KR20110077227A - Concrete construction for using the mesh net and methode there of - Google Patents

Abstract

PURPOSE: A concrete construction, using an irregular mesh net, and a method thereof are provided to improve the adhesive force of coating concrete by fixing a damaged wire net using a holder. CONSTITUTION: A concrete construction using an irregular mesh net comprises an irregular mesh net, a holder and coating concrete. The irregular mesh net adheres closely to the pipe which needs repair and reinforcement. The irregular mesh net comprises a cylindrical rod(111). The holder fixes the irregular mesh net on the inner surface of the pipe. The holder comprises a buried pin(220), a fastening bolt and a screwnut(240). The coating concrete is placed on the irregular mesh net fixed to the holder and cured.

Description

Concrete construction for using the mesh net and methode there of}

The present invention relates to a concrete structure, such as sewage conduit, and more specifically to a deformed steel wire network to fix the release steel wire network to the damaged surface of the conduit with a mortar to facilitate the injection of mortar and shotcrete (aka 'spitting') It relates to the concrete structure used and its reinforcement method.

In general, concrete structures such as sewage pipes that are buried underground are leaked due to aging or impact cracking and expansion of new joints, and newly constructed or damaged by excavating areas where sewage pipes are buried to reinforce leaks. The site was repaired and reinforced with a repair material such as a metal material or a fiber material.

However, because the above method requires excavation of the ground, it interferes with traffic between people and vehicles, and it is inconvenient, and it is necessary to remove or relocate underground buried materials (various cables, water and sewage, etc.) buried at the same location irrespective of sewage pipes. Inevitably, there were problems such as excessive construction period and cost, and there were problems such as uneven settlement of surrounding buildings due to ground subsidence due to the excavation of the ground.

In order to solve the above problems, the applicant has been registered with the 10-1095342 No. 10-895342, a water repellent dry repair reinforcement method of sewage conduit using a degree robot.

The pre-registered patent discloses sewage pipes in a state in which water level robots are installed on both sides of the sewage pipes for maintenance reinforcement, and the sewage is drained by rotation of a pressure feeding fan installed in the water drain pipe passing through the watertight panel of the water level robots. After placing anchors on the damaged surface, concrete is injected or shotcrete while the reinforcing bars are laid horizontally and vertically so that the coated concrete is cured.

However, the pre-registered patent has the advantage of solving the conventional problems by repairing and reinforcing the damaged part of the sewage pipe to the minimum thickness, but in order to place the anchor in the sewage pipe, it is necessary to drill a hole in the sewage pipe with the drilling equipment. In addition, there is a problem that the work of increasing the working time and the work efficiency decreases at the same time as the work of compressing the anchor in the perforated hole is complicated.

In addition, there was a problem in that the reinforcing bar, which is a circular steel bar, fell out from the anchor placed in the sewage pipe, and the adhesion strength of the coated concrete fell and the separation of the coated concrete was easy. There was a problem that occurred.

In view of the above-described conventional defects, the object of the present invention is to form a deformed steel bar that repeats at least two or more shapes in a lattice shape and fix it with fixing fixtures on the damaged conduit inner surface to fix the adhesion of the coated concrete. To provide a concrete structure and a reinforcement method using a deformed steel wire network to improve the.

In addition, another object of the present invention, the release steel bar can be formed of a thin steel wire, so that the installation cost is reduced compared to the use of thick steel wire concrete structure using a deformed steel wire network and its reinforcement method that can improve the economics In providing.

In addition, another object of the present invention is to provide a concrete structure and a reinforcement method using a deformed steel wire network to reduce the installation work process and time by allowing the fixture to accommodate the deformed steel rod is embedded in the damaged conduit inner surface. Is in.

Concrete structure using the present invention deformed steel wire network,

Deformed steel wire network in close contact with the inner surface of the sewage pipe that requires repair reinforcement;

Fixtures for fixing the deformed steel wire network to the inner surface of the conduit;

It is characterized in that it comprises a coated concrete that is cured by pouring in a deformed steel wire fixed to the fixture.

