is surrounded by a sheath tube, and a mold is placed between the surface of the existing concrete and the end portion of the tensile material so as to contact the end portion of the sheath tube. Placing the concrete between the existing concrete and the formwork to form a new concrete, fixing the exposed end of the tensile material in tension, and prestressing the existing concrete and the new concrete in the previous period It is characterized by giving and integrating A method for amplifying and reinforcing an existing concrete structure is provided.
A fifth invention of the present application provides the method for reinforcing an existing concrete structure according to the fourth invention, wherein the fixing member is made of grout or epoxy resin.
According to a sixth invention of the present application, in the method for amplifying and reinforcing an existing concrete structure according to the fourth invention, the fixing member includes a truncated cone-shaped taper nut screwed to the tension member, and an elastic member surrounding the taper nut. A method for amplifying and reinforcing an existing concrete structure is provided.

The present invention can obtain at least one of the following effects by means for solving the above-described problems.
(1) Since the existing concrete and the new concrete are integrated and reinforced by prestressing, the number of chemical anchors can be reduced.
(2) Since it is not necessary to project a large number of chemical anchors, it is not necessary to provide a plurality of holes in the existing concrete structure, and the influence on the existing concrete can be minimized.
(3) Since prestress is applied to the new concrete, cracks do not occur in the new concrete part, and corrosion factors do not invade from the joints and the rebar (chemical anchor) does not corrode.
(4) Since the prestress applying member and the fixing hole are in contact with each other by the hypotenuse, a large tensile force can be applied to the prestressing member.

Sectional view of reinforcing structure of existing concrete structure according to the present invention Explanatory drawing of the reinforcement method of the existing concrete structure based on this invention Explanatory drawing of the construction method of the fixing member concerning other examples

  Hereinafter, the present invention will be described in detail based on the embodiments shown in the drawings.

[1] Amplifying and reinforcing structure of existing concrete structure The amplifying and reinforcing structure of the existing concrete structure of the present invention is amplified by placing new concrete B on the surface of existing concrete A, and amplifies the existing concrete A and new concrete B. The anchor muscle 1 and the prestress applying member 2 are arranged. (Figure 1)

A tensile force acts on the prestress imparting member 2, prestress is imparted to the existing concrete A and the new concrete B, and the existing concrete A and the new concrete B are integrated to reinforce the existing concrete structure.
The prestressing member is inserted from the surface of the new concrete B into the sheath tube 3 disposed in the new concrete B and the fixing hole 4 of the existing concrete A, and is fixed by the fixing portion 41 in the fixing hole 4.

(1) Anchor bars The anchor bars 1 are steel bars erected on the surface of the existing concrete A.
The anchor bars 1 are erected on the existing concrete A by the same method as the conventional reinforcing method.
The length of the anchor bar 1 is made shorter than the width of the new concrete B.
The anchor bar 1 combines the existing concrete A and the new concrete B and acts as a reinforcing bar for the new concrete B.

(2) New concrete The new concrete B is constructed by placing it on the surface of the existing concrete A.
The thickness of the new concrete B is set in accordance with the required strength of the reinforced concrete structure.
A sheath tube 3 is provided inside the new concrete B. One end of the sheath tube 3 is aligned with the surface of the new concrete B, and the end of the sheath tube 3 is aligned with the fixing hole 4 of the existing concrete A.

(3) Fixing hole The fixing hole 4 is formed by drilling the existing concrete A with an existing drilling machine.
A fixing portion 41 for fixing the prestress applying member 2 is formed at the bottom of the fixing hole 4.

(3-1) Fixing Part The fixing part 41 is formed in a part (for example, the bottom part) of the fixing hole 4.
The fixing portion 41 has a conical shape or a truncated cone shape that expands in the depth direction of the fixing hole 4.

(4) Prestressing member The prestressing member 2 includes a rod-shaped tension member 21 and a fixing member 22 provided at the tip of the tension member 21.

(4-1) Tensile material The tension material 21 is composed of a PC steel rod.
The tension member 21 is fixed by a fixing tool 23 provided at the end of the sheath tube 3 of the new concrete B in a state where a tensile force is applied.
The tension member 21 may have a male screw at the tip and may be provided with a ring nut 24.

