KR100645548B1 - The wire rope support and the reinforecment method of construction using of the wire rope support - Google Patents

Abstract

The present invention relates to a wire support and a reinforcing reinforcing method of a structure using the same, forming a female screw portion 14 on the inner circumference to the center of the fixing plate 11 to be mounted to the structure by a fixing anchor 27 It has a coupling shaft 12 which is supported by the reinforcing table 13 provided at regular intervals to form a flange 12 'protruding outwardly, and corresponds to the female screw portion 14 inside the coupling shaft 12. Guide shafts 15 of the cylindrical body forming the male screw portion 16 to be coupled to each other, and a plurality of rotation guide rings 17 on which the wires 24 are wound one by one on the outer circumference of the guide shaft 15; Rotating anchorage fixture 10 is configured to be repeatedly provided with the washers 18 alternately fixed to the end fixed cover 19 end; The bottom surface of the fixing plate 21 mounted on the structure by the fixing anchor 27, the lower surface of which is repeatedly formed by the projection 22 'and the cutting portion 22 "alternately and the inclined surface so as to increase the lower surface from one side to the other side The first configuration having the same configuration that protrudes a coupling piece 22 forming a through hole, and a through-hole 23 through which the wire 24 is fitted by penetrating the projection 22 'longitudinally on the coupling piece 22 for a long time. A tension force introduction fixing unit 20 provided in parallel with the pair of the fixing unit 20 'and the second fixing unit 20 "; It is provided with a wedge shaped end wedge 25 made of a two-piece, such as a cone-shaped lying on the end of the engaging portion 22, the through-hole 23 of the engaging force introduction anchorage 20 is coupled and protruded, On the outside, an insertion hole 26 'having the same shape as the conical outer circumference of the end wedge 25 or having a smaller diameter is formed through the cylindrical end and the outer diameter is the coupling piece 22. Each of the end wedges 25 and the wedge fixtures 26 are formed to be larger than the through-holes 23 of the through holes 23, and the end wedges 25 and the wedge fixtures 26 are sequentially assembled to the ends of the wires 24, respectively. It is composed.

In addition, a wire support anchor fixing step of fixing and fixing the fixing plates 11 and 21 of the rotating type fixing device 10 and the tension force introducing fixing device 20 with the fixing anchors 27 using the wire supporting device having such a configuration. (S ₁ ) and each fixing unit for welding and mounting the connecting piece 22 for fixing the wire 21 onto the fixing plate 21 of the sequential assembly of the rotary type fixing unit 10 and the tension force introduction fixing unit 20. Maintenance step (S ₂ ), a wire installation step (S ₃ ) for coupling and fixing the wires to the respective anchorages, and the reinforcement for the bending behavior of the damaged structure or beam by introducing a tension force to the installed wire (24) Provides a repair and reinforcement method of the structure consisting of the tension force introduction step (S ₄ ).

The present invention is the introduction of tension force and ease of construction, shortening the air, the arbitrary adjustment of the tension force is easy and convenient maintenance of the structure, can be repaired and reinforced without external damage of the existing structure damage of the existing structure It is possible to prevent the temporary strength drop of the existing structure due to the overstressing and reinforcement work, thereby securing the safety of the structure.

Tension, wire, rotary guide ring, coupling piece, anchoring anchor, anchor plate, washer, fixture

Description

Wire support and the reinforecment method of construction using of the wire rope support}

1 is an overall perspective view of a wire support according to the present invention

Figure 2 is an exploded perspective view of the pivoting anchorage of the wire support according to the present invention

Figure 3 is an exploded perspective view of the tension force introduction anchorage of the wire support according to the present invention

Figure 4 is a cross-sectional view of the state using the rotary anchorage of the present invention

Figure 5 is a cross-sectional view of the state using the tension force introduction anchor of the present invention

Figure 6 is a construction flowchart of the maintenance reinforcement method using the wire support of the present invention

[Description of Symbols for Main Parts of Drawing]

DESCRIPTION OF SYMBOLS 10: Rotating type | mold fixing fixture 11 and 21: Fixing plate 12: Coupling shaft

13: reinforcing rod 14: female thread 15: guide shaft

16: male thread 17: rotation guide ring 18: washer

19: fixing cover 20: tension force introduction fixture 22: coupling piece

23 through-hole 24 wire 25 end wedge

26: wedge fixture 27: anchoring anchor

The present invention relates to a wire support and a reinforcing reinforcing method of a structure using the same, and equipped with a rotating type anchorage in which the wire is wound at a predetermined interval on the bottom of the structure and a tension force introducing anchorage for introducing a tension force in a fixed state of the wire end. By installing and repairing and reinforcing the aging target structure, the introduction of the tension force and the ease of construction, the shortening of the air is achieved, the arbitrary adjustment of the tension force is easy and the maintenance of the structure is convenient.

