KR102445019B1 - Soil nail for retaining wall structure with improved grout filling and fixing performance - Google Patents

Abstract

The present invention relates to a soil nail for a retaining wall structure with improved grout filling and fixing performance. As such, according to the present invention, in case of a soil nail fixing process for firm fixing and supporting force and stabilization of slope during the structure of a retaining wall for a ground cutting unit or a ground filling unit, the grout charging process is able to fill a drilled hole completely thanks to a multi-step barrier structure and a stepwise filling structure. Accordingly, the adhesive force of the soil nail is greatly strengthened and the filling performance is remarkably improved. Therefore, the rigidity and support durability of a retaining wall structure (resistance to soil pressure, and suppression of displacement, swelling, and pushing of retaining wall blocks by soil pressure) are remarkably improved.

Description

Soil nail for retaining wall structure with improved grout filling and fixing performance

The present invention provides a method for filling grout without empty space due to a multi-stage bulkhead structure and a step-by-step filling structure during the nail nail fixing process for solid fixed bearing capacity and slope stabilization during the construction of the retaining wall structure for the cut or fill part. Bar, this greatly enhances the anchoring power of the soil nail as well as significantly improves the filling performance, so that the rigidity and support durability of the retaining wall structure (resistance to earth pressure is greatly improved, displacement of retaining wall blocks due to earth pressure, and baebul sound) , it relates to a nail nail for a retaining wall structure with improved grout filling performance and anchoring performance, characterized in that it significantly improves the suppression function of the push-out phenomenon).

In general, the retaining wall structure is supported and fixed on the slope (fill or cut part) using an earth anchor or a nail nail.

Therefore, in the nail nail method, excavation work is performed on the slope of the fill or cut part according to the construction order, and then the first shotcrete is performed and then the drilling hole is worked.

Thereafter, after nailing by inserting a stranded wire into the drilling hole, when the grout in the drilling hole is filled, a wire mesh is installed and secondary shotcrete is performed. After curing, the strand is tensioned to complete nailing.

After that, the tensioned stranded nail is fixed to a plurality of standing-stacked retaining walls (panels or blocks) through a fixing means, and then filled with rubble, etc. filling) to complete the retaining wall structure.

However, in the conventional nail nail method, as the grout filled in the drilling hole is gradually filled from the inside to the outside, it must be smoothly synthesized with the pre-inserted strand nail and the ground. Usually, the deep inner part of the drilling hole drilled to a depth of about 8 to 10 m. Since it is impossible to identify and confirm with the naked eye, it is difficult to accurately check whether the grout has been completely filled from the inside or worked evenly, resulting in problems in securing solid bearing capacity and stabilizing the slope.

1. Republic of Korea Patent Publication No. 10-1056416 (registered on Aug. 5, 2011)

In order to solve the above problems, the present invention provides a multi-stage bulkhead structure and a step-by-step filling structure for the grout filling process for the perforated hole during the nail nail fixing process for stable holding capacity and slope stabilization during the construction of the retaining wall structure for the cut or fill part. Due to this, it is filled without an empty space, which greatly strengthens the anchoring power of the nail nail and significantly improves the filling performance, so that the rigidity and support durability of the retaining wall structure (resistance to earth pressure is greatly improved, and the retaining wall by earth pressure It is an object of the present invention to provide that the occurrence of displacement of the blocks, the function of suppressing the suffocation, and the pushing-out phenomenon) are remarkably improved.

The present invention, as an optional embodiment, is further provided with an anchor device at the inner end inserted into the drilling hole to reinforce the tensile force during grout curing and to enhance the stability of the slope fixation.

In addition, as an additional embodiment of the present invention, a recognition valve for filling check is further provided between the diaphragm and the diaphragm of the nail nail, and the recognition valve is sequentially provided along the interval between the diaphragms in which the grout is partitioned from the innermost part of the perforated hole. When it is filled, the plunger plate is pushed gradually and the recognition guide bar protrudes outward. The purpose is to provide a way to perform an accurate fixation operation while recognizing it.

