KR101338767B1 - Device for reinforcing shearing force and negative bending moment in conner portion of box type concrete structure - Google Patents

Abstract

The present invention relates to a device for reinforcing shearing force in corner portion of box type concrete structure and, more particularly, to a device for reinforcing shearing force in corner portion of box type concrete structure capable of reinforcing the stability of basement structure by effectively supporting negative moment and the shearing force of the corner portion while effectively using inner space of a box since the structure is not big and simple. The present invention, installed at the corner portion of box type concrete structure, is to strengthen the corner portion by supporting part of negative moment and the shearing force of the corner portion. The present invention comprises: a body placed on a haunch of the corner portion; a reinforcing member comprising a first member extended from the end part of the body and a second member extended from the other part of the body, of which the angle is greater than the angle of virtual straight lines passing between the first and second members; a pressing unit, arranged between the first and second members, for pressing the same toward each other; a fixating unit for fixating the reinforcing member to the corner portion; and an adjustment unit for adjusting the pressing power of the pressing unit.

Description

Device for Reinforcing shearing force and negative bending moment in Conner Portion of Box type Concrete structure

The present invention relates to a right angle reinforcement device of a box-shaped concrete structure, and more particularly, it is made of a simple and not large structure to effectively use the space inside the box while effectively supporting the shear force and the parent of the right angle structure of the underground structure It relates to a right angle reinforcement device of a box-shaped concrete structure capable of reinforcing safety.

In general, the box-shaped concrete structure used for the purpose of underground roads, subways, waterways, etc. may have a large load than the design load due to the construction of the upper part or the traffic load acting on the upper part. Due to such a load, excessive shear force and sub-comments are generated in the upper and lower side walls or in the right corner portion which is a corner portion between the ceiling and the side walls, thereby causing structural safety. Therefore, there is a need to structurally reinforce the right corner of the box-shaped concrete structure.

Concrete does not play a role in increasing the load capacity of the member in the parent section of the box-shaped concrete structure, there is a problem that can not sufficiently resist the shear force or the parent moment. Therefore, it is necessary to disperse a part of the shear force and the parent moment acting on the corner part by allowing the reinforcement device to support the shear force and the part of the parent part of the right angle part of the box-shaped concrete structure.

According to the necessity as described above, a technique of reinforcing the strength of a structure by attaching an iron plate or a resin-impregnated reinforcing fiber plate using an anchor to the inside of a box-shaped concrete structure has been proposed. There is a problem that the reinforcement is not properly made by falling, and in the case of the reinforcing fiberboard was also a problem of falling off due to corrosion.

Republic of Korea Patent No. 10-558089 provides an invention to reinforce the structure through the box-shaped cross-section by installing a box-shaped maintenance reinforcement device on the inner surface of the upper left and right side walls, the reinforcement effect is insignificant because no special reinforcement is inserted And, because the box-type maintenance reinforcement device should be installed over a large area, there was a very inefficient problem in terms of workability and cost.

The present invention was derived to solve the above problems of the background art, the problem to be solved by the present invention is to effectively disperse the shear force and the parent moment acting on the right side of the box-shaped concrete structure and to use as a shear resistance and moment resistance member It is possible to provide a reinforcement device for a box-type concrete structure that can minimize interference with other structures installed inside the box-type concrete structure due to its simple configuration and large volume.

As a means for solving the above-mentioned problems,

It is installed to the right corner of the box-shaped concrete structure to disperse some of the shear force and the parent moment acting on the right corner and to be used as the shear resistance and the moment resistance member to reinforce the right corner,

The first member is installed to be in close contact with the right angled part, and includes a main body contacting the haunting part of the right angled part, a first member extending from one end of the main body, and a second member extending from the other end of the main body. And an angle between the virtual straight line passing through the center of the second member is greater than an angle formed by the ceiling and the wall of the box-shaped structure;

Pressing means provided between the first member and the second member of the reinforcing member to press the first member and the second member to elastically deform in a direction approaching each other;

Fixing means for fixing the reinforcing member to the right angle portion; And

Adjusting means for adjusting the pressing force of the pressing means; It provides a right angle reinforcement device of the box-shaped concrete structure comprising a.

The reinforcing member is preferably H-shaped steel.

The fixing means may include anchor bolts installed on the ceiling and wall of the box-shaped concrete structure, fastening holes provided in the pressing means, and bolts fastened to the anchor bolts.

More preferably, the angle between the imaginary straight line passing through the center of the first member and the second member is determined based on the measured value of the angle between the ceiling and the wall of the right corner portion of the pressing means.

The pressing means may be a steel wire whose both ends are temporarily fixed to opposite ends of the main body of the first member and the second member,

The pressing means may include a first steel wire having both ends temporarily fixed to opposite ends of the main body of the first member and the second member, and a second steel wire having both ends temporarily fixed to a central portion of the first and second members, respectively. It may be.

According to the present invention, the shear force and the moment acting on the right corner of the box-shaped concrete structure can be effectively distributed and used as the shear resistance and moment resistance member, but due to the simple structure and the large volume, It is possible to provide a reinforcement device for the box-shaped concrete structure that can minimize the interference.