Concrete structures are generally durable and semi-permanent when properly designed, selected materials are selected, and constructed, and many buildings are more than half a century old.

However, with the modernization, the construction of subways, highways, dams, houses, and large commercial buildings was rapidly built in a short period of time, and, after construction, load increase factors such as natural phenomena, frequent use and structural changes, as well as other environmental factors, As the number of years of use increases, aging proceeds rapidly due to chemical and physical modifications, and various defects are caused by this.

In particular, if the design, materials, and construction are inadequate, or the use and environmental conditions are poor, the durability and strength of the fragile parts will be deteriorated, and the repair and reinforcement will be necessary to secure the safety of the reinforced concrete structure and extend the service life. It became.

However, at present, the maintenance and reinforcement technology of domestic structures is not systematic, and there is not enough accumulated technology and experience in itself, so it is being used at the cost of foreign technologies. Interest and new research and development are actively in progress. Among them, repair and reinforcement methods generally applied include steel plate adhesion reinforcement method, cross-section extension reinforcement method, fiber sheet reinforcement method, post-tensioning method, etc. Reinforcing bars, steel sheets, PC steels, fiber sheets and the like are used as materials.

In the case of the cross-section expansion method, the construction method is to increase the cross-section by putting the concrete in the existing member to increase the strength, and since the solid integration of old and new concrete is very important for this purpose, an anchor is installed in the existing structure for this purpose. As the stroke treatment is especially important, the expert should perform the work with very skillful skills, and the problems of stability of the lower structure due to the increase in the dead weight of the upper structure due to the expansion are raised. There is a difficulty in examining problems such as construction difficulties and securing a work space due to being performed on the lower side of this happening member.

In addition, in the case of the steel plate bonding method, as a method of obtaining a reinforcing effect such as reinforcing steel by bonding the steel plate to the outer surface of the tension side of the concrete member and integrating it with the existing concrete, the live load insufficient when the fixed load and the live load act on the existing concrete member. The pressing method, the injection method, and the like have been applied as a method for bonding the steel sheet to the part to be received by the adhesive steel sheet.

In the case of the carbon fiber sheet attaching method, the materials used for the carbon fiber sheet include carbon fiber, resin for impregnation adhesion, primer, and the like, which are lightweight, high elasticity, high strength, and excellent durability such as salt resistance. It is characterized by its excellent tensile strength, and its use is increasing as a reinforcing material, but it is very flammable due to its high flammability, and when epoxy resin is used as a bonding material, it is exposed to the sun for a long time without coating on the surface. There is a problem that the intensity of ultraviolet rays is lowered, and the air lengthens with the increase of the number of laminated fiber sheets, and the local defective parts damaged after the surface treatment are repaired by cement mortar or epoxy resin mortar so that the step is within 1 mm. There is a problem that the following process must be followed.

On the other hand, the post-tensioning method is a field of the existing prestressing method, while the conventional reinforcement method is a method of reinforcing without damaging the existing structure, it is characterized by restoring and reinforcing the deformation or stress of the existing structure. The external tendon is a tension reinforcement method that is installed by tensioning post tensioning cables in the bar-like structure of the cross section of the structure. It is mainly used for cable-stayed bridges, suspension bridges, or long-span roof structures, and anchors that transmit steel wires and tension forces as structures to tension structures. It is composed of a saddle that generates bending stress due to tension force and a protective device for durability of tendon.The external tendon method has a clear structural analysis, wide range of application, and light weight of reinforcing member. Little increase, easy installation, short air, construction cost compared to other methods It is inexpensive, easy to maintain after construction, and easy to replace PT tendon when needed later, but it is difficult to construct, expensive, and it is impossible to arrange curve of PT tendon and its scope of application is limited.

The present invention is installed on the bottom surface of the structure by the installation of a rotating type anchorage in which the wire is wound and a tension force introduction fixture for introducing a tension force in a state where the wire end is fixed, the repair and reinforcement of the aging target structure to introduce the tension force and Its purpose is to achieve the simplicity of construction, shorten the air, the arbitrary adjustment of the tension force and the convenience of maintenance of the structure.