In order to achieve this object, the present invention is such that the longitudinal axis of the nail is inserted into the drilling hole 10 in the rock layer of the fill or cut part, and a part of the longitudinal outer end of the nail is fixed while branching outward of the drilling hole 10 Nail 100 for supporting the retaining wall member after being tensioned with respect to the plate; A plurality of diaphragms 210 on the longitudinal line of the nail 100 inserted into the perforation hole 10 are coupled while being arranged at equal intervals through the central through-hole 211, and the diaphragm 210 is perforated with an outer periphery diameter. It is formed to correspond to the inner diameter of the hole 10, and a through hole 212 is formed on one side of the surface of the diaphragm 210 so that the pipe guide 220 is placed horizontally with the nail 100 and inserted into the pipe. The guide 220 is formed such that a grout injection hole 221 is provided between the diaphragm 210 and the diaphragm 210 in the longitudinal direction, and the injection of grout and the perforation hole 10 are formed inside the pipe guide 220 . A grout filling module 200 that is provided with a flexible injection pipe 230 capable of pulling and discharging while moving backwards to the outside; made up of

Accordingly, the fixing cap 240 is screwed to the inner end of the pipe guide 220 inserted into the drilling hole 10 (the grout discharged into the pipe guide is drilled through the injection hole 221 through the hole 10) It is preferable that the grout is evenly filled in the space between the partition walls while the grout is sprayed around the inner periphery of the induction-perforated hole 10 so as to be discharged in the sectional direction, that is, in the lateral direction).

In addition, the flexible injection tube 230 is formed so as to be provided with an identification band for checking the distance corresponding to the interval between the diaphragms on the line.

At this time, it is preferable that the flexible injection pipe 230 is prevented from leaking into the gap between the inner diameter of the pipe guide 220 and the outer diameter of the flexible injection tube 230 by coupling the airtight pad 250 to the inner end of the flexible injection tube 230 . .

In addition, the airtight pad 250 is formed of a silicone material on the inner circumferential surface, and is formed of urethane or nylon material on the outer surface to secure soft pulling properties and abrasion resistance.

Accordingly, it is preferable that the rubber ring plate 260 is coupled to the outer circumferential surface of the partition plate 210 so that the grout filling sealing force between the partition walls is reinforced while allowing smooth entry when inserted into the perforation hole.

On the other hand, as an optional embodiment, the nail 100 is further provided with an anchor device 300 at the inner end inserted into the perforation hole 10 to reinforce the tensile force during grout curing while strengthening the stability of the slope fixation.

At this time, the anchor device 300 has a through hole 311 formed on one side and an insertion hole 313 having a flange 312 formed on the other side, but on one side of the flange 312, a clamp 314 is attached. When the inner end 110 of the nail 100, which is formed to be mounted on the rocker plate 315 and inserted into the drilling hole 10, is inserted into the internal space 316 through the insertion hole 313, the nail 100 is a holder cup 310 for fitting the lower end 317 of the rocker plate 315 into the inner end side fitting groove 111; A portion of the shaft shaft 321 is inserted into the space portion 316 through the through hole 311 of the holder cup 310, but at one end of the shaft shaft 321 inserted into the space portion 316, a coil spring ( 322) is formed to abut, and the other surface of the coil spring 322 is formed to correspond to the inner end 110 of the nail and the end surface 112 of the nail 100 and the shaft shaft 321. The coil spring 322 is formed to expand and contract by elastic force between one end, and a hemispherical contact end 323 is formed at the other end of the shaft shaft 321 (in the direction of the closed wall of the drilling hole), but the shaft shaft 321 ) on the longitudinal axis of the hinge plate 325 having a hinge hole 324 and a pressing rod 320 such that a fixing protrusion 327 for fixing the elastic spring 326 is provided; A plate-shaped expansion pad 331 is provided, but at one end of the expansion pad 331, a hinge sphere 333 having a hinge groove 332 is provided, and a hinge hole 324 is provided through the hinge shaft 334. It is formed to be coupled with the hinge plate 325, and a slit groove 335 is formed on one side of the expansion pad 331, so that the clamp 314 of the rocker plate is inserted therethrough to facilitate locking and unlocking, On the other side of the expansion pad 331, a protruding pin 336 is formed so that the upper and lower axes correspond with the fixing protrusion 327, and the wing plate 330 serves to support and fix the elastic spring 326; made up of

In addition, as an additional embodiment, the nail nail of the present invention is formed to further include a recognizing valve 400 for filling confirmation between the diaphragm 210 and the diaphragm 210 .

