KR102060423B1 - Elastic pressing device, multi-reinforced nail structure and soil nailing method using the same - Google Patents

Abstract

The present invention relates to an elastic pressing device, a multi-reinforced nail structure using the same, and a soil nailing method for the same. The elastic pressing device exclusively uses a force of restitution in a compressed spring as a force of compressing the ground surface. According to the present invention, the elastic pressing device comprises: a strand; a compression grip connected to a front end of the strand; the spring inserted into the strand and supported by the upper surface of the compression grip; a cylindrical casing having an accommodation space including the spring and the compression grip by the connection of upper and lower members, wherein the strand penetrates the center of the upper surface of the upper member and a through hole preventing the upward separation of the spring is formed at the center of the upper surface of the upper member; and a compression plate connected to an upper end of the casing and having a through path continuous with the through hole at the center, wherein multiple wedge holes expanded upwards are formed at constant intervals in a periphery of the compression plate. The spring is compressed toward the compression plate by a force of pulling the strand rearwards while the compression plate and the casing are fixed.

Description

Elastic pressing device, multi-reinforced nail structure and soil nailing method using the same}

The present invention relates to an elastic pressing device that allows the restoring force of a compressed spring to be diverted to a force for pressing the surface, and a multi-reinforced nail body installation structure and a small nailing method using the same.

Soil nailing method is a ground reinforcement method that suppresses the displacement of the ground expected during or after construction by increasing the overall shear strength of the ground itself by inserting reinforcement into the ground. Soil-reinforced ground can be applied to steep slopes to improve land use efficiency, build stable retaining walls that use the ground itself as walls, and in terms of speed, simplicity, economy and light equipment use. Due to its advantages over other methods, it is widely used as a flexible ground reinforcement method for slope reinforcement and excavation surface.

However, this small nailing method is insufficient to counteract rockfall and local collapse on the sloped surface. Therefore, conventionally, wire mesh, wire ropes, etc. were installed on the surface of the inclined ground to prevent rockfall and local collapse of the ground surface. However, such a conventional method only prevents the falling of rocks and the like from the inclined ground, and a member such as a wire mesh or a wire rope has not been utilized as a member for enhancing stability against local collapse of the ground surface.

[Reference Figure 1] below shows a cross section of the nail tension device provided by Patent No. 10-0671927.

[Reference Figure 1]

In the case of using the nail tension device provided by Patent No. 10-0671927, the lower portion of the body 30 of the nail and nail tension device is coupled (screw coupling, welding, etc.) as shown in [Reference 2] below. 30 is fixed as it is installed. Therefore, the pressure plate 10 in contact with the upper surface of the main body 30 serves to press the ground surface by the restoring force of the spring 40, but it is impossible to cope with the case where the soil is lost from the ground surface.

[Reference Figure 2]

[Reference Figure 3] below shows the slope ground pressure reinforcement structure provided by the Patent Publication 10-2010-0081704.

[Reference Figure 3]

Slope ground pressure reinforcement structure of the patent 10-2010-0081704 improves the linkage between the soil nailing method and the ground surface reinforcement and rockfall prevention means to simultaneously compress and reinforce the slope ground surface and the slope ground surface during the soil nailing process By making it possible to omit a separate surface protection process, it is possible to realize the simplification of the construction process, the reduction of air and the cost savings in the construction stage as well as to enhance the stability of the sloped ground. And even when the earth surface soil is lost, the response through the recompression of the external spring 700 can be recompressed. However, since the external spring 700 and the fixture 800 are exposed to the outside of the ground for a long time, the external spring 700 or the fixture 800 may be damaged by external force as well as visual disturbance. In order to prepare for such a problem, as shown in [Reference Figure 4], the cover can be fixed by covering the exposed part, but it is still visually unstable, and a separate work of fixing the cover is required, and the cover is not broken by external force. Or peeling off, the above-mentioned problems are reproduced as they are.

