KR100767469B1 - Improving Nailing Apparatus and Method - Google Patents

Abstract

The present invention relates to an improved nailing device, and more particularly, in a nailing device inserted into a perforation formed in a cut slope and the like to reinforce an unstable slope, the grouting material hose hole 22 and two or more reinforcing material insertion holes ( In the plurality of spacers 20 having the 21 formed therein, the reinforcement member 10 inserted into the reinforcing member insertion hole 21 of the spacer member 20, and the grouting material hose hole 22 of the spacer member 20. Improved nailing device, characterized in that consisting of the grouting material hose 11 and the wedge 30 to prevent the reinforcement 10 is inserted into the reinforcing material insertion hole 21 of the spacer 20 to be inserted. It is about.

The improved nailing device according to the present invention uses a spacer to maintain the spacing of the reinforcement in the perforation, thereby increasing the friction and tensile force. In addition, a plurality of the reinforcing material is inserted into the spacer to increase the interval of perforation has the effect of reducing the cost and time.

Nailing, reinforcement, spacer

Description

Improved nailing device and construction method {Improving Nailing Apparatus and Method}

1 shows an improved nailing device according to the invention.

Figure 2 shows the shape of the spacer according to the invention.

3 shows the form of a cone according to the invention.

Figure 4 shows a cross-sectional view of the improved nailing device according to the present invention.

Figure 5 shows a construction cross-sectional view of the slope of the construction of the improved nailing device according to the present invention.

Figure 6 shows a slope cut surface is installed improved nailing device according to the present invention.

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

10: Stiffener 11: Grouting Hose

20: spacer 21: reinforcing material insertion hole

22: grouting material hose hole 30: wedge

31: unevenness 32: coupling groove

40: pressure plate 41: nut

Field of invention

The present invention relates to an improved nailing device, and more particularly, in a nailing device inserted into a perforation formed in a cut slope and the like to reinforce an unstable slope, the grouting material hose hole 22 and two or more reinforcing material insertion holes ( In the plurality of spacers 20 having the 21 formed therein, the reinforcement member 10 inserted into the reinforcing member insertion hole 21 of the spacer member 20, and the grouting material hose hole 22 of the spacer member 20. Improved nailing device, characterized in that consisting of the grouting material hose 11 and the wedge 30 to prevent the reinforcement 10 is inserted into the reinforcing material insertion hole 21 of the spacer 20 to be inserted. It is about.

Background of the Invention

In general, the slope nailing information steel construction is used the nail nail method or anchor method. Soil nail method is a method of reinforcing using the tension and shear force of the reinforcement in order to increase the weak strength of the cut slope soil itself to form a perforation on the vertical wall or inclined surface for the purpose of reinforcement, and the reinforcement to the formed perforation It is inserted, and the method of reinforcing the vertical wall to the inclined surface by injecting grout into the drill into which the reinforcement is inserted. In the above nail nail method, the grout composed of the reinforcing material and cement must be fixed and integrated to fully function as a reinforcing material, so the cement coating thickness of the reinforcing material, the mixing strength of the cement grout, the grout injection method, etc. are important, and the cement coating thickness of the reinforcing material is important. Should be formed uniformly, and the grout made of cement should be evenly and evenly injected into the perforations. In order to keep the cement coating thickness of the reinforcing material constant, the cement coating thickness remains constant only when the reinforcing material is located at the center in the perforation, so that a plurality of spacers are coupled in the middle of the reinforcing material so that the reinforcing material is located at the center of the perforation. However, since the spacer is generally manufactured by the contractor at random, the spacer has a large number of spacers using synthetic resin or rubber, etc., in which specifications and materials are not constant. have. In addition, the adhesion between the reinforcing material and the grout material is weak, the reinforcing material is easily pulled out, the frictional force and the tensile force is less, so the space-time spacing of the reinforcing material in the design increases the number of reinforcing material, the number of construction of the reinforcing material per area increases the construction cost is also high There is this.

Accordingly, the present inventors have made diligent efforts to solve the shortcomings of the prior art, and by using the spacer at the same time as the role of the cone and the spacer, by inserting a plurality of reinforcement in the spacer by confirming that the interval of perforation is increased The present invention has been completed.

The main object of the present invention is to provide an improved nailing device comprising a spacer.

Still another object of the present invention is to provide a nailing method for increasing the pullout resistance property using the improved nailing device.

In order to achieve the above object, the present invention is a nailing device that is inserted into the perforations formed in the inclined slope and the like to reinforce the unstable slope, the grouting material hose hole 22 and two or more reinforcing material insertion hole 21 is Grouting is inserted into the plurality of spacers 20, the reinforcing material 10 to be inserted into the reinforcing material insertion hole 21 of the spacer material 20, the grouting material hose hole 22 of the spacer material 20. It provides an improved nailing device, characterized in that consisting of a wedge 30 to prevent the reinforcement 10 is inserted into the reinforcement insertion hole 21 of the hose 11 and the spacer 20. .

