KR20180103776A - Reinforcing structures for inclined plane using steel pipe and steel bar and, reinforcing methods for the same - Google Patents

Abstract

A slope reinforcing structure and a method according to the present invention can effectively seal a packer or a packing material by being in close contact with a steel pipe, thereby preventing grouting liquid from flowing out to the outside during pressure grouting. Therefore, the present invention is capable of efficient pressure grouting, and the steel pipe is installed only at an entrance of a perforation hole, and instead, reinforced bar is installed in the whole of a boring field, thereby enabling economical and efficient slope reinforcement.

Description

BACKGROUND OF THE INVENTION Field of the Invention [0001] The present invention relates to a slope reinforcing structure using a steel pipe and a steel bar, and a reinforcing method for the steel pipe and steel bar,

The present invention relates to a slope reinforcing structure, and more particularly, since a packing or a packing material is adhered to a steel pipe, effective sealing is possible, and therefore, the grouting solution can be prevented from flowing out to the outside during pressure grouting, And the steel pipe is installed only at the entrance of the perforation hole, and instead, the reinforcing bar is installed in the entire fabric factory, so that the slope reinforcement structure can be economically and efficiently slope-strengthened.

The present invention is also directed to a method for constructing such a slope reinforcement structure.

Generally, the pressurized soil nailing method is to install a nail such as a reinforcing bar on a slope in order to reinforce the slope, and then pressurized grouting to fill the perforation hole tightly and to cement the surrounding ground.

1 shows an example of a packer used in a pressurized soil nailing method. As shown in FIG. 1, the packer 10 is installed around the reinforcing bar 110, and when the filling material such as urethane resin, cement milk, or the like is injected, it expands and comes into close contact with the perforation hole. The filler is injected through the filler injection tube (11, shown in green). Reference numeral 13 denotes a grouting solution injection check pipe (indicated by a black line), and reference 15 denotes a grouting solution injection pipe (indicated by a red line).

FIG. 2A shows a state where the packer 10 is inserted into the perforation hole 1, and FIG. 2B shows that the pressurized grouting is performed after the filler 13 is injected into the packer 10.

As described above, when the filler 13 is injected into the packer 10, the packer 10 expands and is brought into close contact with the perforation hole 1. However, when the ground is an intact rock, the packer 10 is brought into close contact with the air wall to prevent the outflow of the grouting liquid during the press grouting. However, when the ground is a weathered rock or weathered rock, So that the grouting solution flows out to the outside during pressurized grouting, so that the pressure grouting is not performed. That is, it becomes difficult or impossible to maintain the pressure in the pressurized grouting.

It is an object of the present invention to provide a slope reinforcing structure capable of effectively performing pressure grouting because it can prevent the outflow of the pressurized grouting solution regardless of the kind of the ground and the degree of weathering .

Yet another object of the present invention is to provide an economical and efficient slope reinforcing structure because the steel pipe is installed only at the entrance of the perforation hole and the reinforcing bars are installed in the entire fabric factory instead.

It is still another object of the present invention to provide a slope reinforcement method using such a slope reinforcement structure.

A slope reinforcement method according to the present invention comprises the steps of: (a) drilling a perforation hole (1); (b) inserting the reinforcing bar 110 into the perforation hole 1; (c) installing a steel pipe (120) at the entrance of the perforation hole (1) so that the steel pipe (110) passes through the steel pipe (120); (d) sealing the space s1 between the steel pipe 120 and the perforation hole 1; (e) sealing the space s2 between the steel pipe 120 and the reinforcing bar 110 using the packing units 140 and 240; And (f) injecting a grouting solution into the perforation hole (1).

The steel pipe 120 has a length extending from the entrance of the perforation hole 1 to a predetermined section, preferably 0.5 m to 1.0 m, and the reinforcing bar 110 extends over the entire section of the perforation hole 1 Lt; / RTI >

At the lower end of the reinforcing bar 110, a plate 170 for preventing the drawing of the reinforcing bar 110 is preferably installed in a direction perpendicular to the longitudinal direction of the reinforcing bar 110.

According to the first embodiment of the present invention, the packing unit 140 is installed inside the steel pipe 120. The packing unit 140 includes a packer 141 installed to enclose the reinforcing bar 110 and expanded by the injection of the filler material 143 and brought into close contact with the inner circumferential surface of the steel pipe 120; And a filling hose 148 for injecting the filling material 143 into the packer 141.