[Reference Figure 4]

[Reference FIG. 5] shows the surface pressure reinforcement structure that is connected to the small nail provided by Patent Registration 10-1370954. In such a structure, the surface pressure reinforcement effect can be obtained only by the compression fixing of the internal spring 300, and the pressure reinforcement effect can be maintained by the operation of recompressing and fixing the earth and sand-containing internal spring 300 of the earth surface, The spring 300 is accommodated in the acupressure port receiving cylinder 210 below the ground surface, and covers and fixes the opening of the receiving cylinder 210 with the pressure cover 400 to prevent breakage of the built-in spring 300 by external force. Can be.

[Reference figure 5]

However, Patent No. 10-1370954 has a structure that presses the ground surface by using the restoring force (reaction force) of the compressed inner spring 300. Since the unstable ground surface becomes an action point of the force compressing the inner spring 300, the inner spring Since the restoring force of 300 not only acts downward but also acts upward, the restoring force cannot be fully utilized.

1. Registered Patent 10-0671927 "nail tensioning device and a soil nailing method using the same" 2. Patent Publication 10-2010-0081704 "Slope ground pressure reinforcement structure and construction method" 3. Registered patent 10-1370954 "Surface pressure reinforcement structure and construction method associated with the nail construction" 4. Patent 10-1494236 "Soil nail-earth anchor composite ground reinforcement structure and soil nail-earth anchor composite ground reinforcement method"

An object of the present invention is to provide a resilient pressing device for effectively reinforcing the ground surface, easily responding to the loss of surface soil, and to easily install and inspect the construction site, and a multi-bar nail structure and soil nailing method using the same. There is this.

The present invention for solving the above problems is "strand; A compression grip coupled to the tip of the strand; A spring fitted to the strand and supported by the pressing grip upper surface; A cylindrical casing in which an accommodation space in which the spring and the crimping grip are embedded is formed by the coupling of the upper and lower members, and a through hole is formed at the center of the upper surface of the upper member to prevent the spring from escaping upward; And a compression plate coupled to an upper end of the casing, and having a through passage continuous to the through hole at a central portion thereof, and having a plurality of wedge holes extending upward in a peripheral portion at equal intervals. And an elastic pressing device configured to compress the spring toward the compression plate by a force for pulling the strand backward in a state where the compression plate and the casing are fixed.

In addition, the present invention is a "multi-bar nail structure to be inserted and installed in the drilling hole of the ground to be reinforced, said elastic pressing device; A plurality of lengths corresponding to the entire length of the perforation hole, each of which is fixed by a wedge inserted into the wedge hole in a state of penetrating through the wedge holes of the compression plate and protruding upward to a length greater than the depth of the ground surface layer; Deformed steel bars; And a pressure plate covering the inlet hole and having a central hole formed therein. It is configured to include, in the state in which the compression plate and the casing is fixed, by pulling the strand of the elastic pressing device drawn out to the outside of the drilling hole through the central hole of the pressure plate to the spring in the direction of the compression plate By fixing in a compressed state, the restoring force of the spring is dedicated, and the multi-reinforced nail structure, characterized in that the pressure plate is configured to act as a force for pressing the ground surface.

In addition, the present invention "(a) forming a hole in the ground to be reinforced; (b) penetrating the deformed rebar having a length corresponding to the entire length of the perforated hole through the wedge hole of the compression plate of the elastic pressing device, and fixing the multi-reinforced nail body by protruding upward to a length above the depth of the ground surface layer. Assembling; (c) inserting the multi-reinforced nail body into the drilling hole, covering the drilling hole with a pressure plate having a central hole, and drawing the strand of the elastic pressing device to the outside of the drilling hole through the central hole of the pressure plate. ; (d) grouting the inside of the drill hole; And (e) pulling the strand backwards to fix the spring in a compressed state toward the compression plate; Soil nailing method that includes a.

According to the present invention as described above can be expected the following effects.

1. Stabilize the surface layer as the restoring force of the fixed spring by pulling the strand acts in the direction of the depth of the ground and is transferred to the force to press the surface of the ground.

2. Since the elastic pressing device is installed at the depth more than the expected depth (1 ~ 2m) of the surface collapse of the ground to be reinforced, it can easily cope with the loss of surface soil by retensioning and fixing the strand.