In addition, the concrete structure reinforcement method using the present invention deformed steel wire network,

A release steel wire network manufacturing step of installing the two-strand steel wire rod formed of a circular rod and a release portion in a lattice shape so as to be attached to an inner surface of the conduit requiring repair reinforcement;

A cleaning step of chipping the inner surface of the conduit requiring the repair reinforcement or washing with high pressure water;

A fixing step of tensioning the deformed steel wire net to an inner surface of the conduit requiring repair and reinforcement;

It is characterized in that it comprises a step of forming a coated concrete while the concrete being poured by mortar injection and shotcrete on the inner surface of the conduit fixed to the deformed steel wire network.

According to the present invention, the concrete structure using the deformed steel wire network and the reinforcement method thereof, to form a deformed steel bar that is repeated at least two or more shapes in a lattice shape to improve the adhesion of the coated concrete to be fixed by fixing to the damaged inner surface of the conduit In addition to being able to improve durability, the user can have the advantage of improving the reliability of the product.

In addition, according to the concrete structure and the reinforcement method of the present invention using the release steel wire network, since the press release or press the thin steel wire with a press to form a release steel bar to reduce the installation cost than when using a thick steel wire to improve the economics It can have the advantage.

In addition, according to the present invention, the concrete structure and the reinforcement method using the deformed steel wire network, by placing the deformed steel wire on the inner surface of the conduit damaged by the fixing fixture to fix the installation work process and time of the deformed steel wire network to reduce the installation cost It can have the advantage of improving the economics.

Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings. 1 is a perspective view of the present invention.

Concrete structure using the present invention release steel wire network, the release steel wire network 100 is in close contact with the inner surface of the conduit 10 that needs repair reinforcement, the fixed steel wire network 100 is fixed to the inner surface of the conduit 10 The fastener 200 is configured to include a coated concrete 300 which is poured and cured in the deformed steel wire network 100 fixed by the fastener 200, which will be described in more detail as follows.

The release steel wire network 100 is provided with a circular rod 111, at least one deformation portion 112 is formed in the circular rod 111 is formed to be wider than the width of the circular rod 111. It is provided with a release steel wire rod 110 including, the release steel wire rod 110 is provided in a grid so as to cross each other.

The cross-sectional area of the release part 112 is preferably formed to be the same as the cross-sectional area of the circular rod (111).

It is preferable to fix the intersecting portion of the release steel wire rod 110 by welding, it may be fixed by binding to a fixing member.

The fixture 200 is provided with a body 210, and is provided with a buried pin 220, the end of which is inclined to the end of the body 210 to be embedded in the inner surface of the conduit 10, the body 210 There is a fastening bolt 230 having a receiving groove 231 is formed to accommodate the circular bar 111 to the top of the), fixing the circular bar 111 coupled to the receiving groove 231 of the fastening bolt 230 It is provided with a nut 240 is fastened to the fastening bolt 230 so as to press.

It is preferable that the pressing protrusion 231 'protrudes inclined in the receiving groove 231.

The fixture 200 ′ is provided with a body 210, and is provided with a buried pin 220 having an inclined end portion so as to protrude to the lower portion of the body 210 and be embedded in an inner surface of the conduit 10. A fastening bolt 230a having a receiving hole 232 is formed to receive the circular bar 111 at an upper portion of the 210, and the circular bar 111 coupled to the receiving hole 232 of the fastening bolt 230a is provided. It is fastened to the fastening bolt 230a so as to be fixed is provided including a nut 240.

The fixture 200 ″ is provided with a body 210, and is provided with a buried pin 220 having an inclined end portion so as to protrude to the bottom of the body 210 and be embedded in an inner surface of the conduit 10. The accommodating groove 251 is formed to accommodate the circular rod 111 to the upper portion of the 210 is provided with a coupling portion 250 is formed with an uneven surface 252 on the outer peripheral surface, the receiving groove 251 of the coupling portion 250 The concave-convex 261 is mounted to the concave-convex portion 252 of the coupling portion 250 to fix the circular bar 111 coupled to the cap 260 is provided.