In the present invention, the spacer 20 may be provided in plural at predetermined intervals along the longitudinal direction of the reinforcing material (10).

In the present invention, the reinforcing material insertion hole 21 may be formed so as to fix the reinforcing material 10 having various diameters or different diameters.

In the present invention, the wedge 30 is in the form of a cone cone, coupled with the reinforcing material 10 through the concave-convex 31 formed on the inner surface of the wedge 30, the lower side of the outer surface of the wedge 30 The reinforcing material 10 may be fastened to the reinforcing material insertion hole 21 into which the reinforcing material 10 is inserted.

The present invention also includes the steps of installing the improved nailing device in the perforation; Grouting the cement milk in the perforation using the grouting material hose 11; Solidifying the grouted cement milk in the perforations and then tensioning the reinforcement; And it provides a nailing method for increasing the pull resistance characteristics comprising the step of installing the pressure plate 40 in the opening of the perforation, and fixing with a nut (41).

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

Figures 1a, b and c show an improved nailing device according to the present invention, the improved nailing device according to the present invention is a grouting material hose hole 22 and two or more reinforcing material insertion hole 21 is formed A plurality of spacers 20, a reinforcement member 10 inserted into the reinforcing member insertion hole 21 of the spacer member 20, and a grouting material hose inserted into the grouting material hose hole 22 of the spacer member 20 ( 11) and a wedge 30 inserted into the reinforcing member insertion hole 21 of the spacer 20 to prevent the reinforcing member from being separated (FIGS. 1A, 1B and 1C).

Two or more small reinforcing materials 10 are inserted into the perforations, and the spacer 20 may maintain the two or more reinforcing materials 10 at regular intervals and simultaneously fix a position in the perforation. When a plurality of small diameter reinforcement 10 is inserted into the perforation, the attachment surface becomes wider, thereby increasing the pullout resistance, thereby increasing the spacing between the perforations, and thus reducing the use of the reinforcement, thereby reducing cost and time. It works. In addition, the improved nailing device is excellent in mechanical excellence to increase the adhesion strength by increasing the attachment surface between the reinforcing material and the grouting material with the same amount of reinforcement, and does not require a separate device for the spacer and the pull-out resistance The loss rate is reduced and the process can be simplified.

The reinforcing material insertion hole 21 may be formed to fix the reinforcing material 10 having various diameters or different diameters.

It is preferable that the diameter of the reinforcing material 10 used in the present invention is 13 mm to 32 mm, and high strength reinforcing bars, deformed bars, high tensile bars, steel bars, and the like can be used.

The diameters of the breakdown capability of the cross-sectional area of the reinforcements A _b, f _{y stiffener,} the stiffener d _b, the fixing length using the equation for a l _d to calculate the average adhesion stress (u). Calculation is as shown in [Equation 1] below.

As shown in Table 1 below, inserting a plurality of 16 mm diameter reinforcing materials 10 into a hole compared to inserting one 32 mm diameter reinforcing material 10 into a hole has an adhesion stress of 200% or more. It was found to increase.

Reinforcement based on D32mm rebar Title D32 D25 D22 D19 D16 D13 Cross-sectional area cm ² ) 7.942 5.067 3.871 2.865 1.986 1.267 Count One 3 4 5 5 6 (Combination) D25 (1) D13 (2) D22 (1) D13 (3) D19 (1) D13 (4) D16 (1) D13 (5) D13 (6) Total area 7.942 7.60 7.67 7.93 7.05 7.60 Adhesion stress 13.91 22.23 26.83 30.58 29.18 33.34 % Increase 100 159.78 189.66 219.85 209.79 239.67

Figure 2 shows the shape of the spacer 20 according to the present invention, as shown in Figure 2, the spacer 20 is a grouting material hose hole 22 and two or more reinforcing material insertion holes in the form of a disc. 21 is formed, two or more reinforcing materials are inserted into the reinforcing material insertion hole 21, and the grouting material hoses 11 are inserted into the grouting material hose holes 22. As shown in FIG.

The reinforcing member insertion hole 21 is preferably set to the maximum size of the reinforcing material 10 that is used in advance in consideration of the diameter of the reinforcing material 10 to manufacture the spacer 20, wherein the insertion hole 21 Since is set larger than the maximum diameter of the reinforcing material 10 that is usually used to use the reinforcing material 10 of various standards.

The spacer 20 fixes the position of the reinforcing material 10, and makes it possible to accurately position between the perforations, which can also simultaneously play a mechanical role in resisting tension or drawing. In other words, the device combines a device that resists tension or drawing at the same time as the existing spacer material. The material of the spacer 20 is not corroded, the compressive strength is 3 to 4 times or more of the reinforcing steel, and a material having a high corrosion resistance in addition to the high-strength FRP lightweight. The spacer 20 may improve the corrosion of the reinforcing material, the weight of the weight, the complexity and loss rate of the parts, the complexity of the assembly process, the construction speed, etc., and can adjust the position and shape according to the number of the reinforcing material (20).

