KR20110088865A - Repairing and reinforcing apparatus for slab and repairing and reinforcing method thereof - Google Patents

Abstract

PURPOSE: An apparatus for repairing and reinforcing a slab and a method for repairing and reinforcing a slab using the same are provided to stably repair and reinforce a slab by applying uniform compressive force to the bottom surface of the slab. CONSTITUTION: An apparatus for repairing and reinforcing a slab comprises a slab(104), anchoring members(110), and a bias member(120). One end of each steel wire(130) of the anchoring members is connected to the edge of the slab. The bias member is arranged on the top center of the slab to be connected to the steel wires and applies tension to the steel wires. The height of the bias member is adjusted through the movement of a screw member.

Description

Slab repair reinforcement apparatus and slab repair reinforcement method using the same {Repairing and reinforcing apparatus for slab and repairing and reinforcing method

The present invention relates to a slab repair reinforcement device and a repair reinforcement method, and more specifically, to adjust the height of the deflection material disposed in the center area of the slab slab repair reinforcement device and the slab repair using the same can be given at the same time the steel wire side It relates to a reinforcement method.

In general, the slab deteriorates as time goes by after construction, causing aging of the used material, causing sagging and cracking. Therefore, in order to restore the structural function of the slab, it is necessary to prevent the deflection and cracks generated and to return it to its original state.

To this end, conventionally, reinforcing and reinforcing methods for attaching steel sheets or carbon fibers to the lower slab are mainly used. However, this prior art has to stop the use of the structure before attaching the steel sheet or carbon fiber, and to apply a primer and attach the carbon fiber after grinding a certain amount of the surface, the process is cumbersome and economic loss is also significant.

In addition, since the deflection is not restored after a certain amount of deflection, desired reinforcing reinforcement is difficult, and there is a problem in securing reliability because the adhesion of the steel sheet and carbon fiber is not smoothly performed.

In order to solve this problem, Patent No. 10-0688333 has a turnbuckle 40 in the middle of the length of the steel bar 30 and the tension force toward the slab 50 by varying the length of the steel bar 30 during operation of the turnbuckle 40. A way of introducing this has been proposed.

However, this method has a problem in that the installation cost increases because the turnbuckles 40 must be installed on each of the steel rods 30 connected to the end fixing angle 20.

In addition, since the turnbuckles 40 have to be individually operated when the tension force is introduced to reinforce the repair of the slab 50, the work process is cumbersome.

Furthermore, when the turnbuckle 40 is operated to apply tensile force to the steel rod 30, the same tensile force may not be applied to the pair of steel rods 30 which are symmetrical with respect to the saddle 60. Uneven compressive force is formed on the lower surface of the slab 50 deformed to one side or in close contact with the saddle 60, thereby reducing the reinforcing effect.

The present invention is to solve the above problems, to provide a reinforcement reinforcement device and a reinforcement method that can be easily and quickly rehabilitation by introducing a tension force by operating the screw member to adjust the height of the deflection material. .

In addition, the present invention provides a reinforcement reinforcement device and a reinforcement method that can be applied at the same time the tension force to all the steel wire side connected to the deflection material because the height of the deflection material is changed in the vertical direction with respect to the slab during operation of the screw member.

The present invention provides a reinforcing reinforcement apparatus and a reinforcing reinforcement method capable of applying an equal compressive force to the lower surface of the slab in close contact with the deflecting material by allowing the same tension force to be applied to the steel wire symmetrically based on the deflection material.

Furthermore, the present invention provides a reinforcement reinforcing device and a reinforcing method for easy installation by adjusting the extension length in left and right directions by providing a wire binding device at both ends of the steel wire to be connected to the anchorage and the deflecting material.

In order to achieve the above object, a fixing unit having one end of the steel wire connected to the edge of the slab is fixedly installed, and the slab maintenance reinforcement is provided with a deflection material disposed to be connected to the steel wire between the fixing holes to give tension to the steel wire side. In the apparatus, the deflection material is disposed in the central region of the slab and is characterized in that the reinforcement of the slab is made by applying a tension force to the steel wire side by adjusting the height through the movement of the screw member.