3. The casing in which the spring is built in the elastic pressing device is composed of a combination of upper and lower members, so it can be easily assembled at the construction site of Soil Nail, and the spring divided into several grades according to the elastic force (restoration force) can be easily replaced as needed. can do.

4. Compression plate and a plurality of deformed reinforcing bars are integrally combined to tension the strand of the elastic pressing device so that the compression plate behaves similarly to the compression type inner body of the earth anchor to reinforce the ground.

1 shows a coupling relationship between strands, compression grips, and springs.
2 is a perspective view of the casing and compression plate embodiment.
3 is a longitudinal sectional view (a) of the casing and compression plate embodiment and a front view (b) of the compression plate.
4 is a structural diagram of an elastic pressing device provided by the present invention.
5A to 5C illustrate a process of completing a multi-rebar nail body installation structure by performing a soil nailing method using an elastic pressing device.

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

1. Elastic pressing device

The present invention "strand 110; A crimping grip 120 coupled to the tip of the strand 110; A spring 130 inserted into the strand 110 and supported by an upper surface of the crimping grip 120; An accommodation space 143 in which the spring 130 and the compression grip 120 are built is formed by the combination of the upper and lower members 141 and 142, and the strand 110 is formed at the center of the upper surface of the upper member 141. Cylindrical casing 140 has a through hole penetrating and blocking the upward departure of the spring 130; And a compression plate coupled to an upper end of the casing 140, and having a through passage 151 continuous to the through hole at a central portion thereof, and having a plurality of wedge holes 152 extending upward in a peripheral portion at equal intervals. 150); It is configured to include, the compression plate 150 is disposed below the surface layer portion 11, the compression plate 150 and the casing 140 in a fixed state in the pulling force on the strand 110 Thereby providing an elastic pressing device 100 configured to compress the spring 130 in the compression plate direction.

The strand 110 is made of twisted steel wire of several strands (typically seven strands) so as to transmit a strong tensile force. The crimping grip 120 is a component widely used as a strand fixing device for prestressed concrete. In the present invention, the crimping grip 120 is coupled to the tip of the strand 110 as shown in FIG. A spring 130 is fitted to the strand 110. The spring 130 is supported by the upper surface of the crimping grip 120, so that the spring 130 cannot be detached downward.

The casing 140 is a cylindrical member, and a receiving space 143 in which the spring 130 and the compression grip 120 are built is formed by coupling the upper and lower members 141 and 142 ([FIG. 2]). To [Fig. 4]). The through hole is formed in the center of the upper surface of the upper member 141 of the casing 130 so that the strand 110 penetrates, and the diameter of the through hole is smaller than the diameter of the spring 130, so that the casing 140 The spring 130 built in the receiving space 143 of the can not be separated even in the upward direction.

The upper and lower members 141 and 142 may be easily separated and coupled by a screw coupling method, and thus, the spring 130 may be inserted into the strand 110 at the soil nailing construction site. The upper and lower end members 141 and 142 may be assembled such that the spring 130 and the compression grip 120 are embedded in the 140. Specifically, the compression grip 120 is inserted into the inner space of the lower member 142 (that is, the lower portion of the receiving space), and the spring is inserted into the inner space of the upper member 141 (that is, the upper portion of the receiving space). 130 may be configured to be disposed.

The compression plate 150 is coupled to the upper end of the casing 140, the through-hole 151 continuous to the through-hole is formed in the center, a plurality of wedge holes 152 are expanded in the peripheral portion, such as It is a member formed at intervals (refer to [FIG. 2]-[FIG. 4]). However, the compression plate 150 and the upper member 141 of the casing 140 are conceptually divided and described by function, but may be referred to as an integral member in terms of molding.

Accordingly, the strand 110 is embedded in the receiving space 143 of the casing 140 in a state in which the crimping grip 120 is coupled to the front end, and the rear end of the strand 110 is the through passage 151. Withdrawn through. The plurality of wedge holes 152 through the deformed reinforcing bars 200 are coupled to each other, the details thereof will be described later.