In addition, repair and reinforcement can be performed without external damage of the existing structure, thereby preventing the temporary structure of the existing structure due to damage of the existing structure and reinforcement work, and to secure the safety of the structure.

The present invention relates to a wire support and a reinforcing reinforcing method for a structure using the same, a rotating type anchorage in which the wire is wound at regular intervals on the bottom surface of the structure and a tension force introducing anchorage for introducing a tension force in a state where the wire end is fixed. By installing and repairing and reinforcing the aging target structure, it is possible to achieve the introduction of tension force, ease of construction, and shorten the air, and to easily adjust the tension force, and to facilitate the maintenance of the structure.

As a reference diagram for explaining the present invention, Figure 1 is an overall perspective view of the wire support according to the present invention, Figure 2 is an exploded perspective view of the pivotal anchorage of the wire support according to the present invention, Figure 3 is a view of the wire support according to the present invention 4 is an exploded perspective view of the tension introducing anchorage, FIG. 4 is a cross-sectional view of the state using the pivotal anchorage of the present invention, FIG. 5 is a cross-sectional view of the state using the tension-loading anchorage of the present invention, and FIG. It is a construction flowchart, and the detailed configuration and construction method through the following examples are as follows.

First, looking at the structure reinforcement wire support for the structure according to the present invention, installed on the bottom of the structure, such as bridge top plate or concrete beam or slab, respectively, with the reinforcement part spaced apart at regular intervals, each rotating type anchorage ( 10) and the tension force introduction anchorage 20, the tension force introduction anchorage 20 is provided with the first anchorage 20 'and the second anchorage (20 ") of the same form side by side, the rotation type anchorage ( 10) is provided with a rotating guide ring 17 in the form of a rotatable cylindrical body, one end of which is fixed to the first fixing hole 20 'by using an end wedge 25 and a wedge fixing device 26. The wire 24 is wound on the rotation guide ring 17 of the pivoting anchorage 10 to the outside and fixedly coupled to the second fixing hole 20 "at the other end, when the second fixing device is mounted on the aged structure. Normal tension on (20 ") side Characterized by the rehabilitation of the structure by introducing a tensile force to the wire 24 attached to install the device come true.

Looking at the rotation type anchorage 10 of the wire support according to the invention, there is provided a fixing plate 11 fixedly attached to the structure by a fixing anchor 27, the center of the fixing plate 11 is partially protruded A short cylindrical coupling shaft 12 having a flange 12 'is formed at an end thereof and is supported by a reinforcing rod 13 of a triangular piece at regular intervals along the side, and an internal thread part at an inner circumference of the coupling shaft 12. (14) is formed.

The guide shaft 15 of the cylindrical body is coupled to the coupling shaft 12, and a male screw portion 16 corresponding to the female screw portion 14 is formed at one end thereof, and has an X-shape therein. An inner reinforcing piece 15 'is provided and supported, and a plurality of rotation guide rings 17 and washers 18 are alternately provided on the outer circumference of the guide shaft 15 on the rotation guide ring 17. The tension force wire 24 is configured to be individually driven in a wound state, and the bottom end of the guide shaft 15 is closed by a fixing cover 19.

In addition, the other end end side of the wire support which is opposed to the rotational anchorage 10 is provided with a tension force introduction anchorage 20, which is the first anchorage 20 'and the second anchorage 20 "of the same shape side by side. It is provided in pairs, the bottom surface is formed to protrude to the bottom on the rectangular fixing plate 21, the lower surface is formed repeatedly alternately the protrusion 22 'and the cutting portion 22 "and the lower surface from one side to the other side It has a coupling piece 22 forming an inclined surface so as to be high, and a through-hole 23 through which the wire 24 is fitted through the protruding portion 22 'longitudinal section of the coupling piece 22 to form a long side thereof However, at the end where the wire 24 is inserted and protruded to the other end, there is a conventional two or three end wedge 25 having a conical shape lying thereon. The outer side of the end wedge 25 has a cylindrical shape. Wedge Fixture (26) on Top The wedge fixture 26 is formed by penetrating the cylindrical end of the insertion hole 26 'having the same shape as the conical outer circumference of the end wedge 25 or having a smaller diameter. The outer diameter is larger than the through hole 23 of the coupling piece 22 to be caught on the outside.
In detail, the end wedge 25 mounted while wrapping the outer circumferential surface of the wire 24 is a two or three end wedge 25 having a conventional wedge shape, and the conical end wedge 25 is used. The end of the wire 24 is mounted on the wedge fixture 26 having an insertion hole 26 'made of a conical space that is the same shape as the outer circumference of the end wedge 25, and is supported by being inserted into the wedge fixture 26. When the wire 24 is pulled in the other direction according to the wedge role of these end wedges 25, a strong fixing force is exerted, and such end wedges 25 are commonly known as wedges.