It is preferable that the pressing protrusion 251 ′ protrudes inclined in the accommodation groove 251.

In addition, the edge of the deformed steel wire network 100 fixed to the deformed steel wire rod 110 of the deformed steel wire network 100 on the inner surface of the conduit 10, or fixed to the fixtures 200, 200 ', 200 ". B is configured to further include a sag preventing member 400 to prevent sagging of the middle portion.

The sag prevention member 400 is provided with a fixing body 410 is formed with a fixing groove 411 to accommodate the circular rod 111, the conduit (through the fixing hole 412 of the fixing body 410) 10) end portion is provided with an inclined fixing pin 420 to be embedded in the inner surface.

The sag preventing member 400 ', the' c 'shaped fixing body 430 is provided to accommodate the circular rod 111 of the hetero-shaped bar 110, the end of the fixing body 430 is conduit ( 10) is provided including an inclined pin 440 to be embedded in the inner surface.

The following will be described with reference to No. 10-895342, the applicant of the present application registered maintenance repair of the inner surface of the constitution according to the present invention configured as described above.

First, the maintenance reinforcement section of the conduit 10 in which water flows is selected, and the order robot is introduced through the work manhole of the conduit 10 adjacent to the upstream and downstream of the selected section, and the order robot is controlled by the remote controller. After moving to the maintenance reinforcement section, the order panel is raised to close the upstream and downstream points of the conduit 10 requiring the additional reinforcement, and the drainage pipe is closely attached to the order panel so that no leakage occurs. .

The sewage filled in the space between the order panels is discharged to the outside while the sewage pipe corresponding to the water level is passed by a pressure feeding fan installed in the drainage pipe.

Accordingly, a dry space is formed between the upper and lower order panels installed in the conduit 10 and the sewage flows through the drainage pipe, so that the conduit 10 can be repaired and reinforced while maintaining the function of the conduit 10. The environment is created.

In this state, after the worker enters the conduit 10 through the work manhole, to repair and reinforce the inner surface of the conduit 10 in a state of inspecting and diagnosing the inner surface of the conduit 10, the inner surface of the conduit 10 is repaired. The release steel wire rod 110 is formed in the state of confirming the reinforcement position, and the release steel wire rod 110 presses the outer circumferential surface of the circular rod 111 of a predetermined length by using a pressurizing mechanism such as a press to form a circular rod 111 and a cross-sectional area. At least one of the same and wider release part 112 is formed.

In this case, the release part 112 is preferably formed at a predetermined interval.

By connecting the release steel wire rod 110 having a plurality of release parts 112 formed in the circular bar 111 in a lattice shape to produce a deformed steel wire network 100, each deformed steel wire rod 110 connected in a lattice shape Silver is preferably fixed by welding, but may be fixed by a separate tie member (not shown).

After carrying out the deformed steel wire net 100 produced by the above process into the conduit 10 requiring repair reinforcement, the cleaning operation of chipping the inner surface of the conduit 10 requiring repair reinforcement or washing with high pressure water is performed. do.

In addition, in order to fix the release steel wire network 100 to the inner surface of the conduit 10 that requires repair reinforcement, a plurality of the inner surface of the conduit 10 in accordance with the interval of the release steel wire rod 110 of the release steel wire network 100 By fixing the fixture 200 of the fixed steel wire network 100, which is shown in Figures 2 and 3a to 3b, the buried pin 220 of the fixture 200, the inner surface of the conduit (10) The body 210 is in close contact with the buried pin 220 embedded in the conduit 10 by hitting with a tableting device or a hammer in a state in close contact therewith, and the end of the buried pin 220 is formed to be inclined. It can be fixed firmly.

When the buried pin 220 is buried in the inner surface of the conduit 10, the deformed steel bar 110 of the deformed steel wire network 100 in the receiving groove 231 of the fastening bolt 230 protruding to the upper body 210 The nut 240 is fastened to the fastening bolt 230 in a state in which one side is coupled, and the nut 240 fastened to the fastening bolt 230 is fixed by pressing the release steel wire rod 110.