According to the second embodiment of the present invention, the packing unit 240 is installed at the upper end of the steel pipe 120. The packing unit 240 includes a cap 241 coupled to an outer end (upper end) of both ends of the steel pipe 120; A clamping bolt 246 screwed to the cap 241; And a packing material 248 adhered to the outer circumferential surface of the reinforcing bar 110 as the fastening bolt 246 is screwed to the cap 241 and advanced toward the oblique side.

One end of the cap 241 is coupled to the steel pipe 120 and the other end of the cap 241 is formed with a screw thread 245 screwed with the bolt 246. A slanted surface 244 is formed on the inner circumferential surface of the cap 241 do. The inclined surface 244 guides the packing material 248 to slide on the reinforcing bar 110 as the bolt 246 is screwed into the slope.

Guide members 260 and 270 may be installed inside the steel pipe 120. The guide members 260 and 270 place the reinforcing bar 110 in the center of the steel pipe 120.

In another aspect of the present invention, a slope reinforcing structure (100) (200) comprises a reinforcing bar (110) installed to be inserted into a perforation hole (1) and having a length extending over the entire section of the perforation hole (1); A steel pipe 120 installed at an inlet of the perforation hole 1 and having a length extending only a predetermined distance from the inlet and having a diameter smaller than that of the perforation hole 1 and having a reinforcing bar 110 passing through the inside thereof; A caulking material 150 for sealing the space s1 between the steel pipe 120 and the perforation hole 1; A packing unit 140 (240) installed in the steel pipe 120 to seal the space s2 between the steel pipe 120 and the reinforcing bar 110; And a grouting solution (180) injected into the perforation hole (1) to cement the surrounding ground.

The present invention has the following effects.

First, it is possible to prevent the outflow of the pressurized grouting liquid irrespective of the kind of the ground and the weathering degree. In more detail, according to the first embodiment of the present invention, a steel pipe 120 is installed at the entrance of the perforation hole, the packer 141 is expanded to come in close contact with the steel pipe 120, It is possible to always seal the perforation hole 1 irrespective of the type of the ground and the degree of weathering and to prevent the outflow of the pressurized grouting liquid have.

According to the second embodiment of the present invention, the steel pipe 120 is installed at the entrance of the perforation hole, and the space between the steel pipe 120 and the perforation hole 1 is sealed by the caulking material 150, The space s2 between the reinforcing bars 120 and the reinforcing bars 110 is sealed by the packing material 248 and the bolts 246 and the cap 241. Therefore, regardless of the type of the ground and the degree of weathering, So that it is possible to prevent the outflow of the pressurized grouting liquid.

Second, since the steel pipe 120 is installed only at the entrance of the perforation hole and the reinforcing bar 110 is installed in the entire factory, it is economical and efficient.

Third, it provides a construction method of the above slope reinforcing structure.

1 is a view showing a reinforcing bar and a packer used in a pressurized soil nailing method according to the prior art.
FIG. 2A is a view showing the packer and the reinforcing bar of FIG. 1 inserted into the perforation hole; FIG.
FIG. 2B is a view showing the pressurized grouting after the packing of FIG. 2A has expanded to seal the perforation hole. FIG.
FIG. 3 is a view showing a packing unit and a reinforcing bar inserted into a perforation hole according to a first embodiment of the present invention; FIG.
Figures 4A-4G sequentially illustrate that a pressurized soil nailing using the packing unit of Figure 3 is made.
5 is a view showing a packing unit and a reinforcing bar provided in a perforation hole according to a second embodiment of the present invention;
6 is a cross-sectional view of the packing unit of Fig.
Fig. 7A is an enlarged view of a portion A in Fig. 6, showing a state in which the space between the reinforcing bar and the steel pipe is opened due to the backing of the packing material. Fig.
Fig. 7B is an enlarged view of part A of Fig. 6, showing a packing material advancing to seal a space between the reinforcing bar and the steel pipe; Fig.
Figures 8a and 8b show guide members used to centrally position the rebars in the packing unit of Figure 6;

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. Prior to this, terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms, and the inventor should appropriately interpret the concepts of the terms appropriately It should be interpreted in accordance with the meaning and concept consistent with the technical idea of the present invention based on the principle that it can be defined. Therefore, the embodiments described in the present specification and the configurations shown in the drawings are merely examples of the present invention and are not intended to represent all of the technical ideas of the present invention, so that various equivalents And variations are possible.

First Embodiment

3 is a cross-sectional view illustrating a slope reinforcing structure according to the first embodiment of the present invention, in which a packing unit and a reinforcing bar are inserted into a perforation hole.

