KR200274922Y1 - Apparatus for anchoring reinforcing steel material - Google Patents

Abstract

The present invention is to provide a steel fixing device that can increase the load capacity of the structure while minimizing damage to the existing concrete structure, can be applied to all concrete structures.

Steel fixing device according to the present invention is a device for fixing the slab reinforcing steel installed in the lower surface of the slab of the concrete structure, the screw-type height adjusting device for supporting the slab reinforcing steel so that the height can be adjusted from the lower end of both ; And coupled to the lower surface portion of the screw height adjustment device is fixed to the vertical column or wall portion of the concrete structure, while supporting the screw height adjustment device from the bottom, while receiving the load applied to the screw height adjustment device It is configured to include a fixing support for transmitting to the vertical column or wall portion.

According to the present invention, by applying the steel fixing device attached to the leaflet plate it is possible to secure the appropriate supporting means of the small standard, there is an advantage that can be applied regardless of the structural form of the concrete structure.

Description

Apparatus for anchoring reinforcing steel material}

The present invention relates to a steel fixing device, and more particularly to a steel fixing device that can be applied regardless of the structural type of the concrete structure by securing the appropriate support means of the small standard by applying the steel fixing device attached to the leaflet board .

In general, the reinforcement method of the concrete structure includes a steel plate attachment reinforcement method, fiber attachment reinforcement method, steel longitudinal expansion reinforcement method.

Steel plate attachment reinforcement method is a method of fixing the reinforcing iron plate on the bottom or side of the concrete structure by anchoring, and filling the epoxy to increase the load capacity of the structure. This method has been applied to many existing bridges and concrete structures, but due to the different properties of the reinforcement sheet and the concrete structure, the expansion and contraction of the material between the reinforcement sheet and the concrete structure due to the temperature expansion and contraction causes the reinforcement function to be lost. As a result, it is difficult to grasp the state of cracks and deterioration that occur in the interior of the concrete structure, which makes it difficult to accurately diagnose the performance of the concrete structure.

Fiber attachment reinforcement method is a method of attaching and reinforcing high strength fiber (eg glass fiber) to the bottom or side of concrete structure.The specific gravity of the attached fiber is lighter than steel or concrete material and has excellent tensile strength. As an alternative to the reinforcement method, it is widely used to reinforce concrete structures. However, this method also has weaknesses in the separation of materials due to the different physical properties from the concrete structure is employed in the repair work of concrete structures, but is not widely used for the purpose of reinforcement.

Steel vertical expansion reinforcement method is a method of reinforcing by installing steel vertical type on the lower surface of concrete structures such as bridges, and it adds a load burden to existing structures due to the addition of heavy weight according to the use of high steel H-beam. The lack of adequate anchorage means has been applied only to reinforcement of concrete structures where existing molds could be used as the main support.

The present invention aims to provide a steel fixing device that can increase the load capacity of the structure while minimizing damage to the existing concrete structure and can be applied to all concrete structures.

Figure 1a is a side view showing the structure of the screw height adjustment device of the steel fixing device according to the present invention.

Figure 1b is a plan view showing the structure of the threaded height adjustment device of Figure 1a.

Figure 1c is a view showing the structure of the nut portion of the threaded height adjustment device of Figure 1a.

Figure 2a is a front perspective view showing the structure of the fixing support device of the steel fixing device according to the present invention.

Figure 2b is a rear perspective view showing the structure of the fixing support device of Figure 2a.

Figure 2c is a view showing a state in which the fixing support device of Figure 2a is installed in the concrete structure.

Figure 3a is a front perspective view showing the structure of another embodiment of a fixing support device of a steel fixing device according to the present invention.

Figure 3b is a rear perspective view showing the structure of the fixing support device of another embodiment of Figure 3a.

Figure 3c is a view showing a state in which the fixing support device of another embodiment of Figure 3a is installed in a concrete structure.

Figure 4a is a view showing a state of reinforcing the concrete structure using the steel fixing device according to the present invention.

FIG. 4B is an enlarged fragmentary view of portion “A” of FIG. 4A. FIG.

4C is a side view of FIG. 4B.

5 (A) to (D) is a view showing a variety of examples to enhance the rigidity of the bell in the reinforcement of the concrete structure using the steel fixing device according to the present invention.