Accordingly, the recognition valve 400 is formed such that an opening hole 213 is formed on the surface of the diaphragm, and the communication end 412 of one side of the hollow tube body 411 is coupled to the opening hole 213 so as to correspond to the hollow. a communication socket 410 having a discharge hole 413 formed on the other side of the tube body 411; The plunger plate 421 is inserted into the hollow tube body 411 of the communication socket, but the rod shaft 422 is formed on one side of the plunger plate 421 to be coupled, and on the other side of the plunger plate 421, ' The seating jaw 424 having a U'-shaped mounting groove 423 is coupled to the other end (opposite side to the plunger plate) of the rod shaft 422 so that the stopper plate 425 is coupled, and the stopper plate 425 is formed. ) and a push plunger 420 such that an assembly jaw 427 having a fixing tab 426 is provided on one side thereof; An axial line is disposed between the diaphragm 210 and the diaphragm 210, but a male screw part 431 is formed at one end in the longitudinal direction to be screwed to the fixing tab 426, and a free end is at the other end in the longitudinal direction of the axial line. When the plunger plate 421 is separated from the hollow tube body 411 of the communication socket while being seated in the mounting groove 423 as the 432 is formed, the free end 432 is separated from the mounting groove 423. 430) this; made up of

At this time, the recognition guide rod 430 is formed such that the recognition line corresponding to the interval between the diaphragms 210 is provided on a longitudinal line.

Accordingly, the hollow tube body 411 of the communication socket 410 is formed such that the transfer section of the plunger plate 421 extends longer toward the outside of the perforated hole with respect to the inner entrance of the perforated hole 10 .

As described above, the present invention allows the grout filling process for the perforated hole to be filled without empty space due to the multi-stage bulkhead structure and the step-by-step filling structure during the soil nail fixing process for solid fixed bearing capacity and slope stabilization during the construction of the retaining wall structure, which is By significantly strengthening the anchoring power of the nail as well as significantly improving the filling performance, the rigidity and support durability of the retaining wall structure (resistance against earth pressure is greatly improved, and the occurrence of displacement of retaining wall blocks due to earth pressure, suffocation, and push-out phenomena are suppressed) function) has the effect of significantly improving it.

As such, the present invention is an optional embodiment, and an anchor device is further provided at the inner end of the drilling hole to reinforce the tensile force during curing of the grout while enhancing the stability of the slope fixation.

In addition, as an additional embodiment of the present invention, a recognition valve for filling check is further provided between the diaphragm and the diaphragm of the nail nail, and the recognition valve is sequentially provided along the interval between the diaphragms in which the grout is partitioned from the innermost part of the perforated hole. When it is filled, the plunger plate is pushed gradually and the recognition guide bar protrudes outward. It has the effect of allowing accurate fixation work to be performed while recognizing.

1 is an exemplary view of the construction of a fill part or a cut part slope to which a nail nail for a retaining wall structure with improved grout filling performance and anchoring performance according to the present invention is applied;
2 is an exemplary view showing a grout filling module according to the present invention;
3 to 5 are exemplary views showing the use state of the anchor device according to the present invention,
6 to 8 are exemplary views showing the state of use of the recognition valve for filling check according to the present invention.

The following describes the present invention with reference to the accompanying drawings.

First, as shown in FIGS. 1 to 8 , the present invention is largely composed of a nail 100 and a grout filling module 200 .

Accordingly, as shown in FIG. 1 , in the nail 100 , the longitudinal axis of the nail is inserted into the drilling hole 10 in the rock layer of the fill or cut part, but a part of the outer longitudinal end of the nail is a drilling hole 10 ) is branched to the outside, and is formed to support the retaining wall member after tensioning based on the fixed plate.

At this time, a fitting groove 111 is formed on the inner end 110 side of the nail so that the lower end 317 of the rocker plate 315, which will be described later, is fitted, and the end surface 112 of the inner end 110 is described later. A support surface is formed so that one surface in the axial direction of the coil spring 322 of the anchor device is abutted and contracted.

Accordingly, as shown in FIG. 2, the grout filling module 200 has a plurality of diaphragms 210 on the longitudinal line of the nail 100 inserted into the perforation hole 10 through the central through hole 211, etc. It is formed to be coupled while being disposed at intervals.

At this time, the diaphragm 210 is formed so that the outer periphery diameter corresponds to the inner diameter of the perforated hole 10, a through hole 212 is formed on one side of the surface of the diaphragm 210, so that the pipe guide 220 is the nail 100. It is formed to be inserted and placed horizontally with the

Accordingly, the pipe guide 220 is formed such that the grout injection hole 221 is provided between the diaphragm 210 and the diaphragm 210 in the longitudinal direction.

And, the inside of the pipe guide 220 is formed so as to be provided with a flexible injection pipe 230 capable of pulling and discharging while reversing to the outside of the grout injection and the perforation hole (10).