(4-2) Fixing Member The fixing member 22 is provided at the fixing portion 41 of the fixing hole 4 at the end of the tensile material 21.
The fixing member 22 has a conical shape or a truncated cone shape whose diameter increases in the depth direction of the fixing hole 4, that is, as the fixing member 22 moves away from the tensile material 21.
With this configuration, the oblique side of the fixing unit 41 and the oblique side of the fixing member 22 are in contact with each other, and the fixing member 22 becomes a wedge.
The fixing member 22 is configured by solidifying grout or epoxy resin in a state where the tension member 21 is included.

(4-3) Prestressing A tensile force is acting on the tension member 21 of the prestressing member 2, and the fixing member 22 and the fixing tool 23 provided at the end portion cause the existing concrete A and the new concrete B to be applied. Prestress is applied, the existing concrete A and the new concrete B are united, and the existing concrete structure is reinforced.
In order to prevent corrosion of the prestressing member 2, a grout 5 is filled and surrounded around the fixing hole 4 and the prestressing member 2 in the sheath tube 3.

[2] Construction Procedure of Amplification Reinforcement Structure of Existing Concrete Structure Next, a construction procedure of the amplification reinforcement structure of the existing concrete structure of the present invention will be described.

(1) Hole drilling The surface of the existing concrete A is drilled at a plurality of locations with a drill or the like to form anchor holes 1 and fixing holes 4 for fixing the prestressing member 2.
Then, a fixing portion 41 is formed by expanding a part of the fixing hole 4 by a conventionally known method. (Fig. 2a)

(2) Placing new concrete The form 6 is erected at a predetermined distance from the existing concrete A.
The sheath tube 3 is arranged between the mold 6 and the fixing hole 4 of the existing concrete A.
Then, concrete is placed between the mold 6 and the existing concrete A to construct a new concrete B. (Fig. 2b)
In order to stand the anchor bars 1 on the surface of the existing concrete A, the existing concrete A and the new concrete B are coupled via the anchor bars 1.

(3) Arrangement of tensile material When the new concrete B is solidified and a predetermined strength is obtained, the mold 6 is removed, and the tensile material 21 is connected to the communicating sheath tube 3 and the fixing hole 4 from the surface of the existing concrete A. Insert. The tension member 21 is inserted and arranged so that the tip reaches the fixing portion 41. At this time, the length of the tension member 21 is determined so that the rear end of the tension member 21 protrudes from the sheath tube 3. (Fig. 2c)
When the ring nut 24 is provided on the tension member 21, the tension member 21 is inserted so that the ring nut 24 is positioned at the fixing portion 41 of the fixing hole 4.

(4) Formation of Fixing Member A fixing member 22 is formed around the tip of the tension member 21.
The fixing member 22 is formed by filling the fixing portion 41 with a filler 25 made of grout or epoxy resin by a hose or the like and solidifying it. As a result, the fixing member 22 integrated with the tension member 21 can be formed in contact with the oblique side of the fixing portion 41.

(5) Tension of Prestressing Member The tip of the prestressing member 2 is fixed to the fixing hole 4 by the fixing member 22.
The tensile material 21 is pulled by holding the rear end of the tensile material 21 protruding from the sheath tube 3 with a jack or the like. (Fig. 2d)
Since the tip of the tension member 21 is fixed to the fixing portion 41 by the fixing member 22, the tension member 21 does not pull out and a tensile force acts on the tension member 21.
When the tip of the tension member 21 has a male screw shape and the ring nut 24 is provided, the threaded portion and the ring nut 24 become a pulling resistance, and a large tensile force can be applied.
Further, when pulling the tension member 21, the tensile force concentrates on the fixing member 22, but the fixing member 22 and the fixing portion 41 of the fixing hole 4 have a wedge shape that comes into contact with the oblique side. For this reason, a large tensile force can be applied to the tensile material 21.
Then, in a state where the tension member 21 is pulled, a fixing tool 23 is provided and fixed at the outlet from the end of the sheath tube 3.
Prestress is applied to the existing concrete A and the new concrete B by the fixing member 22 and the fixing tool 23 so that the existing concrete A and the new concrete B are integrated, and the existing concrete structure is reinforced.
Since a large tensile force can be applied to the tension member 21, the prestress acting on the existing concrete A and the new concrete also increases, and the reinforcing effect of the existing concrete structure also increases.

(6) Grout injection The grout 5 is injected into the sheath tube 3 and the fixing hole 4, and the existing concrete A and the sheath tube 3 and the prestressing member 2 are integrated. (Fig. 2e)

Thus, since the existing concrete A and the new concrete B give prestress and unite, the number of the anchor bars 1 can be reduced.
By reducing the number of holes drilled on the surface of the existing concrete A, the construction becomes easy and the influence on the existing concrete structure can be minimized.