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

110 ... Thread Height Adjuster 111 ... Main Body

111b Bolt 112 Height adjustment nut

120 fixing unit 121 body

122 Acupressure plate 123 Shear support plate

121h ... Anchor Bolt Ball 122h ... Bolt Ball

122s ... Acupressure plate support member 400 ... column (side wall) of concrete structure

410 ... crossbeam 420 ... reinforcing steel bell

420s ... reinforcement plate 430 ... elastic support member

440,440 '... steel tension anchor 450 ... steel

Steel fixing device according to the present invention to achieve the above object,

Apparatus for fixing the slab reinforcing steel installed on the lower surface of the slab of the concrete structure,

Screw type height adjustment device for supporting the slab reinforcing steel to be adjusted in height at the lower end of both ends; And

It is coupled to the lower surface portion of the screw height adjustment device and is fixed to the vertical column or wall surface of the concrete structure, while supporting the screw height adjustment device from the bottom, while receiving the load applied to the screw height adjustment device to the vertical Its characteristics are that it includes a fixing support device for transmitting to the pillar portion or the wall surface portion.

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

Steel fixing device according to the present invention is largely composed of a screw height adjustment device and a fixing support device. Figure 1a to 1c shows a screw height adjustment device, Figure 1a is a side view showing the structure of the screw height adjustment device, Figure 1b is a plan view, Figure 1c shows the structure of the nut of the screw height adjustment device Drawing.

1A to 1C, the threaded height adjusting device 110 serves to support the height of the concrete structure reinforcing steel (eg, H-beam) so that height adjustment is possible under both ends thereof. The main body portion 111 is provided with a bolt portion 111b corresponding to the male screw in the center, and the height adjustment nut portion 112 corresponding to the female screw screwed to the bolt portion 111b. Such a screw type height adjustment device 110 is manufactured according to a specific design value, a conventional screw jack or hydraulic jack may be used.

Figure 2a to 2c shows a fixing support device, Figure 2a is a front perspective view showing the structure of the fixing support device, Figure 2b is a rear perspective view, Figure 2c is a view showing a state installed in the concrete structure.

Referring to Figure 2a to 2c, the fixing support device 120 is coupled to the lower surface of the screw-type height adjusting device 110 by bolt fastening and is fixed to the vertical column or wall surface of the concrete structure, screw type While supporting the height adjusting device 110 from the lower side, the load applied to the screw-type height adjusting device 110 is received and transferred to the vertical column or wall portion. On the front surface of the body 121 of the fixing support device 120, a plurality of scoop-shaped pressure plate support members 122s for supporting the load, and the screw-shaped to be horizontally welded on the pressure plate support members 122s Acupressure plate 122 for mounting the height adjustment device 110 is provided, the rear support plate 123 is inserted into the vertical pillar or side wall portion of the concrete structure is provided on the back of the body 121. Here, the leaflet plate 123 is provided in this way to ensure a stable bearing force against the load given to the pressure plate 122 of the front surface. Therefore, the shear support plate 123 may be omitted depending on the state of the concrete structure to be applied. In FIG. 2A and FIG. 2B, reference numeral 121h is an anchor bolt hole, and 122h is a bolt hole for fastening the bolt with the threaded height adjusting device 110.

3A to 3C show another embodiment of the fixing support apparatus 120 as described above, and there is no significant difference in structure from the fixing support apparatus 120 illustrated in FIGS. 2A to 2C. However, in the structure of the acupressure plate support member 122s for supporting and fixing the acupressure plate 122, in the case of the embodiment of FIGS. 2A to 2C, an upper end portion of the acupressure plate support member 122s may hang on an upper surface of the concrete structure. In the case of the embodiment of FIGS. 3A to 3C, there is no such "a" extension, whereas the "a" shape is extended by a predetermined length. This latter case is used where there is no space between the slab of the concrete structure and the vertical column or side wall.

Then, it will be described for the reinforcement of the concrete structure using the steel fixing device according to the present invention having the configuration as described above.

Figure 4a to 4c shows a state of reinforcing the concrete structure using the steel fixing device according to the present invention, Figure 4a is an overall reinforcement state diagram, Figure 4b is an enlarged partial excerpt of the "A" part of Figure 4a 4C is a side view of FIG. 4B.

4a to 4c, in the reinforcing work of the concrete structure using the steel fixing device according to the present invention, first of the steel fixing device on both side wall portions or pillars 400 of the lower portion of the concrete structure to be subjected to load bearing reinforcement Fixing support devices 120 will be installed respectively. At this time, the grooves are first dug using special equipment (grooving machine) so as to correspond to the shape of the shear supporting plate 123 of the fixing support device 120 at predetermined portions of both side wall portions or the pillar portions 400 of the lower part of the concrete structure. After inserting the shear support plate 123 to mount the fixing support device 120, the fixing bolt 120 is fixed by the anchor bolt to complete the installation of the fixing support device 120.