1 is a view for explaining a reinforcing member.
2 to 5 is a view for explaining a construction method for reinforcing the right corner using the reinforcing member shown in FIG.
6 is a view for explaining the adjusting means.
Figure 7 is a view for explaining that the reinforcing device of the box-shaped concrete structure according to another embodiment of the present invention is installed in the right corner.

Hereinafter, one embodiment of the present invention will be described with reference to the drawings, and specific details for carrying out the present invention will be provided.

1 is a view for explaining the reinforcing member, Figures 2 to 5 are views for explaining a construction method for reinforcing the right angle using the reinforcing member shown in Figure 1, Figure 6 is a view for explaining the adjustment means to be.

The present invention is to reinforce the right angle portion by being installed in the right angle portion of the box-shaped concrete structure to distribute some of the shear force and the parent moment acting on the right angle portion and used as the shear resistance and the moment resistance member.

The right angle part 1 means a point where the ceiling part 3 and the wall part 4 meet in the box-shaped concrete structure as shown in FIG. 3. Where the ceiling part 3 and the wall part 4 meet, the haunting part 2 is provided in order to add structural stability.

The right angle reinforcement device of the box-shaped concrete structure according to the present embodiment is composed of a reinforcement member 10, a pressing means, a fixing means 30, and an adjusting means 40.

As shown in FIGS. 4 and 5, the reinforcing member 10 is installed to be in close contact with the right corner 1, and includes a main body 11, a first member 12, and a second member 13. It consists of a combination of H-beams. The combination of the main body 11, the first member 12 and the second member 13 may be made by welding.

The main body 11 is configured to contact the haunch portion 2 when installed in the right angle portion as shown in Figs. The first member 12 is configured to extend from one end of the main body 11, and the second member 13 is configured to extend from the other end of the main body 11. In the present embodiment, when installed in the right corner portion, the first member 12 is in contact with the ceiling portion 3 and the second member 13 is in contact with the wall portion 4.

The angle (θ ₁ ; FIG. 1) formed by the virtual straight line C ₁ passing through the center of the first member 12 and the virtual straight line C ₂ passing through the center of the second member 13 is determined by the box-shaped structure. It is comprised so that it may become larger than the angle ((theta) ₂ ; FIG. 7) which the ceiling part 3 and the wall part 4 make. When the reinforcing member 10 is installed, the elastic deformation is made in the direction in which the first member 12 and the second member 13 come closer to each other so that the shear force and the parent can be more effectively supported by the elastic restoring force. To do this.

At this time, the angle between the virtual straight lines passing through the center of the first member 12 and the second member 13 is determined based on the measurement result of the angle formed by the ceiling portion 3 and the wall portion 4. . In general, the angle formed by the ceiling (3) and the wall (4) is designed to be 90 °, but the error occurs in the actual construction process, so a difference of about 90 ° to 1-2 °. The difference between the angle between the imaginary straight lines passing through the center of the first member 12 and the second member 13 and the angle between the ceiling portion 3 and the wall portion 4 is a right angle supported by the reinforcing member 10. It affects the shear force of the part and the size of the parent moment.In order to accurately calculate the load supported by the reinforcing member 10, the angle between the ceiling part 3 and the wall part 4 is measured and the structural calculation is performed. The member 10 is produced.

The pressing means is provided between the first member 12 and the second member 13 to press the first member 12 and the second member 13 so as to elastically deform in a direction closer to each other.

In this embodiment, the pressing means is composed of a first steel wire (21). In this embodiment, screw grooves are formed at both ends of the first steel wire 21 so that they are temporarily fixed to the reinforcing member 10 by the nut 23 and the cutting member 24. Can be. FIG. 2 shows a state in which the first member 12 and the second member 13 of the reinforcing member 10 are elastically pressurized by the first steel wire 21 as the pressing means. When the first steel wire 21 is installed in the center of the first member 12 and the second member 13 as in this embodiment, there is an advantage that the curved portion can be minimized when elastic deformation occurs in the reinforcing member 10. have. The portion indicated by a in the figure is deformed into a curved shape, but the portion indicated by b may remain straight.

The first steel wire 21 is provided with a pair, which is the same as the state in which the second steel wire 22 is removed in FIG.

The fixing means 30 is a configuration for fixing the reinforcing member 10 to the right angle portion 1 in this embodiment anchor bolt 31 and the anchor bolt 31 is fixed to the right angle portion (1) Nut 32 and a fastening hole (not shown) formed at a position corresponding to the anchor bolt 31 of the reinforcing member 10. The anchor bolt 31 is provided in the haunting part 2, the ceiling part 3, and the wall part 4, respectively.

 The adjusting means 40 is configured to adjust the pressing force applied to the reinforcing member 10 by the pressing means.

In this embodiment, the adjusting means 40 is configured to increase or decrease the pressing force applied to the reinforcing member 10 by the pressing means according to the direction of rotation as a turnbuckle as shown in FIG. .

Hereinafter, the function, operation, and effect of each configuration will be described by describing a method of reinforcing the right angle part using the reinforcement device of the box-shaped concrete structure having the above-described respective configurations.