The reinforcing plate 155 may be coupled to an upper surface of the compression plate 150. The reinforcing plate 155 should also have a through hole continuous to the through passage 151, the wedge hole 152, and the like, and when the casing 140 and the compression plate 150 are made of a plastic material, the reinforcement The plate 155 may be formed of steel to prevent breakage due to the load applied to the wedge hole 152.

In the above structure, when the strand 110 is pulled backward in the state where the compression plate 150 and the casing 140 are fixed, the spring 130 is pressed by the compression grip 120 to press the compression plate. It is compressed in the 150 direction. When the spring 130 is fixed to the rear end of the strand 110 in the compressed state as described above, the restoring force in the direction of the compression grip 120 is generated in the spring 130. In the present invention, the restoring force is utilized as a force for stabilizing the ground surface by the following multi-rebar nail structure.

2. Installation structure of multi-bar steel nail body using elastic pressing device

The present invention is a multi-rebar nail body mounting structure to be inserted and installed in the drilling hole 20 of the reinforcement ground (10), the elastic pressing device (100); In the state having a length corresponding to the entire length of the drilling hole 20, respectively protruding through the wedge hole 152 of the compression plate 150 to a length greater than the depth of the ground surface layer portion 11, A plurality of deformed rebars 200 which are pressed and fixed by the wedges 210 inserted into the wedge holes 152; And a pressure plate 300 covering the inlet of the drilling hole 20 and having a central hole formed therein. It is configured to include, in the state in which the compression plate 150 and the casing 140 is fixed, the elastic pressing device 100 is drawn out to the outside of the drilling hole 20 through the central hole of the pressure plate 300 By pulling the strand 110 of the back to fix the spring 130 in the compressed state toward the compression plate 150, the restoring force of the spring 130 is dedicated, the pressure plate 150 ) Is a multi-rebar nail body mounting structure characterized in that configured to act as a force to press the ground surface.

The ground 10 to be reinforced is divided into a surface layer portion 11 and a deep layer portion 12 as shown in FIGS. 5A to 5C. The distinction between the surface layer portion 11 and the deep layer portion 12 may be somewhat different depending on the characteristics of the ground, but the surface layer portion 11 is formed to a depth of 1 to 2 m from the ground surface.

 In the present invention, a plurality of deformed bars 200 constitute a multi-rebar nail body, and the length of the deformed bars 200 corresponds to the total length of the perforation holes. The number of deformed rebars may be determined in the range of 3 to 6 according to the diameter of the deformed rebar 200, the diameter of the perforated hole, and the like. In the present invention, the installation interval of the plurality of deformed steel bars 200 is determined according to the interval of the wedge hole 152 of the compression plate 150, and in order to maintain the installation intervals of the plurality of deformed steel bars 200 in the deep portion 12 separately. Spacer (not shown) can be combined.

The deformed rebar 200 inserted into the boring hole 20 passes through both the surface layer portion 11 and the deep layer portion 12 of the ground to be reinforced, in the present invention, the compression plate 150 of the elastic pressing device 100. ) Is one of the main features to be disposed below the surface layer portion (11). That is, the deformed rebar 200 penetrates the wedge hole 152 of the compression plate 150 and is fixed by the wedge 210 inserted into the wedge hole 152. 11) It is in a state of protruding beyond the depth.

On the other hand, the inlet of the drilling hole 20 is covered with a pressure plate 300 having a central hole, the compression plate 150 and the casing 140 is fixed by the drilling hole 20, the pressure plate Pulling the strand 110 of the elastic pressing device 100 drawn out to the outside of the drilling hole 20 through the central hole of the 300 to the back to compress the spring 130 in the direction of the compression plate 150 It can be fixed in the closed state. It can be fixed while pressing the pressure plate 300 with a fastener 310 for tightening the strand 110 in a state in which the rear end of the strand 110 drawn out to the drilling hole 20 is pulled out.

The rear end of the strand 110 is fixed outside the drilling hole 20, the casing 140 of the elastic pressing device 100 is fixed in the drilling hole 20, in the casing receiving space 143 The restoring force of the spring 130 acts in the compression grip 120 direction (ie, downward direction, that is, deep direction of the drilling hole). Accordingly, the restoring force behaves in a direction pushing the crimping grip 120 downward, which is a force that pulls the pressure plate 300 in the direction of the ground surface in the drilling hole 20, that is, the pressure plate 300 It is converted into force by pressing the ground surface.