Preferably, the deflection material is an upper structure consisting of a support plate which is fixed to the center region of the slab via the anchor bolt and a hollow extension extending from the support plate to a predetermined height below; Screw members are formed on the outer circumferential surface in the longitudinal direction, the upper side is screwed with the extension and operating the handle fixed to the middle of the length of the screw member to move up and down along the longitudinal direction of the extension; And a lower structure including a hollow coupling rod disposed under the screw member and screwed with the lower side of the screw member and provided in a cross shape at a lower portion of the coupling rod to be connected to the steel wire through a steel wire binder. It may include.

Preferably, the screw member has a thread formed on the outer circumferential surface of the screw member may be formed in the opposite direction to the upper side and the lower side with respect to the handle.

Preferably, the steel wire binder is provided at both ends of the left and right of the steel wire may be hinged to the deflector and the fixing unit, respectively.

Preferably, the steel wire binding unit has a first coupling body that is inserted through the steel wire fixedly via a fixed support, and one side is screw-coupled with the first coupling and the other side is connected to the saddle or the fixing device via a hinge connector It may be composed of a second binder that is hinged.

In addition, the present invention is fixed to each of the anchorage is connected to one end of the steel wire is fixed to the edge of the slab, the deflector is provided to be connected to the steel wire between the anchorage is provided with a biasing force to the steel wire side reinforcement of the slab In the present invention, by adjusting the height of the deflection material disposed in the center region of the slab is characterized in that the reinforcement of the slab is made by applying a tension force to the steel wire side.

Preferably, the deflection material is an upper structure consisting of a support plate which is fixed to the center region of the slab via the anchor bolt and a hollow extension extending from the support plate to a predetermined height below; Screw members are formed on the outer circumferential surface in the longitudinal direction, the upper side is screwed with the extension and operating the handle fixed to the middle of the length of the screw member to move up and down along the longitudinal direction of the extension; And a lower structure including a hollow coupling rod disposed under the screw member and screwed with the lower side of the screw member and provided in a cross shape at a lower portion of the coupling rod to be connected to the steel wire through a steel wire binder. It may include.

Preferably, the screw member has a thread formed on the outer circumferential surface of the screw member may be formed in the opposite direction to the upper side and the lower side with respect to the handle.

Preferably, the steel wire binder may be provided at both ends of the left and right of the steel wire to be hinged to the deflector and the fixing unit, respectively.

Preferably, the steel wire binding unit has a first coupling body that is inserted through the steel wire fixedly via a fixed support, and one side is screw-coupled with the first coupling and the other side is connected to the saddle or the fixing device via a hinge connector It may be composed of a second binder that is hinged.

Preferably, the slab repair reinforcement method is a step of fixing the pair of anchorages facing each other at the edge of the slab; Disposed between the pair of anchorages, and installing a deflection material so that one side is fixed to the lower surface of the slab; Hinged to the anchorage and the deflector after fastening the steel wire binder to both ends of the steel wire; And adjusting the height of the deflecting material to impart a tension force to the steel wire side.

According to the present invention as described above, since the height of the deflection material is changed in the vertical direction with respect to the slab by operating the screw member, the effect that can be easily and quickly reinforcement by introducing a tension force simultaneously to all the steel wire side connected to the deflection material. have.

In addition, the slab repair reinforcement method of the present invention by applying the same tension force to the steel wire symmetrical with respect to the deflection material by adjusting the height of the deflecting material to apply a uniform compressive force to the lower surface of the slab in close contact with the deflection material, stable maintenance reinforcement There is an effect that can be achieved.

In addition, the present invention is provided with a wire binding device at both ends of the steel wire to be connected to the anchorage and the deflecting material to adjust the stretch length in the left and right directions, there is an effect that can be easily installed and improved workability and productivity.