First, the reinforcing member 10 in the state shown in FIG. 1 is manufactured. The first member 12 and the second member 13 are welded and coupled to both ends of the main body 11, and virtual straight lines passing through the center of the first member 12 and the second member 13 meet each other. The angle is determined based on the measured value of the angle between the ceiling part 3 and the wall part 4 of the right angle part 1 to be installed.

When the reinforcing member 10 is manufactured, the reinforcing member 10 is elastically deformed using the first steel wire 21 which is the pressing means. The magnitude of the force introduced into the first steel wire 21 is determined by the structural calculation and it is considered to remove some or all of the load introduced into the first steel wire 21 by the adjusting means 40. In the example, all of them are removed.

When elastic deformation is applied to the reinforcing member 10 by the pressing means, the step of fixing the reinforcing member 10 elastically deformed by the pressing means by the fixing means 30 to the right corner 1 is performed. In this embodiment, the anchor bolt 31 is installed in the right corner 1 as shown in FIG. 3, and the anchor bolt 31 is passed through the fastening hole of the reinforcing member 10 as shown in FIG. 4. After fastening the nut 32 is fixed.

When the reinforcing member 10 is fixed to the right angle part 1 by the fixing means 30, the pressing force applied to the reinforcing member 10 by the pressing means is adjusted by the adjusting means 40. By removing some or all of the applied load, the reinforcing member 10 exerts a force on the right corner 1 to support the shear force and the parent force acting on the right corner 1 to thereby reinforce the right corner 1. Done.

At this time, the magnitude of the load removed by the adjusting means 40 is also determined by the structural calculation. In this embodiment, all the applied loads are removed, and the first strong mountain 21 and the adjusting means 40 are removed. Is shown in FIG. 5.

Hereinafter, another embodiment of the present invention will be described with reference to FIG. 7. In this embodiment, the first steel wire 21 and the second steel wire 22 are used as the pressing means. When the first steel wire 21 and the second steel wire 22 are used as the pressing means, there is an advantage of increasing the elastic deformation force introduced.

On the other hand, in this embodiment is used without completely removing the tension force applied by the pressing means as shown in Figure 7, when the pressing means is installed without being removed, the load by the pressing means may be limited because the space utilization It is preferable to remove all of the pressing means by removing all of them, but over time, the load applied to the right angle part 1 is reduced by the elastic restoring force of the reinforcing member 10, so that the reinforcing force may be reduced to correct this. There is an advantage that the load applied to the reinforcing member 10 by the pressing means by the adjusting means 40 may be removed step by step.

In the above description of the preferred embodiments of the present invention, specific details for the implementation of the present invention have been provided, but the technical idea of the present invention is not limited to the described embodiments, and various modifications may be made without departing from the technical idea of the present invention. It can be embodied as a reinforcement device of a corner of a concrete box-shaped structure.

10: reinforcing member 21: the first member
30: fixing means 40: adjusting means

Claims (7)

It is installed to the right corner of the box-shaped concrete structure to disperse some of the shear force and the parent moment acting on the right corner and to be used as the shear resistance and the moment resistance member to reinforce the right corner,
The first member is installed to be in close contact with the right angled part, and includes a main body contacting the haunting part of the right angled part, a first member extending from one end of the main body, and a second member extending from the other end of the main body. And an angle between the virtual straight line passing through the center of the second member is greater than an angle formed by the ceiling and the wall of the box-shaped structure;
Pressing means provided between the first member and the second member of the reinforcing member to press the first member and the second member to elastically deform in a direction approaching each other;
Fixing means for fixing the reinforcing member to the right angle portion; And
Adjusting means for adjusting the pressing force of the pressing means; Right angle reinforcement device of the box-shaped concrete structure comprising a.
The method of claim 1,
The reinforcing member reinforcement of the box-shaped concrete structure, characterized in that the H-shaped steel.
The method of claim 1,
The fixing means is an anchor bolt installed in the ceiling and the wall portion of the box-shaped concrete structure, a fastening portion provided in the box-shaped concrete structure, characterized in that it comprises a fastening hole provided in the pressing means and the bolt fastened to the anchor bolt.
The method of claim 1,
The angle between the imaginary straight line passing through the center of the first member and the second member is determined based on the measured value of the angle between the ceiling portion and the wall portion of the right angle portion installed in the pressing means of the box-shaped concrete structure Right angle reinforcement device.
The method of claim 1,
The pressing means is a reinforcement of the right angle portion of the box-shaped concrete structure, characterized in that the steel wires whose ends are temporarily fixed to the central portion of the first member and the second member, respectively.
The method of claim 1,
The pressing means may include a first steel wire having both ends temporarily fixed to opposite ends of the main body of the first member and the second member, respectively;
The reinforcement of the right angle portion of the box-shaped concrete structure, characterized in that the second steel wire which is respectively fixed at both ends of the central portion of the first member and the second member.
The method according to claim 5 or 6,
Reinforcement of the right angle portion of the box-shaped concrete structure, characterized in that the adjusting means is a turnbuckle.

Images