At this time, the release steel bar 110 is bent by the pressing protrusion 231 'protruding from the receiving groove 231 and firmly fixed by the nut 240 fastened to the fastening bolt 230, the other side release After tensioning the wire rod 110 with a tensioning device to produce a tensile force, it is possible to perform the fixing work as described above.

In addition, a plurality of fasteners 200 ′ are fixed to the inner surface of the conduit 10 in accordance with the interval between the deformed steel wire rods 110 of the deformed steel wire network 100 on the inner surface of the conduit 10 requiring repair reinforcement. 4 to 5, after the circular rod 111 of the deformed steel bar 110 is coupled to the receiving hole 232, the buried pin 220 is formed to be inclined in close contact with the inner surface of the conduit 10 The body 210 is in close contact with the buried pin 220 embedded in the conduit 10 by hitting with a tableting device or a hammer in a state in which it is made, and the end of the buried pin 220 is formed to be inclined easily and firmly. It can be fixed.

When the buried pin 220 is buried in the inner surface of the conduit 10, in a state in which one end of the release steel bar 110 is coupled to the receiving hole 232 of the fastening bolt 230a protruding to the upper body 210 The nut 240 is fastened to the fastening bolt 230a, and the nut 240 fastened to the fastening bolt 230a is firmly fixed by pressing the release steel rod 110 and the release steel rod 110 After the other end of the tension) is tensioned by a tensioning device or the like to generate a tensile force, the fixing work as above.

In addition, a plurality of fasteners 200 ″ are fixed to the inner surface of the conduit 10 in accordance with the space between the deformed steel wire rods 110 of the deformed steel wire network 100 on the surface of the conduit 10 requiring repair reinforcement. 6 and 7a to 7b, in the state in which the end of the buried pin 220 is formed to be inclined in close contact with the inner surface of the conduit 10 with a tableting device or a hammer, the buried pin 220 is conduit (10) The body 210 is in close contact with the inner surface, and the end of the buried pin 220 is inclined so that it can be easily and firmly fixed.

When the buried pin 220 is buried in the inner surface of the conduit 10, the deformed steel wire rod 110 of the deformed steel wire network 100 in the receiving groove 251 of the coupling portion 250 protruding to the upper body 210 The cap 260 is mounted on the coupling part 250 in a state in which one side is coupled, and the cap 260 is mounted while the unevenness 261 of the cap 260 is mounted on the unevenness 251 of the coupling part 250. The end of the pressing release steel wire 110 is to be fixed.

At this time, the release steel wire rod 110 is bent by the pressing protrusion 251 ′ protruding from the receiving groove 251 and firmly fixed by the cap 260 mounted to the coupling part 250. After the other end of the vane 110 is tensioned by tensioning equipment or the like to generate a tensile force, the fixing operation may be performed as described above.

In order to prevent sagging of corners or middle portions of the deformed steel wire network 100 fixed by the respective fixing portions, as shown in FIG. 8, the deformed steel wire rods 110 of the deformed steel wire network 100 are deflected in plurality. Fixing member 400 is fixed to the inner surface of the conduit 10 with tableting equipment or a hammer to prevent the deformed steel wire network 100 from sagging, and the deformed steel wire rod 110 is fixed to the deflection preventing member 400. 411 accommodates the fixed body 410 is in close contact with the inner surface of the conduit 10, and then through the fixing hole 412 of the fixed body 410 is fixed to the fixed pin 420, the tableting equipment or It can be fixed by embedding in the inner surface of the conduit 10 by hitting with a hammer or the like.

In addition, as shown in FIG. 9, the release steel bar 110 has a fixed pin 440 at the end of the fixed body 430 while the fixed body 430 of the 'c' shape accommodates the release steel wire rod 110. ) Is in close contact with the inner surface of the conduit 10, hitting the fixing body 430 with a tableting equipment or a hammer to fix the pin 440 to the inner surface of the conduit 10 to be fixed with the sag prevention member (400 '). It can be.