In the present invention, since the compression plate 150 is stably fixed to the deep portion 12 of the ground 10 to be reinforced, it is possible to compress and fix the spring 130 by applying a sufficient tensile force to the strand 110.

In addition, according to the present invention, as the strand 110 of the elastic pressing device 100 is fixed in tension, the compression plate 150 behaves similarly to the compression-loaded body of the earth anchor, and thus the ground is loaded by a line tension load. Reinforcing effect can be expected.

The deformed reinforcing bar 200 is fastened by a wedge 210 inserted into the wedge hole 152, and a fastener (not shown) is coupled to the coupling plate 220 disposed on an upper surface of the wedge 210. And installed so as to penetrate through the compression plate 150 and the coupling plate 220, in the process of assembling, installing the multi-reinforced nail body by allowing the coupling plate 220 to be tightly fixed in the direction of the wedge (210) Separation of the wedge 210 can be prevented. To this end, each of the compression plate 150 and the coupling plate 220 may have a pinhole 154 for penetrating the fastener.

Similarly, the wedge 210 may be prevented from being separated by a method of coupling a fixing clip (not shown) to an upper portion of the wedge 210 of the deformed rebar 200.

In the structure of the multi-rebar nail body as described above, when the soil is lost from the ground surface and the compression-fixed spring 130 is loosened, the restoring force is also weakened to reduce the ground surface stabilization effect. In this case, as the spring 130 is compressed by simply pulling and fixing the strand 110 again, the ground surface can be stabilized again.

3. Soil nailing method using elastic pressing device

The present invention includes the steps of: forming a perforation hole 20 in the ground to be reinforced 10; (b) the wedge hole 152 of the compression plate 150 of the elastic pressing device 100 penetrates the deformed rebar 200 having a length corresponding to the entire length of the drilling hole 20, and the ground upwards. Assembling the multi-reinforced nail body by fixing it in a protruding state to a length greater than or equal to the surface layer portion 11; (c) inserting the multi-reinforced nail body into the drilling hole 20, covering the drilling hole 20 with a pressure plate 300 having a central hole, and the strand 110 of the elastic pressing device 100. Drawing out the hole through the center hole of the pressure plate 300; (d) grouting the inside of the drilling hole 20; And (e) pulling the strand 110 backward to fix the spring 130 in a compressed state toward the compression plate 150; Soil nailing method that includes a.

Step (a) is a step of forming the punched hole 20 in the ground 10 to be reinforced, to form a punched hole 20 to a depth determined according to the structural calculation of ground irradiation and shear failure.

The step (b) is a step of assembling the multi-reinforced nail body by combining the elastic pressing device 100 and the plurality of deformed steel bars 200. The number of the deformed steel bars 200 may be determined in a range of 3 to 6 according to the diameter of the deformed steel bars 200, the diameter of the perforated holes, and the like. As a specific example, when the diameter of the punching hole 20 is 95 to 100 mm and the diameter of the deformed steel rebar 200 is 16 mm, the number of the deformed steel bars 200 applied to the multi-bar nail according to the present invention may be set to four.

In the step (b), the structure for fixing the deformed reinforcement 200 in a protruding state with a length more than the depth of the ground surface layer portion 11 above the compression plate 150 is as described above.

Step (c) inserts the multi-reinforced nail body into the drilling hole 20, covers the drilling hole 20 with a pressure plate 300 having a central hole, the strand of the elastic pressing device 100 The step of drawing out 110 to the outside of the drilling hole 20 through the central hole of the pressure plate 300 (see [Fig. 5a]).

Step (d) is a step of grouting the inside of the drilling hole (20). In the step (d) to form a grouting pipe 153 formed on one side of the pressure plate 150 for the grouting operation, the grouting pipe may be installed to pass through the grouting pipe. After the grouting operation, the grouting body 30 is formed by curing, and the pressing plate 150 and the casing 140 are fixed.