The new concrete B is provided with anchor bars 1 and prestressed.
For this reason, the new concrete B is not cracked, and a corrosion factor does not enter from the joint between the existing concrete A and the new concrete B, so that the anchor bars 1 are not corroded.

[Other Examples]
In the above embodiment, the fixing member 22 is formed by solidifying grout or epoxy resin. However, as shown in FIG. 3, the taper nut 26 provided on the tension member 21 is inserted by an elastic member 27 in the fixing portion. It may be formed by coating.

The taper nut 26 is a frustoconical member, and is inserted into the fixing hole 4 in a state where the diameter of the bottom surface is smaller than the inner diameter of the fixing hole and is screwed to the tip of the tension member 21 formed in a male screw shape.
The elastic member 27 is a cylindrical member having an inner diameter larger than that of the tension member 21 and an outer diameter smaller than that of the fixing hole 4.
The elastic member 27 is inserted into the fixing hole 4 while the tensile member 21 is inserted.
Further, the fixing member 22 is formed in a truncated cone shape by further pressing and elastically deforming according to the shape of the tapered nut 26 to cover the tapered nut 26.
The outer diameter of the elastic member 27 deformed according to the taper nut 26 is larger than that of the fixing hole 4.
In this way, by forming the fixing member 22 with the elastic member 27 instead of a chemical such as grout or epoxy resin, the fixing member 22 can be formed in a reliable form.

DESCRIPTION OF SYMBOLS 1 Anchor muscle 2 Prestressing member 21 Tensile material 22 Fixing member 23 Fixing tool 24 Ring nut 25 Filler 26 Taper nut 27 Elastic member 3 Sheath tube 4 Fixing hole 41 Fixing part 5 Grout 6 Formwork A Existing concrete B Newly installed concrete

Claims (6)

Existing concrete,
New concrete to be placed on the surface of the existing concrete;
A prestressing member disposed over the existing concrete and the new concrete, and an amplification reinforcement structure of an existing concrete structure,
The prestressing member is composed of a rod-shaped tensile material inserted into a fixing hole drilled in the existing concrete, and a fixing member provided at the tip of the tensile material,
The fixing hole has a frustoconical fixing portion that expands in the depth direction of the fixing hole,
The fixing member has a conical shape or a truncated cone shape that increases in diameter as the distance from the tensile material increases.
The prestressing member is pulled in a state where the hypotenuse of the fixing member and the hypotenuse of the fixing unit are in contact with each other, and prestress is applied to the existing concrete and the new concrete at the same time so as to be integrated. To
Amplification reinforcement structure for existing concrete structures. In the amplification reinforcement structure of the existing concrete structure according to claim 1,
The amplification reinforcing structure for an existing concrete structure, wherein the fixing member is made of grout or epoxy resin filled in the fixing portion. In the amplification reinforcement structure of the existing concrete structure according to claim 1,
The fixing member includes a truncated cone taper nut screwed to the tension member and an elastic member surrounding the taper nut.
Amplification reinforcement structure for existing concrete structures. A method for amplifying and reinforcing an existing concrete structure,
Drill fixing holes in existing concrete,
Forming a conical or frustoconical fixing portion that expands in the depth direction in a part of the fixing hole;
Inserting a rod-shaped tensile material into the fixing hole, projecting the tensile material from the surface of the existing concrete,
A fixing member is formed by filling a fixing material in the fixing portion,
A portion of the protruding portion of the tensile material is surrounded by a sheath tube,
A mold is disposed between the surface of the existing concrete and the end of the tensile material so as to contact the end of the sheath tube, and the concrete is placed between the existing concrete and the mold. To form new concrete,
Tension fixing the exposed end of the tensile material, characterized by prestressing and integrating the existing concrete and the new concrete,
Amplification reinforcement method for existing concrete structures. In the amplification reinforcement method of the existing concrete structure according to claim 4,
The fixing member is made of grout or epoxy resin,
A method for reinforcing existing concrete structures. In the amplification reinforcement method of the existing concrete structure of Claim 4,
The fixing member includes a truncated cone taper nut screwed to the tension member and an elastic member surrounding the taper nut.
Amplification reinforcement method for existing concrete structures.

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