In this way, when the installation of the fixing support device 120 is completed, the screw height adjusting device 110 is installed on the pressure plate 122 of each fixing support device 120, respectively. Then, the horizontal beam (cross-beam) 410 is mounted on the upper surface of each screw-type height adjusting device 110, respectively. Then, a steel longitudinal (main-beam) 420 for reinforcing the concrete structure is manufactured according to the design value, and as shown in FIGS. 5A to 5D on at least one of the lower surface portion and the side portion thereof, the steel wire Tension anchors 440 and 440 'are installed. At this time, in manufacturing the vertical mold 420, preferably, after reinforcing by welding the reinforcing plate (420s) to the body side portion of the vertical mold 420, the upward processing is performed.

In this way, when the production of the bell 420 is completed, the bell 420 to the two side cross beams 410 (Fig. 4a shows one side cross beam, in fact has the same installation structure on the opposite concrete structure, and thus both sides Horizontally installed) At this time, in mounting the vertical 420 to both side cross beams 410, preferably the elastic support member 430 is installed on the cross beams 410 and then mounted on the vertical 420. This is so that the threaded height adjustment device 110 can also serve as a bridge device in the bridge.

When the mounting of the bell 420 is completed, by raising the screw type height adjustment device 110 to closely contact the upper surface of the bell 420 and the lower surface of the concrete structure, the bell 420 is the lower surface of the concrete structure While fixing by the anchor bolt on the screw height adjustment device 110 is fixed so that there is no flow. Then, after the steel wire 450 is installed in the steel wire tensioning anchorages 440 and 440 ′, the rigidity of the vertical mold 420 is increased by tensioning. That is, as in the case of FIGS. 5A and 5B, steel wire tensioning anchorages 440 are respectively provided on both ends of the lower surface of the vertical mold 420, and the steel wire 450 is installed thereon to tension the vertical mold 420. It is also possible to improve the rigidity of, and as in the case of Figure 5 (C) is provided with a wire tensioning anchorage 440 ′ on each side of the end of the vertical portion 420, respectively, and by installing a steel wire 450 thereon tension It is also possible to enhance the stiffness of 420. Further, as in the case of FIG. 5D, steel wire tensioning anchorages 440 and 440 ′ are respectively provided at both ends of the lower surface and the side surface of the vertical mold 420, and the steel wire 450 is provided to each of them to tension the vertical. It is also possible to enhance the stiffness of 420.

When the stiffness enhancement operation of the bell 420 is completed in this way, epoxy is injected into the air gap between the upper surface of the bell 420 and the lower surface of the concrete structure to form the upper surface of the bell 420 and the lower surface of the concrete structure. Integrate. Then, a finishing operation (such as a painting operation and a grease application operation) is performed to prevent corrosion of the vertical mold 420 and the tensile steel wire 450.

As described above, the steel fixing device according to the present invention can secure the appropriate supporting means of the small standard by applying the steel fixing device attached to the leaflet board, can be applied regardless of the structural type of the concrete structure There is an advantage. Therefore, when the present invention is applied to the load capacity reinforcement of the concrete structure, it is possible to achieve the purpose of the load capacity reinforcement while minimizing the damage of the existing concrete structure, thereby reducing the cost due to the re-installation of the aging concrete structure, concrete waste It can also have side effects to prevent environmental pollution from material generation.

Claims (4)

Apparatus for fixing the slab reinforcing steel installed on the lower surface of the slab of the concrete structure, Screw type height adjustment device for supporting the slab reinforcing steel to be adjusted in height at the lower end of both ends; And It is coupled to the lower surface portion of the screw height adjustment device and is fixed to the vertical column or wall surface of the concrete structure, while supporting the screw height adjustment device from the bottom, while receiving the load applied to the screw height adjustment device to the vertical Steel fixing device comprising a fixing support for transmitting to the column or wall portion. The method of claim 1, The screw-type height adjusting device is a steel fixing device, characterized in that the main body portion is provided with a bolt portion corresponding to the male screw in the center of the body, and the height adjustment nut portion corresponding to the female screw screwed to the bolt portion. The method of claim 1, The front surface of the body of the fixing support device is provided with a plurality of ladle-shaped acupressure plate support member for supporting the load, the pressure plate for the mounting of the screw-type height adjusting device to be fixed horizontally welded on the acupressure plate support member, the body The rear of the steel fixing device, characterized in that the shear support plate is provided is fixed to the vertical pillar or side wall portion of the concrete structure. The method of claim 3, wherein Steel fixing device characterized in that the upper end portion of the ladle-shaped acupressure plate support member is extended by a predetermined length in a "b" shape so as to hang on the upper surface of the concrete structure.