As shown in the drawing, the slope reinforcing structure 100 includes a steel pipe 120 installed at the entrance of the perforation hole 1, a reinforcing bar 110 installed to penetrate the steel pipe 120, A packing unit 140 that seals a space s2 between the steel pipe 120 and the reinforcing bar 110 and a packing unit 140 that seals the space s1 between the steel pipe 120 and the reinforcing bar 110, And a grouting solution which is injected to cement the surrounding ground.

It is preferable that the steel pipe 120 is provided at the entrance of the perforation hole 1 and has a length extending from the inlet only to a predetermined section. Specifically, it is preferable that the steel pipe 120 has a length of 0.5 m to 1.0 m when the mill (length of the perforation hole) is 6 m to 12 m. If the length of the steel pipe 120 is less than 0.5 m, the packing (sealing) by the packer 140 may not be sufficient, and if the length of the steel pipe 120 exceeds 1.0 m, not.

The steel pipe 120 has a smaller diameter than the perforation hole 1. The space s1 between the steel pipe 120 and the perforation hole 1 is sealed with the caulking material 150. [ As the caulking material 150, rapid cement or the like may be used.

The grouting solution injection pipe 160 may be installed through the caulking material 150. The caulking material 150 may be caulked to the grouting solution injection pipe 160 after the grouting solution injection pipe 160 is installed. The grouting solution injection confirmation pipe 160 is indicated by a black line in the drawing.

The grouting solution injection confirmation pipe 160 is used to confirm whether or not the lighting solution is well injected into the perforation hole 1. [ That is, when the lighting solution is injected, the air in the perforation hole is discharged through the injection confirmation pipe 160, and when the grouting solution is filled in the perforation hole 1, the air is discharged through the injection confirmation pipe 160. This confirms whether the grouting solution is filled in the perforation hole.

The reinforcing bar 110 is installed through the steel pipe 120. It is preferable that the reinforcing bar 110 has a length extending substantially over the entire section of the perforation hole 1, and the upper end of the reinforcing bar 110 protrudes slightly out of the perforation hole 1. The reinforcement 110 acts as a nail and serves to reinforce the slope along with the grouting solution injected into the perforation hole 1. [

A draw-out prevention plate 170 may be installed at the lower end (co-located portion) of the reinforcing bars 110. The plate 170 is installed at the lower end of the reinforcing bar 110 in a direction perpendicular to the longitudinal direction of the reinforcing bar 110. The plate 170 may be coupled to the reinforcing bars 110 by welding or the like, but is preferably coupled to the reinforcing bars 110 by the nuts 172. The nut 172 is installed on the reinforcing bar 110 so as to be in close contact with the front and rear surfaces of the plate 170 and may be coupled to the reinforcing bar 110 by conventional means such as screwing or welding.

The packing unit 140 may include a packer 141 and a filling hose 148 for injecting the filling material 143 into the packer 141.

The packer 141 is installed to enclose the reinforcing bar 110. Specifically, after the reinforcing bar 110 and the grouting solution injection pipe 162 pass through the packer 141 and the filling hose 148 extends to the inner space of the packer 141, Both end portions are fastened to the reinforcing bar 110 by binding with a fastening ring 145 or the like. The grouting solution injection pipe 162 is shown in red line and the filling hose 148 is shown in green line.

The packer 141 is made of rubber, nonwoven fabric or the like, and expands when the filling material 143 such as urethane resin, cement milk or the like is injected into the inside and is closely attached to the inner circumferential surface of the steel pipe 120. The space s2 between the steel pipe 120 and the reinforcing bar 110 is sealed when the packer 141 is brought into close contact with the inner circumferential surface of the steel pipe 120. [ The filling material 143 is injected through the filling hose 148.

The construction method of the slope reinforcing structure 100 will now be described with reference to FIGS. 4A to 4G.

First, as shown in FIG. 4A, the perforation hole 1 is drilled and the reinforcing bar 110 and the packing unit 140 are inserted into the perforation hole 1. The reinforcing bar 110 has a length extending over the entire section of the perforation hole 1, and is installed to protrude slightly from the perforation hole 1. The packing unit 140 may be installed in the perforation hole 1 while being coupled to the reinforcing bar 110 so as to be positioned near the entrance of the perforation hole 1.

The grouting solution injection pipe 162 extends through the packer 141 to the lower portion of the perforation hole 1 and the filling hose 148 extends to the inner space of the packer 141.

4B, the steel pipe 120 is installed at the inlet of the perforation hole 1, and the packer unit 140 is installed to be inserted into the steel pipe 120. As shown in FIG.