1 is an installation state of the maintenance reinforcement device according to the invention.
Figure 2 is a bottom perspective view of Figure 1;
Figure 3 is a combination and separation showing the deflector of the reinforcing device according to the present invention.
Figure 4 is a perspective view of the anchorage of the reinforcing device according to the present invention.
Figure 5 is a cross-sectional view showing a steel wire binding machine of the repair and reinforcement device according to the present invention.
Figure 6 is a bottom perspective view showing a state of installation of a maintenance reinforcement device according to the prior art.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings.

In the following description, the same reference numerals will be used to refer to the same elements even though the same reference numerals are used for adding the same reference numerals for better understanding of the present invention.

1 is an installation state diagram of the reinforcing reinforcement device according to the present invention, Figure 2 is a bottom perspective view of Figure 1, Figure 3 is a coupling and separation diagram showing a deflection material of the reinforcing reinforcement device according to the invention, Figure 4 5 is a perspective view showing a fixing device of the reinforcing reinforcing device according to the present invention, and FIG. 5 is a cross-sectional view illustrating a steel wire binding device of the reinforcing reinforcing device according to the present invention.

Slab maintenance reinforcement device 100 according to a preferred embodiment of the present invention, as shown in Figures 1 and 2, the slab disposed in the transverse direction so as to connect between the beams or pillars 102 in a building constructed of concrete ( The device is provided on the lower surface of the 104 to provide a tension force to the steel wire 130, one end is fixed to the anchorage 110, respectively, to reinforce the slab, the deflection material 120 connected to the steel wire 130 It is a technical feature to impart tension to the steel wire 130 side by varying the height.

The slab repair reinforcement device 100 of the present invention includes a fixing unit 110, a deflector 120, a steel wire 130 and a steel wire binding machine (140).

As shown in FIG. 4, the fixing unit 110 serves to transmit tension force generated by the operation of the deflector 120 to one end of the steel wire 130 to the slab 104. On the edge of the lower surface of the slab 104, a pair is disposed to face each other.

That is, four pairs are installed on the edge of the lower surface of the slab 104 such that two pairs of anchorages 110 face each other so that one end of the steel wire 130 is fixed to each other.

The fixing unit 110 is provided with a coupling hole 114 to be attached to one side of the slab 104 or the column 102 is fixed through the anchor bolt.

As shown in FIG. 3, the deflector 120 is disposed between the anchorages 110 disposed opposite to each other on both sides of the edge of the slab-more specifically, the steel wires in two directions connected to the four anchorages 110, respectively. 130 is disposed at a central point where they cross each other, and the steel wires 130 are connected to both lower sides, respectively, to impart tension to the steel wires 130.

That is, the deflection material 120 is provided with a fastening hole (122a) so that the upper portion is detachably attached to the lower surface of the slab 104 is fixed through the anchor bolt, the lower direction of the slab-more In detail, the height is changed in a direction perpendicular to the longitudinal direction of the slab to impart tension to the steel wire 130 connected to the lower side.

The deflection material 120 is composed of an upper structure 121, a screw member 124 and a lower structure 126 so that the upper portion of the screw member 124 when the screw member 124 is rotated from the upper structure 121 As the screw member 124 and the lower structure 126 are moved downward in a downward direction, the steel wire 130 connected to the lower structure 126 receives a force in the lower direction, thereby providing a tension force.

The upper structure 121 is a deflection material 120 is fixed to the lower surface of the slab 104 serves to guide the screw member 124 can move up and down, the slab (mediated through the anchor bolt) It consists of a support plate 122 fixed to the lower surface of the 104 and the hollow extension 123 extending a predetermined length downward from the support plate 122.

At this time, the extension 123 is a screw thread is formed on the inner circumferential surface to be screwed with the upper portion of the screw member 124. As such, the screw member 124 and the extension 123 are screwed to each other to move a predetermined distance along the lengthwise direction of the extension 123 by the screw thread when the screw member 124 rotates in one direction. At the same time, the screw member 124 is prevented from being separated downward.