That is, the tension force introduction fixing unit 20 is installed by a fixing anchor 27 fixed to the structure, such as the rotation type fixing unit 10, at one side of the coupling piece 22 protruding onto the fixing plate 21 The wire fixing end wedge 25 and the wedge fixture 26 are integrally coupled to the end of the wire 24 protruding to the other side with the wires 24 inserted into the respective through holes 23. As shown in the cross-sectional view of Figure 5 is supported and fixed to one end of the coupling piece (22).
In the above process, the plurality of wires 24 having one end fixedly coupled to the first fixing hole 20 'are wound on the rotation guide ring 17 provided on the guide shaft 15 of the pivoting fixing device 10. End wedge 25 for fixing the wire, which is connected to the second fixing hole 20 'and is connected to the first fixing hole 20' in the same manner as that of fixing the wire 24 to the first fixing hole 20 '. It is mounted using the wedge fixture (26).

The wire support according to the present invention configured as described above is composed of a pivotal anchorage fixture 10 and first and second anchoring fixtures 20 'and 20 " The wire support fixing step S ₁ for fixing and fixing the fixing plates 11 and 21 of the tension introduction fixing unit 20 with the fixing anchors 27, and the fixing plate 11 of the pivoting fixing unit 10. On the top, a plurality of rotary guide rings 17, washers 18, and fixing cover 19, in which guide guide shafts 15 and wires 24 are wound one by one, are assembled in sequence, and the fixing plate of the tension force introduction fixing unit 20 is installed. On each of the fixing fixtures (S ₂ ) for attaching the fixing piece (22) for fixing the wire (24) onto the (21), and the engaging piece (22) of the first fixing hole (20 ') of the tension force introduction fixing device (20). One side end of the wire 24 penetrating through the through hole 23 of the end wedge 25 and the wedge fixture 26 is fixedly coupled, and then the wire 2 4) is wound around the outer rotation guide ring 17 of the pivoting anchorage 10 to return to the second anchorage 20 "side of the tension-entry anchorage 20 on the other side and the first anchorage 20 ' In the same process as the wire fixing method of the wire installation step (S ₃ ) to be fixedly coupled to the other end, and the conventional tension force introduction device (not shown) to the wire 24 that is outwardly the second fixing hole 20 " ) And the damaged structure or beam by fixing the wire 24 using the end wedge 25 and the wedge fixture 26 of the second fixing hole 20 "while the tension force is applied to the mounted wire 24. The tension reinforcement process (S ₄ ) to complete the reinforcement for the bending behavior of the structure is to perform the reinforcement of the structure.

That is, the reinforcing fixing fixture 10 is spaced apart at regular intervals with the reinforcing reinforcing portion at the bottom of an old structure damaged by bending deformation and requiring repair reinforcement, and the first and second fixing fittings 20 'on the other side thereof. Tightening force introduction fixture 20 of the (20 ") arranged side by side to attach each fixing plate (11) (21) and fixedly installed in the structure with a fixing anchor 27, the coupling of the rotational anchorage (10) The guide support shaft 15 is screwed to the shaft 12, and a plurality of rotation guide rings 17 and washers 18 are alternately repeatedly provided on the outer periphery thereof, and the assembly is sequentially performed by finishing with the fixing cover 19.
Next, one end of the wire 24 passing through the through hole 23 of the engaging piece 22 of the first anchoring hole 20 'of the tension force introducing anchorage 20 provided on the other side is the end wedge 25 and the wedge. After fixing and fastening using the fastener 26, the wire 24 is wound around the outer rotation guide ring 17 of the pivoting fastener 10 so that the second fastening device 20, which is the tension-entering fastener 20 on the other side, is again provided. The installation is completed by returning to the side and fixing the other end in the same process as the wire fixing method of the first fixing hole 20 ', and the wire 24 installed in this way is the first fixing hole 20' or the second fixing hole ( Residual wires 24 extending outwardly of 20 "are provided with end wedges 25 and wedges with hydraulic, pneumatic or mechanical conventionally known tension force introduction devices and tension forces introduced into the mounted wires 24. By fixing with a fixture 26 It is complete the rehabilitation against behavior.