Next, as shown in FIG. 4C, the grouting solution injection pipe 160 is installed in the space s1 between the steel pipe 120 and the perforation hole 1, and is then closed with the caulking material 150, The filler 141 is injected into the packer 141 to expand the packer 141 so that the packer 141 is brought into close contact with the inner circumferential surface of the steel pipe 120, Thereby sealing the space s2.

Then, as shown in FIG. 4E, the grouting solution 180 is injected through the grouting solution injection pipe 162 only by gravity without applying pressure. When the grouting solution is injected, the air inside the perforation hole 1 is discharged to the outside through the grouting solution injection confirmation pipe 160, and the grouting solution is discharged. When the grouting solution starts to be discharged, After breaking and sealing, apply pressure grouting.

After the water level of the grouting solution is lowered, pressurized grouting is performed as shown in Fig. 4F. It is appropriate to apply a pressure of 5 kg / cm ² to 10 kg / cm ^{2 in} the pressure grouting, but the pressure may be increased or decreased as needed.

Not only is the inside of the perforation hole filled with the pressurized grouting, but the grouting solution 180 penetrates into the surrounding ground, and the ground around the perforation hole is consolidated.

4G, the upper part of the packer 141 is filled with the mortar 182 and the cover 190 is covered with the nut 192 and the like.

Second Embodiment

FIG. 5 is a view showing a packing unit and a reinforcing bar installed in a perforation hole according to a second embodiment of the present invention, and FIG. 6 is a sectional view showing the packing unit.

As shown in the drawing, the slope reinforcing structure 200 includes a steel pipe 120 installed at the entrance of the perforation hole 1, a reinforcing bar 110 installed to penetrate the steel pipe 120, A packing unit 240 for sealing a space s2 between the steel pipe 120 and the reinforcing bar 110 and a packing unit 240 for sealing the space s2 between the steel pipe 120 and the reinforcing bar 110. The packing unit 240 is provided in the perforation hole 1, And a grouting solution which is injected to cement the surrounding ground.

The steel pipe 120, the reinforcing bar 110, the caulking material 150 and the grouting liquid are the same as the steel pipe 120, the reinforcing bar 110, the caulking material 150 and the grouting liquid of the first embodiment, Do.

The packing unit 240 includes a cap 241, a fastening bolt 246 coupled with the cap 241, and a packing material 248.

The cap 241 is joined to the outer end (upper end) of both ends of the steel pipe 120. The coupling may be made by screwing or the like. For example, a screw thread may be formed on the outer circumferential surface of the upper end of the steel pipe 120, and a screw thread may be formed on the inner circumferential surface of the lower end of the cap 241.

An injection port 242 and an access hole 243 are formed at the upper end of the cap 241. A grouting solution injection pipe 162 (not shown in FIGS. 5 to 7B) is inserted into the injection port 242. The check hole 243 is a hole through which the overflowed grouting solution is discharged to the outside when the grouting solution fills the perforation hole 1. [

The inner surface of the central portion of the cap 241 has a slant surface 244 formed in a ring shape. A screw thread 245 is formed on the inner circumferential surface of the upper end of the cap 241.

The tightening bolt 246 is provided on the cap 241 by screwing with the thread 245 and includes a through hole 246a through which the reinforcing bar 110 passes and a thread 247 formed on the outer circumferential surface of the through hole 246a.

The packing material 248 is provided at the tip of the tightening bolt 246. The packing material 248 is made of rubber, synthetic resin, silicon, or the like, and has a ring shape.

7A is an enlarged view of a portion A in FIG. 6, which is a cross-sectional view showing that the packing material 248 is retracted and the space s2 between the reinforcing bar 110 and the steel pipe 120 is opened. FIG. Sectional view showing that the space s2 between the reinforcing bar 110 and the steel pipe 120 is sealed. 7A to 7B, when the fastening bolt 246 is rotated in the screwed state and advanced to the slope side, the packing material 248 slides along the slope 244 and is brought into close contact with the reinforcing bar 110, The space s2 between the steel bar 110 and the steel pipe 120 is sealed.

A guide member may be further provided in the steel pipe 120 to position the reinforcing bar 110 at the center of the end face. 8A and 8B show such guide members 260 and 270, respectively. On the other hand, the guide member is not shown in Figs. 5 to 7B.

The guide member 260 is disposed inside the steel pipe 120 so as to surround the reinforcing bars 110 so that the reinforcing bars 110 are positioned at the center. Both ends of the wire can be joined to the inside of the steel pipe 120 by welding or the like.

The guide member 270 has a through hole 271 formed to penetrate the circular flat plate and a plurality of support portions 273 formed radially around the through hole 271. The reinforcing bars 110 are installed through the through holes 271. The support portion 273 guides the reinforcing bar 110 to be positioned at the center of the steel pipe 120.