At this time, it is preferable that the fixing cap 240 is screwed to the inner end of the pipe guide 220 inserted into the perforation hole 10 .

This is to induce the grout discharged into the pipe guide to be discharged in the cross-sectional direction, that is, in the lateral direction, of the perforated hole 10 through the injection hole 221. This is to ensure that the grout is evenly filled in the space.

In addition, the flexible injection tube 230 is formed so as to be provided with an identification band for checking the distance corresponding to the interval between the diaphragms on the line.

At this time, it is preferable that the flexible injection pipe 230 is prevented from leaking into the gap between the inner diameter of the pipe guide 220 and the outer diameter of the flexible injection tube 230 by coupling the airtight pad 250 to the inner end of the flexible injection tube 230 . .

In addition, the airtight pad 250 is formed of a silicone material on the inner circumferential surface, and is formed of urethane or nylon material on the outer surface to secure soft pulling properties and abrasion resistance.

Accordingly, it is preferable that the rubber ring plate 260 is coupled to the outer circumferential surface of the partition plate 210 so that the grout filling sealing force between the partition walls is reinforced while allowing smooth entry when inserted into the perforation hole.

On the other hand, as an optional embodiment, the nail 100 is further provided with an anchor device 300 at the inner end inserted into the perforation hole 10 to reinforce the tensile force during grout curing while strengthening the stability of the slope fixation.

At this time, the anchor device 300 is largely composed of a holder cup 310 , a pressure rod 320 , and a wing plate 330 , as shown in FIGS. 3 to 5 .

Accordingly, the holder cup 310 has a through hole 311 formed on one side and an insertion hole 313 having a flange 312 on the other side is formed, but a clamp 314 is formed on one side of the flange 312. The attached rocker plate 315 is formed to be mounted.

At this time, when the inner end 110 of the nail 100 inserted into the drilling hole 10 is inserted into the inner space 316 through the insertion hole 313 , the fitting groove 111 on the inner end side of the nail 100 . The lower end 317 of the rocker plate 315 is formed to be fitted.

In addition, the pressing rod 320 allows a part of the shaft shaft 321 to be inserted into the space 316 through the through hole 311 of the holder cup 310, but the shaft shaft inserted into the space 316 ( One side of the coil spring 322 is abutted to one end of the 321 .

Accordingly, the other surface of the coil spring 322 is formed to correspond to the end surface 112 of the inner end 110 of the nail, and the coil spring 322 is formed between the end surface 112 of the nail 100 and one end of the shaft shaft 321. ) is formed to expand and contract by elastic force.

At this time, a hemispherical close contact end 323 is formed at the other end of the shaft shaft 321 (in the closed wall direction of the drilling hole), but on the longitudinal axis of the shaft shaft 321, a hinge plate having a hinge hole 324 ( 325) and a fixing protrusion 327 for fixing the elastic spring 326 is formed to be provided.

Accordingly, the wing plate 330 is provided with a plate-shaped expansion pad 331 , and a hinge sphere 333 having a hinge groove 332 is provided at one end of the expansion pad 331 to provide a hinge shaft 334 . It is formed to be coupled to the hinge plate 325 having a hinge hole 324 through the corresponding.

At this time, a slit groove 335 is formed on one side of the expansion pad 331 so that the clamp 314 of the rocker plate is inserted therethrough to facilitate locking and unlocking.

In addition, a protruding pin 336 is formed on the other surface of the expansion pad 331 so as to support and fix the elastic spring 326 while the upper and lower axes correspond with the fixing protrusion 327 .

In addition, as an additional embodiment, the nail nail of the present invention is formed to further include a recognizing valve 400 for filling confirmation between the diaphragm 210 and the diaphragm 210 .

Accordingly, the recognition valve 400 is largely composed of a communication socket 410 , a push plunger 420 and a recognition guide rod 430 as shown in FIGS. 6 to 8 .

In this case, the communication socket 410 is formed such that an opening 213 is provided on the surface of the diaphragm, and the communication end 412 of one side of the hollow tube body 411 is coupled to the opening 213 in a corresponding manner.

Accordingly, a discharge hole 413 is formed on the other side of the hollow tube body 411 so that when back pressure is generated during the grout filling process, the plunger plate of the push plunger is pushed away and separated.

In addition, the push plunger 420 is formed such that the plunger plate 421 is internally inserted into the hollow tube body 411 of the communication socket, and the rod shaft 422 is coupled to one side of the plunger plate 421 .