The screw member 124 is provided in the form of a bar having a predetermined length, the outer peripheral surface of the screw thread 124a to be screwed with each other and the extension 123 and the coupling table 127 to be described later in a certain direction Is provided, the handle 125 is provided in the middle of the length so that the operator can easily rotate the screw member 124 in one direction.

At this time, the screw thread formed on the outer circumferential surface of the screw member 124 is preferably formed opposite to the direction of the screw thread formed on the upper and lower sides of the handle 125.

This is the extension of the screw member 124 and the extension screw 123 and the coupling table 127 are respectively screwed in a different direction by screwing in a different direction to rotate the screw member 124 through the operation of the handle 125 The lower structure 126 to smoothly move with the screw member 124 at the same time.

The lower structure 126 has an upper portion screwed with the lower portion of the screw member 124 and the lower portion is connected to the steel wire 130 and moved downward together with the movement of the screw member 124 to lower the steel wire 130 The pressing force is applied to the steel wire 130 by pressing, the hollow coupling rod 127 is screwed with the lower portion of the screw member 124 and the saddle provided in the cross shape at the lower portion of the coupling rod 127 ( 128).

That is, the coupling table 127 is provided with a screw thread on the inner circumferential surface similar to the above-described extension 123 is screwed with the lower portion of the screw member 124, the lower cross so that one end of the steel wire 130 is connected Saddle 128 is provided.

At this time, the screw thread formed in the coupling table 127 is moved smoothly during the rotation of the screw member 124 as described above to apply a force to the steel wire 130 to the inside of the extension 123 It is to be formed in the opposite direction to the thread formed.

On the other hand, in the slab repair reinforcement device 100 of the present invention, the steel wires 130 are connected to the deflector 120 and the fixing unit 110 are connected to each other through the wire bonder 140 shown in FIG.

That is, the end of the steel wire 130 is inserted through the steel wire binder 140 is fixed by the fixing support 142 and the hinge connector 144 and the saddle 128 of the deflecting material provided at one end of the steel wire binder 140. Hinge connector 129 provided at the) is hinged through the pin, or the hinge connector 144 provided at one end of the steel wire binding machine 140 and the hinge connector 112 provided in the fixing unit 110 through the pin. Are hinged to each other.

The steel wire binder 140 is a first assembly 141, the steel wire 130 is inserted through the fixed and the second coupling member 143 is provided with a hinge connector 144 on one side to be hinged with the other member. It is composed of, one side of the first assembly 141 is coupled in a way that is inserted into one side of the second assembly 143 is screwed.

As such, the first assembly 141 and the second assembly 143 are screwed to each other so that the length is adjustable so that the first assembly 141 and the second assembly 143 are installed during the installation of the maintenance reinforcement device 100. Easy adjustment of the length of the steel wire 130 through the screw rotation of the steel wire 130 and the deflection material 120 and the installation work of the fixing unit 110 as well as easy to install the deflection material 120 to the desired position do.

In addition, even if the deformation in the longitudinal direction or the width direction of the slab 104 is made asymmetrically to adjust the length of the steel wire 130 through the adjustment of the steel wire tie 140 so that the reinforcement reinforcement of the slab can be more effectively. do.

The slab repair reinforcement device 100 of the present invention configured as described above is moved to the lower side of the slab 104 as the screw member 124 is rotated and moved to the lower side during the operation of the handle 125. All steel wires 130 connected to the undercarriage 126 are subjected to tension at the same time there is an effect that can be easily and quickly reinforcement.

Furthermore, the present invention is provided with a wire binding device 140 at both ends of the steel wire 130 to be hinged to the anchorage and the deflecting material to adjust the stretch length in the left and right directions, easy installation and workability and work productivity It can increase the effect.