The construction method of the slope reinforcing structure 200 will now be described.

First, the perforation hole (1) is drilled and the reinforcing bar (110) is inserted into the perforation hole (1). At this time, the plate 170 may be inserted into the perforation hole 1 in a state where the plate 170 is installed at the lower end of the reinforcing bar 110. The reinforcing bar 110 has a length extending over the entire section of the perforation hole 1, and is installed to protrude slightly from the perforation hole 1.

Next, the steel pipe 120 is installed at the entrance of the perforation hole 1, and the reinforcing bar 110 is installed to penetrate the steel pipe 120. When the perforation length is 6 m to 12 m, it is preferable that the steel pipe 120 has a length of 0.5 m to 1.0 m.

Next, a cap 241 is provided on the steel pipe 120, and a packing material 248 and a bolt 246 are provided on the cap 241. Meanwhile, the cap 241, the packing material 248, and the fastening bolt 246 may be previously assembled in the factory.

Then, the space s1 between the steel pipe 120 and the perforation hole 1 is filled with the caulking material 150 to seal it. Then, the tightening bolt 246 is rotated to advance the packing material 248 toward the slope side, thereby sealing the space s2 between the reinforcing bar 110 and the steel pipe 120.

Next, the grouting solution is injected through the grouting solution injection pipe 162 only by gravity without applying pressure. When the grouting liquid 180 is injected, the air inside the perforation hole 1 is discharged to the outside through the check hole 243 and then the grouting liquid is discharged. When the grouting liquid starts to be discharged, the check hole 243 is closed , Followed by pressurized grouting. While it is appropriate to apply a pressure of 5 kg / cm ² to 10 kg / cm ^{2 in} the pressure grouting, the pressure may be increased or decreased as necessary.

The grouting solution not only fills the perforation hole 1 with pressure by grouting, but also permeates into the surrounding ground, so that the ground around the perforation hole 1 is solidified.

After the pressure grating is completed, the cap 241, the bolt 246 for fixing and the packing material 248 and the like are removed, and then the cover (190 of FIG. 4g) is covered with the nut 192 or the like.

The grouting solution injection confirmation pipe (160 in FIG. 3) is installed so as to penetrate the caulking material 150 in place of the confirmation hole 243, although it was confirmed that the grouting solution was discharged through the check hole 243 from above. .

1: Perforation hole 10: Packer
100, 200: slope reinforcing structure 110: reinforcing bar
120: steel pipe 140, 240: packing unit
141: Packer 13, 143: Filler
145: fastening ring 148: hose for filling
150: Caulking material
160: Grouting solution injection confirmation pipe 162: Grouting solution injection pipe
170: Plate for preventing drawing 172: Nut
180: Grouting solution 190: Cover
192: Nut
241: cap 242: inlet
243: confirmation hole 244: slope surface
245, 247: threads 246: fastening bolts
246a: through hole 260, 270: guide member
s1: Space between steel pipe and perforation hole s2: Space between steel pipe and steel bar

Claims (2)

(a) drilling a perforation hole (1);
(b) inserting the reinforcing bar 110 into the perforation hole 1;
(c) installing a steel pipe (120) at the entrance of the perforation hole (1) so that the steel pipe (110) passes through the steel pipe (120);
(d) sealing the space s1 between the steel pipe 120 and the perforation hole 1;
(e) sealing the space s2 between the steel pipe 120 and the reinforcing bar 110 using the packing units 140 and 240; And
(f) injecting a grouting solution into the perforation hole (1)
The steel pipe 120 has a length extending only to a predetermined section from the inlet of the perforation hole 1 and the reinforcing bar 110 has a length extending over the entire section of the perforation hole 1,
Wherein the grouting solution injection confirmation pipe (160) and the grouting solution injection pipe (162) are installed so as to pass through the inside or outside of the steel pipe (120). A reinforcing bar 110 installed to be inserted into the perforation hole 1 and having a length extending over the entire section of the perforation hole 1;
A steel pipe 120 installed at an inlet of the perforation hole 1 and having a length extending only a predetermined distance from the inlet and having a diameter smaller than that of the perforation hole 1 and having a reinforcing bar 110 passing through the inside thereof;
A caulking material 150 for sealing the space s1 between the steel pipe 120 and the perforation hole 1;
A packing unit 140 (240) installed in the steel pipe 120 to seal the space s2 between the steel pipe 120 and the reinforcing bar 110; And
And a grouting solution injected into the perforation hole (1) to cement the surrounding ground.

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