At this time, the seating jaw 424 having a 'U'-shaped mounting groove 423 is coupled to the other side of the plunger plate 421, and the other end of the rod shaft 422 (opposite to the plunger plate) has a stopper plate ( 425) is formed to be coupled.

Accordingly, an assembly jaw 427 having a fixing tab 426 is provided on one side of the stopper plate 425 so that the male screw portion of the recognition guide rod is screwed together.

At this time, the recognition guide rod 430 has an axial line disposed between the diaphragm 210 and the diaphragm 210, and a male screw part 431 is formed at one end in the longitudinal direction of the axial line to be screwed to the fixing tab 426. is formed

Accordingly, a free end 432 is formed at the other end of the recognition guide rod in the longitudinal direction of the axis, and while the plunger plate 421 is separated from the hollow tube body 411 of the communication socket while seated in the mounting groove 423, the free end 432 is mounted. It is formed to be separated from the groove 423 .

At this time, the recognition guide rod 430 is formed such that the recognition line corresponding to the interval between the diaphragms 210 is provided on a longitudinal line.

Accordingly, the hollow tube body 411 of the communication socket 410 is formed such that the transfer section of the plunger plate 421 extends longer toward the outside of the perforated hole with respect to the inner entrance of the perforated hole 10 .

This is to recognize the filling condition of the grout while the plunger plate is gradually pushed out from the inside when the grout is filled in the drilling hole.

The present invention is not limited to the specific preferred embodiments described above, and without departing from the gist of the present invention as claimed in the claims, anyone with ordinary skill in the art to which the invention pertains can implement various modifications Of course, such modifications are intended to be within the scope of the claims.

10 ... perforated hole
100 ... nail 110 ... inner end
111 ... fitting groove 112 ... end face
200 ... grout filling module 210 ... diaphragm
211 ... central through hole 212 ... through hole
213 ... opening
220 ... pipe guide 221 ... spray hole
230 ... flexible injection tube 240 ... fixed cap
250 ... airtight pad 260 ... rubber ring plate
300 ... anchor device 310 ... holder cup
311 ... through hole 312 ... flange
313 ... insert hole 314 ... clamp
315 ... rocker plate 316 ... space
317 ... lower part 320 ... pressure bar
321 ... shaft shaft 322 ... coil spring
323 ... tight end 324 ... hinge hole
325 ... hinge plate 326 ... elastic spring
327 ... Fixing projection 330 ... Wing plate
331 ... expansion pad 332 ... hinge groove
333 ... hinge region 334 ... hinge shaft
335 ... slit groove 336 ... protruding pin
327 ...
400 ... recognition valve 410 ... communication socket
411 ... hollow tube body 412 ... communicating end
413 ... discharge hole 420 ... push plunger
421 ... plunger plate 422 ... rod shaft
423 ... mounting groove 424 ... seating jaw
425 ... stopper plate 426 ... fixing tab
427 ... assembly jaw 430 ... recognition guide rod
431 ... male part 432 ... free end

Claims (3)

The longitudinal axis of the nail is inserted into the rock layer drilling hole 10 of the fill or cut part, but a part of the longitudinal outer end of the nail is branched to the outside of the drilling hole 10 and is tensioned based on the fixing plate, and then the retaining wall member Nail 100 to support the; A plurality of diaphragms 210 on the longitudinal line of the nail 100 inserted into the perforation hole 10 are coupled while being arranged at equal intervals through the central through-hole 211, and the diaphragm 210 is perforated with an outer periphery diameter. It is formed to correspond to the inner diameter of the hole 10, and a through hole 212 is formed on one side of the surface of the diaphragm 210 so that the pipe guide 220 is placed horizontally with the nail 100 and inserted into the pipe. The guide 220 is formed such that a grout injection hole 221 is provided between the diaphragm 210 and the diaphragm 210 in the longitudinal direction. A grout filling module 200 that is provided with a flexible injection pipe 230 capable of pulling and discharging while moving backwards to the outside; In the nail nail for retaining wall structure with improved grout filling performance and fixing performance,
The nail nail for a retaining wall structure with improved grout filling performance and fixing performance, characterized in that the recognition valve 400 for filling confirmation is further provided between the diaphragm 210 and the diaphragm 210. According to claim 1, wherein the nail (100)
For retaining wall structures with improved grout filling performance and anchoring performance, characterized in that an anchor device 300 is further provided at the inner end of the perforated hole 10 to strengthen the slope fixation stability while reinforcing the tensile force during grout curing Soil Nail. delete

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