Hereinafter, a slab repair reinforcement method using the slab repair reinforcement device 100 of the present invention will be described.

In the slab repair reinforcement method using the slab repair reinforcement device 100 of the present invention, a pair of anchorages 110 are disposed on the edge of the slab 104 so as to face each other, and then a coupling hole provided in the anchorage 110 ( 114) are fixedly installed.

At this time, the fixing unit 110 is preferably provided with two pairs so as to be arranged in pairs, respectively, in the horizontal direction and the vertical direction of the lower surface of the slab.

Thereafter, the deflection material 120 of the present invention, the height of which is adjustable in the center region of the lower surface of the slab is fixedly installed through the anchor bolt through the fastening hole (122a). The deflection material 120 is composed of the upper structure 121, the screw member 124 and the lower structure 126 as described above, the screw member 124 is the upper structure 121 and the lower structure 126 By screwing together with one side of the handle 125 is provided to be rotated in the vertical direction by the operation of the handle 125 is provided so that the height can be changed in a direction perpendicular to the longitudinal direction of the slab.

At this time, the deflection material 120 is preferably installed at a central point where the imaginary line connecting the two pair of anchorages 110 installed to face each other cross each other. This is to allow all the steel wires 130 connected to the deflector 120 and the fixing unit 110 to be simultaneously tensioned by the deflector 120 whose height is changed through the rotation of the screw member 124.

Subsequently, the hinge connector 144 provided on one side of the steel wire binder 140 after coupling the steel wire binder 140 to both ends of the steel wire 130 connecting the deflector 120 and the fixing device 110 to each other. Through the pins to be hinged to the hinge connector 112,129 provided in the saddle 128 and the fixing unit 110, respectively.

At this time, as described above, the steel wire 130 is deflecting material 120 and the fixing unit 110 by using the steel wire binder 140 is composed of the first coupling member 141 and the second coupling member 143 screwed together. Make sure that you are not loose and tense in between.

Subsequently, by operating the handle 125 of the screw member 124 provided in the deflecting material 120 to rotate the screw member 124, the lower structure 126 is moved in the downward direction of the deflecting material 120 The height will be adjusted.

Due to this, as the saddle 128 moves downward, the steel wires 130 hinged with the saddle 128 are moved downward, and the tension force is applied, and the tension force applied to the steel wire 130 moves toward the fixing unit 110. As the tension is applied to the slab, the reinforcement of the slab is achieved.

Thus, the slab repair reinforcement method of the present invention by adjusting the height of the deflector 120 through the rotation of the screw member 124, all the wires 130 connected to the deflector 120 is given a tension force at the same time quickly and easily Maintenance reinforcement of the slab 104 is to be made.

In addition, the slab repair reinforcement method of the present invention by applying the same tension force to the steel wire symmetrical with respect to the deflection material by adjusting the height of the deflecting material to apply a uniform compressive force to the lower surface of the slab in close contact with the deflection material, stable maintenance reinforcement There is an effect that can be achieved.

Furthermore, the slab repair reinforcement method of the present invention is provided with a steel wire tie 140 at both ends of the steel wire 130 to be hinged to the anchorage 110 and the deflector 120 to adjust the stretch length in the left and right directions. By doing so, it is easy to install and increase the workability and productivity.

Although preferred embodiments of the present invention have been described in detail above with reference to the drawings, the present invention is not limited to such specific structures. Those skilled in the art will be able to variously modify or modify within the scope of the technical idea described in the claims below. However, it is intended that such simple design changes or modifications clearly fall within the scope of the present invention.