As shown in FIG. 10 as described above, the deformed steel wire network 100 on the inner surface of the conduit 10 is fixed to the fixing parts 200, 200 ′, 200 ″ and the sag preventing members 400, 400 ′. It is fixed by, as shown in Figure 11, the release steel wire bar 110 of the release steel wire network 100 may be fixed by the sag prevention member 400, 400 '.

When the deformed steel wire network 100 is fixed to the inner surface of the conduit 10 by the fixing parts 200, 200 ′, 200 ″ and the sag preventing member 400, 400 ′, shown in FIGS. 12 to 13. As shown, after pouring the mortar and sprayed (sprayed) the coated concrete 300, the site to cure and repair reinforcement can be repaired to a minimum thickness.

In this case, when the thickness of the covering concrete 300 is thickened and cross-section reinforcement is required more, the formwork may be installed to form the covering concrete 300.

When the repair reinforcement is completed in the above process, the above-described water pipe is separated from the order panel, and the separated water pipe and the order panel and the degree robot are moved to the outside of the conduit 10 through the work manhole and into the conduit 10. When water flows, the maintenance reinforcement of the conduit 10 is completed.

As described above, the present invention, although described by the limited embodiments and drawings, terms or words used in the present specification and claims are not limited to the ordinary or dictionary meanings and should not be interpreted, the technical spirit of the present invention It must be interpreted to mean meanings and concepts. Therefore, the configuration shown in the embodiments and drawings described herein are only one embodiment of the present invention, and do not represent all of the technical spirit of the present invention, various changes within the scope of the claims of the present invention It should be understood that there may be equivalents and variations.

1 is a perspective view of the present invention

Figure 2 is an exploded perspective view of the fixing part of the present invention

3A to 3B are side cross-sectional and plan cross-sectional views of FIG.

4 is an exploded perspective view of another embodiment of the present invention

5 is a cross-sectional view of FIG.

Figure 6 is another embodiment of the present invention a separate perspective view

7A to 7B are side cross-sectional and plan cross-sectional views of FIG.

8 is a cross-sectional view of the present invention sagging prevention member

Figure 9 is a cross-sectional view of another embodiment of the present invention prevention member

10 is an installation state of installing the deformed steel wire network of the present invention to the conduit inner surface as a fixture

Figure 11 is an installation state of installing the deformed steel wire network of the present invention to the inner surface of the conduit as a deflection prevention member

Figure 12 is a side cross-sectional view of the installation state to reinforce concrete in the present invention

Figure 13 is a plan sectional view of the installation state to reinforce concrete in the present invention

<Explanation of symbols for the main parts of the drawings>

100: deformed steel bar 110: deformed steel bar

111: circular rod 112: release part

200,200 ', 200 ": Fixed part 210: Body

220: buried pin 230,230a: fastening bolt

240: nut 250: coupling portion

260: cap 300: coated concrete

400,400 ': Deflection preventing member 410,430: Fixed body

420,440: push pin

Claims (16)