The present invention is installed on the bottom surface of the structure by the installation of a rotating type anchorage in which the wire is wound and a tension force introduction fixture for introducing a tension force in a state where the wire end is fixed, the repair and reinforcement of the aging target structure to introduce the tension force and Easy to construct, shorten the air, easy to arbitrarily adjust the tension and maintenance of the structure has a convenient effect.

In addition, repair and reinforcement can be performed without external damage of the existing structure, thereby preventing temporary breakdown of the existing structure due to damage of the existing structure and reinforcing work, and thus has the effect of securing the safety of the structure.

Claims (5)

Installed on the bottom of the reinforcing reinforcement part of the aging structure at a predetermined interval spaced apart, one side of the rotational fixing unit 10 is wound around the outer periphery of the wire 24, the other side of the wire 24 Wire supporter, characterized in that the end of the first anchoring 20 'and the second anchoring (20 ") of the same shape of the same configuration of the side is made of a configuration in which the tension force introduction anchorage 20 is configured in parallel. According to claim 1, wherein the rotational anchorage 10 is formed in the inner periphery of the fixing plate 11 to be mounted to the structure by the anchoring anchor 27 to the female threaded portion 14 and provided at regular intervals on the outer periphery A male screw portion having a coupling shaft 12 supported by the reinforcing rod 13 to form a flange 12 'protruding outwardly, and coupled to the female screw portion 14 inwardly to the coupling shaft 12. Guide shafts 15 of the cylindrical body forming the (16) is coupled, a plurality of rotation guide ring 17 and the washer for fixing the wire 24 is wound around the guide shaft (15) outer periphery one by one (18) is alternately provided repeatedly and the wire supporter, characterized in that the end is fixed with a cover (19). According to claim 1 or 2, wherein the tension-introducing anchorage 20 is the bottom of the fixing plate 21 which is mounted to the structure by the anchoring anchor 27, the lower surface of the projection 22 'and the cutting portion 22 " Repeatedly formed alternately and provided with a coupling piece 22 forming an inclined surface so as to increase the lower surface from one side to the other side, and the wire 24 through the long end of the projection 22 'end surface of the coupling piece 22 Wire support, characterized in that the parallel configuration in parallel with the pair of the first fixing hole (20 ') and the second fixing hole (20 ") to form a through hole 23 is fitted. According to claim 1 or 2, wherein the wire 24 is fitted to the engaging piece 22 through-holes 23 of the tension-introducing anchorage 20, the end fastener (such as conical shape lying on the protruding end) 25), and the outer side is formed through the end of the cylindrical insertion hole (26 ') having the same shape as the conical outer periphery of the fastener 25 but of a smaller diameter and the outer diameter is Wire supporter, characterized in that having a larger configuration than the through-hole (23) of the engaging piece 22 is covered with a cylindrical fixing rod (26) to be engaged on the outside. Each fixing plate 11 of the rotational anchorage anchorage 10 and the first and second anchoring holes 20 'and 20 "of the anchorage anchorage anchorage 20 so as to be spaced apart at regular intervals with the reinforcing reinforcement at the bottom of the aged structure. The guide support shaft 15 and the wire 24 one by one on the fixing means 11 for fixing the wire support fixture S ₁ to the fixing anchor 27, and the fixing plate 11 of the pivoting fixing fixture 10. A plurality of rotating guide ring (17), washer (18), fixed cover (19) are wound and assembled, and the engaging piece for fixing the wire (21) onto the fixing plate (21) of the tension introduction fixture (20) ( In the state in which one end of the wire 24 is fixedly coupled through each of the fixing unit installation process S ₂ for welding and attaching 22) and the through hole 23 on the coupling piece 22 of the tension force introduction fixing unit 20. The individual rotation guide ring 17 of the pivoting anchorage 10 is wound to the outside to return to the tension force introduction anchorage 20 and the other side. For the rehabilitation of the bending behavior of the damaged structure or beam by implanting a wire installation process (S ₃₎ and, after installing one of ordinary tensile force introduction device known in the installed wire 24 tensile force such that the fixed combination Repair reinforcement method of the structure using a wire support, characterized in that consisting of a tension force introduction process (S ₄ ).

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