Since the strand 110 must be freely applied to the strand 110 after the present step (d), the strand 110 is covered with the cover hose 111 in the section from the pressure plate 150 to the pressure plate 300. desirable.

In the step (e), the strand 110 is pulled backward to fix the spring 130 in the compressed state toward the compression plate 150. By fixing the rear end of the strand 110 with the fixture 310, the restoring force of the direction in which the pressing grip 120 is pushed downward in the compressed state of the spring 130 acts as a force to stabilize the ground surface As described above.

In the above, the present invention has been described in detail with specific examples. However, the present invention is not limited to the above embodiments and may be modified and modified without departing from the gist of the present invention. Therefore, the claims of the present invention include such modifications and variations.

DESCRIPTION OF SYMBOLS 10 Ground to be reinforced 11 Surface part 12 Deep part
20: drilling hole 30: grouting body
100: elastic pressing device 110: strand 111: sheath hose
120: compression grip 130: spring 140: casing
141: upper member 142: lower member 143: receiving space
150: compression plate 151: through passage 152: wedge hole
153: grouting pipe 154: pinhole 155: reinforcement plate
200: deformed steel 210: wedge 220: bonding plate
300: pressure plate 310: fixture

Claims (4)

Strand 110;
A crimping grip 120 coupled to the tip of the strand 110;
A spring 130 inserted into the strand 110 and supported by an upper surface of the crimping grip 120;
An accommodation space 143 in which the spring 130 and the compression grip 120 are built is formed by the combination of the upper and lower members 141 and 142, and the strand 110 is formed at the center of the upper surface of the upper member 141. Cylindrical casing 140 has a through hole penetrating and blocking the upward departure of the spring 130; And
Compression plate 150 is coupled to the top of the casing 140, the through-hole 151 is formed in the center and continuous with the through hole, the plurality of wedge holes 152 to be expanded in the peripheral portion at equal intervals ); It is configured to include,
The compression plate 150 is disposed below the surface layer portion 11, and the spring 130 is pulled backward by the force pulling the strand 110 in a state where the compression plate 150 and the casing 140 are fixed. Elastic pressing device 100 configured to be compressed in the compression plate direction.
In claim 1,
Elastic pressing device 100, characterized in that the reinforcing plate 155 is coupled to the upper surface of the compression plate 150.
As a multi-rebar nail body mounting structure inserted and installed in the drilling hole 20 of the ground to be reinforced 10,
Claim 1 or claim 2 elastic pressing device 100;
In the state having a length corresponding to the entire length of the drilling hole 20, and penetrating through the wedge hole 152 of the compression plate 150 to protrude upward to a depth greater than the ground surface layer portion 11, A plurality of deformed rebars 200 which are pressed and fixed by the wedges 210 inserted into the wedge holes 152; And
A pressure plate 300 covering the inlet of the drilling hole 20 and having a central hole formed therein; It is configured to include,
In the state in which the compression plate 150 and the casing 140 are fixed, the strand 110 of the elastic pressing device 100 drawn out of the drilling hole 20 through the central hole of the pressure plate 300 is opened. By pulling back to fix the spring 130 in a compressed state toward the compression plate 150,
Restoring force of the spring 130 is dedicated (轉 用), the multi-bar nail body installation structure, characterized in that the pressure plate 300 is configured to act as a force to press the ground surface.
(A) forming a punched hole 20 in the ground to be reinforced 10;
(b) The wedge hole 152 of the compression plate 150 of the elastic pressing device 100 according to claim 1 or 2, the deformed rebar 200 having a length corresponding to the entire length of the drilling hole 20 is provided. Assembling the multi-reinforcing nail body by penetrating and fixing the upper surface layer portion 11 in a protruding state beyond the depth of the ground surface layer portion 11;
(c) inserting the multi-reinforced nail body into the boring hole 20, covering the boring hole 20 with a pressure plate 300 having a central hole, and the strand 110 of the elastic pressing device 100. Drawing out the hole through the center hole of the pressure plate 300;
(d) grouting the inside of the drilling hole 20; And
(e) pulling the strand 110 backward to fix the spring 130 in a compressed state toward the compression plate 150; Soil nailing method comprising a.

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