A deformed steel wire network in close contact with the inner surface of the conduit requiring repair and reinforcement; Fixtures for fixing the deformed steel wire network to the inner surface of the conduit; Concrete structure using a deformed steel wire network, characterized in that it comprises a coated concrete that is cured by pouring in a deformed steel wire network fixed by the fixture. The method according to claim 1, Deformed steel wire network, Round rods; The circular bar is provided with a release steel rod including a release portion formed by deforming at least one or more to be wider than the width of the circular rod, Concrete structure using a deformed steel wire, characterized in that the deformed steel bar is provided in a lattice form so as to cross each other. The method according to claim 2, Concrete structure using a deformed steel wire network, characterized in that for fixing the intersection of the deformed steel wire rod by welding. The method of claim 1, wherein the fastener, A body; A buried pin whose end is inclined so as to protrude to the lower portion of the body and be embedded in the conduit inner surface; A fastening bolt having an accommodating groove formed to receive a circular rod to an upper portion of the body; Concrete structure using a deformed steel wire network characterized in that it comprises a nut that is fastened to the fastening bolt and fixed to fix the circular rod coupled to the receiving groove of the fastening bolt. The method according to claim 4, Concrete structure using a deformed steel wire, characterized in that the pressing projection projecting inclined in the receiving groove. The method of claim 1, wherein the fastener, A body; A buried pin whose end is inclined so as to protrude to the lower portion of the body and be embedded in the conduit inner surface; A fastening bolt having a receiving hole formed to receive a circular rod to an upper portion of the body; Concrete structure using a deformed steel wire network, characterized in that it comprises a nut is fastened to the fastening bolt to secure the circular rod coupled to the receiving hole of the fastening bolt. The method of claim 1, wherein the fastener, A body; A buried pin whose end is inclined so as to protrude to the lower portion of the body and be embedded in the conduit inner surface; A coupling part in which an unevenness is formed on an outer circumferential surface while a receiving groove is formed to receive a circular rod to an upper portion of the body; Concrete structure using a deformed steel wire network, characterized in that it comprises a cap for mounting the concave-convex concavities and convexities to fix the circular bar coupled to the receiving groove of the engaging portion. The method of claim 7, Concrete structure using a deformed steel wire, characterized in that the pressing projection projecting inclined in the receiving groove. The method according to claim 1, The deformed steel wire network is characterized in that it further comprises a deflection preventing member for fixing the deformed steel wire rod of the deformed steel wire network on the inner surface of the conduit, or the deflection of the corner or the middle portion of the deformed steel wire network fixed by the fixture. Used concrete structures. The method according to claim 9, wherein the deflection prevention member, A fixing body having a fixing groove formed to receive the circular rod; Concrete structure using a deformed steel wire network, characterized in that it comprises a fixed pin inclined end portion to be embedded in the conduit inner surface through the fixing hole of the fixing body. The method according to claim 9, wherein the deflection prevention member, A 'c' shaped fixed body to accommodate the round bar of the deformed steel bar; Concrete structure using a deformed steel wire, characterized in that the fixed body end is provided with an inclined fixing pin to be embedded in the inner surface of the conduit. A release steel wire fabrication step of installing a radial steel wire rod formed of a circular rod and a release portion in a lattice shape so as to be attached to an inner surface of the conduit requiring repair reinforcement; A cleaning step of chipping the inner surface of the conduit requiring the repair reinforcement or washing with high pressure water; A fixing step of tensioning the deformed steel wire net to an inner surface of the conduit requiring repair and reinforcement; The concrete structure reinforcement method using a deformed steel wire network comprising the step of forming the coated concrete while the concrete is poured by mortar injection and shotcrete on the inner surface of the conduit fixed steel wire. The method of claim 12, wherein the fastener fixing step, Allowing the buried pin projecting to the lower part of the body to be embedded and fixed in the conduit inner surface to which the deformed steel wire network is attached; Coupling the release steel wire rod of the release steel wire network to the receiving groove formed in the fastening bolt of the body; Concrete structure reinforcement method using a deformed steel wire network comprising the step of pressing the nut to the fastening bolt to fix the deformed steel bar coupled to the receiving groove. The method of claim 12, wherein the fastener fixing step, Allowing the buried pin projecting to the lower part of the body to be embedded and fixed in the conduit inner surface to which the deformed steel wire network is attached; Coupling the release steel wire rod of the release steel wire network to the receiving hole formed in the fastening bolt of the body; Concrete structure reinforcement method using a deformed steel wire network comprising the step of pressing the nut to the fastening bolt to fix the deformed steel bar coupled to the receiving hole. The method of claim 12, wherein the fastener fixing step, Allowing the buried pin projecting to the lower part of the body to be embedded and fixed in the conduit inner surface to which the deformed steel wire network is attached; Coupling a release steel bar of the release steel wire network to a receiving groove formed in the coupling portion of the body; Concrete structure reinforcement method using a deformed steel wire, characterized in that it comprises the step of mounting the cap to the coupling portion to secure the deformed steel bar coupled to the receiving groove. The method according to claim 12, Reinforcing the concrete structure using a deformed steel wire network, characterized in that it further comprises the step of fixing the deflection prevention member on the inner surface of the conduit while receiving the deformed steel wire network to prevent sagging of the deformed steel wire network fixed by the fixture.

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