The spacer 20 may be installed in a plurality at predetermined intervals along the longitudinal direction of the reinforcing material (10).

The spacer 20 may be formed in various forms in addition to the circular shape, and may be characterized in that the thickness of the spacer may be varied. (FIGS. 2A and 2B)

3 illustrates the shape of the wedge 30 according to the present invention. As shown in FIG. 3, the wedge 30 has a conical cone shape, and the concave-convex portion 31 is formed on the inner surface of the wedge 30. The reinforcement 10 is coupled to the reinforcement 10 and fastened to the reinforcement insertion hole 21 through which the reinforcement 10 is inserted through the coupling groove 32 formed on the lower side of the outer surface of the wedge 30. Through the concave-convex 31 of the inner surface of the wedge 30 can be used in all the reinforcement of different sizes, the reinforcing material 10 is inserted through the coupling groove 32 formed on the lower side of the outer surface of the wedge (30) It is fastened to the reinforcing member insertion hole 21 to prevent the reinforcement from being separated.

Figure 5 shows a construction cross-sectional view of the slope of the improved nailing device according to the present invention, Figure 6 shows a slope cut surface provided with the improved nailing device according to the present invention, the number for the purpose of reinforcement Perforations are performed on the straight wall or the inclined surface using a punching equipment, and a plurality of reinforcing materials are inserted into the perforations, and spacers are installed to maintain the gap between the inserted reinforcing materials. The spacer is provided in plural at predetermined intervals along the longitudinal direction of the reinforcement. The improved nailing device is installed in the perforations and grouted the cement milk using a grouting hose. When injecting grouted cement milk into the perforations, the spacer acts as a filling packer to reduce the separation from the perforations and to generate internal pressure in the perforations, thereby allowing the cement milk to be completely filled in the perforations. When the cement milk is solidified in the perforation, the reinforcement is tensioned, the pressure plate is installed in the opening of the perforation, and the construction of the reinforcement for reinforcing the vertical wall or the inclined surface by fixing with a nut increases the pullout resistance property.

Having described the specific parts of the present invention in detail, it will be apparent to those skilled in the art that such specific descriptions are merely preferred embodiments, and thus the scope of the present invention is not limited thereto. will be. Thus, the substantial scope of the present invention will be defined by the appended claims and their equivalents.

As described in detail above, the present invention has the effect of providing an improved nailing device having a spacer that simultaneously serves as a cone and a spacer. In addition, the improved nailing device according to the present invention has the effect of improving the adhesion by using a plurality of reinforcing materials in the same cross-sectional area. In addition, the spacer of the present invention is to fix the position of the reinforcement in the perforation, to maintain the spacing of the reinforcement in the perforation so as to establish a precise position between the perforations, increase the friction and adhesion area with the grouting material to increase the tensile resistance effect As a result, there is no restriction in the construction strata, and thus a solid landslide prevention and slope slope collapse prevention work can be performed. In addition, the spacer is excellent in resistance to corrosion by using a corrosion-resistant material, can be easily assembled using a wedge in the hole in the spacer, and a plurality of reinforcement is inserted into the spacer to increase the spacing of the cloth space. This simplifies the process and has the economic effect of reducing cost and time.

Claims (5)

In the nailing device that is fixed to the perforations formed in the inclined slope, etc. to reinforce the unstable slope, A plurality of spacers 20 having grouting material hose holes 22 and two or more reinforcing material insertion holes 21 formed therein, and various diameters or different diameters inserted into the reinforcing material insertion holes 21 of the spacer material 20. The reinforcing material 10 having a diameter, the grouting material hose 11 inserted into the grouting material hose hole 22 of the spacer 20 and the reinforcement material inserted into the reinforcing material insertion hole 21 of the spacer 20. Improved nailing device, characterized in that consisting of a wedge (30) of the cone-shaped cone to prevent the separation of (10). The improved nailing apparatus according to claim 1, wherein the spacer (20) is provided in plural at predetermined intervals along the longitudinal direction of the reinforcing member (10). delete According to claim 1, The wedge 30 is coupled to the reinforcing material 10 through the concave-convex (31) formed on the inner surface, and through the coupling groove 32 formed on the lower side of the outer surface of the wedge (30) Improved nailing device, characterized in that fastening to the reinforcing material insertion hole 21 is inserted into the reinforcing material (10). Construction method of nailing device to increase the pull resistance characteristics comprising the following steps: Installing the improved nailing device of any one of claims 1, 2 and 4 in the perforation; Grouting the cement milk in the perforation using the grouting material hose 11; Solidifying the grouted cement milk in the perforations and then tensioning the reinforcement; And Installing a pressure plate (40) in the opening of the perforation, and fixing with a nut (41).

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