100: maintenance reinforcement device 102: pillar
104: slab 110: anchorage
112: hinge connector 114: coupling hole
120: deflector 121: superstructure
122: support plate 122a: fastening hole
123: extension 124: screw member
124a: thread 125: handle
126: substructure 127: coupling table
128: Saddle 129: Hinge connector
130: steel wire 140: steel wire binding machine
141: first assembly 142: fixed support
143: second assembly 144: hinge connector

Claims (11)

In the slab repair and reinforcement device is provided with a fixing member fixed to each of the ends of the steel wire is connected to the edge of the slab, the deflector is disposed to connect with the steel wire between the fixing openings to impart tension to the steel wire side,
The deflection material is disposed in the central region of the slab and the slab maintenance reinforcement device characterized in that the reinforcement of the slab is made by applying a tension force to the steel side by adjusting the height through the movement of the screw member. The method of claim 1,
The deflecting material is an upper structure consisting of a support plate which is fixed to the central region of the slab via the anchor bolt and a hollow extension extending from the support plate to a predetermined height below;
Screw members are formed on the outer circumferential surface in the longitudinal direction, the upper side is screwed with the extension and operating the handle fixed to the middle of the length of the screw member to move up and down along the longitudinal direction of the extension; And
A lower structure formed of a hollow coupling rod disposed under the screw member and screwed with the lower side of the screw member and provided in the shape of a cross in the lower portion of the coupling rod and connected to the steel wire through a steel wire binder; Slab maintenance reinforcement device comprising a. The method of claim 2,
The screw member is a screw thread formed on the outer peripheral surface of the slab maintenance reinforcement, characterized in that the upper side and the lower side is formed in the opposite direction to each other with respect to the handle. The method of claim 2,
The steel wire binding device is provided on both left and right ends of the steel wire, the slab repair and reinforcement device, characterized in that the hinge and the fixing member is connected to each. The method of claim 4, wherein
The steel wire binder is a first coupling body is inserted through the steel wire fixedly connected via a fixed support, and one side is screwed with the first coupling and the other side is hinged with the saddle or the fixing device via a hinge connector Slab repair reinforcement device, characterized in that consisting of two combinations. In the method of repairing and reinforcing the slab is provided with a fixing member that is fixed to each end of the steel wire is connected to the edge of the slab, the deflector is disposed to connect with the steel wire between the fixing unit to give a tension force to the steel wire side,
The slab repair reinforcement method characterized in that the reinforcement of the slab is made by applying a tension force to the steel wire side by adjusting the height of the deflecting material disposed in the central region of the slab. The method of claim 6,
The deflecting material is an upper structure consisting of a support plate which is fixed to the central region of the slab via the anchor bolt and a hollow extension extending from the support plate to a predetermined height below;
Screw members are formed on the outer circumferential surface in the longitudinal direction, the upper side is screwed with the extension and operating the handle fixed to the middle of the length of the screw member to move up and down along the longitudinal direction of the extension; And
A lower structure formed of a hollow coupling rod disposed under the screw member and screwed with the lower side of the screw member and provided in the shape of a cross in the lower portion of the coupling rod and connected to the steel wire through a steel wire binder; Slab repair reinforcement method comprising a. The method of claim 7, wherein
The screw member is a screw thread formed on the outer circumferential surface of the slab maintenance reinforcement method, characterized in that the upper side and the lower side is formed in the opposite direction with respect to the handle. The method of claim 7, wherein
The steel wire binding machine is provided on each of the left and right ends of the steel wire, the slab repair and reinforcement method, characterized in that the hinge is connected to each of the deflector and the anchorage. The method of claim 9,
The steel wire binder is a first coupling body is inserted into the steel wire through a fixed support, the first coupling body, one side is screwed with the first coupling and the other side is hinged with the saddle or the fixing unit via a hinge connector Slab repair reinforcement method, characterized in that consisting of two combinations. The method according to any one of claims 6 to 10,
The slab repair reinforcing method is a step of fixing the pair of anchorages facing each other at the edge of the slab;
Disposed between the pair of anchorages, and installing a deflection material so that one side is fixed to the lower surface of the slab;
Hinged to the anchorage and the deflector after fastening the steel wire binder to both ends of the steel wire; And
Adjusting the height of the deflecting material to give a tension force to the steel wire side; Slab repair reinforcement method comprising a.

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