KR20100083979A - Grouting apparatus and method of the same - Google Patents

Abstract

The present invention relates to a grouting construction apparatus and a construction method thereof, wherein the anchorage coupled to the end of the nail is installed so that tensile force is applied to the cement sludge, and the drill hole by cement sludge is coupled to the front end of the anchorage by combining a corrugated pipe surrounding the nail. The purpose of the present invention is to provide a grouting construction apparatus and a construction method that can effectively reduce the grouting construction cost while having the same reinforcing effect on the slope activity surface by allowing the nail to be recovered from the anchorage after the sealing operation is completed. .

Applying the present invention, while effectively reducing the construction cost, there is an advantage that can significantly reduce the construction period, and achieve the same slope active surface reinforcement by cement sludge.

Description

Grouting construction device and construction method {GROUTING APPARATUS AND METHOD OF THE SAME}

The present invention relates to a grouting construction apparatus and a construction method thereof, and more specifically, the anchorage coupled to the end of the nail is installed so that the tensile force is applied to the cement sludge, and to the cement sludge by combining the corrugated pipe surrounding the nail at the front end of the anchorage. The grouting construction apparatus and its construction method which can effectively reduce the grouting construction cost while having the same reinforcing effect on the slope activity surface by allowing the nail to be separated and recovered from the anchorage when the sealing operation is completed.

As is well known, in general, as the industry develops, it is inevitable to develop steep slopes such as mountainous areas such as complex construction, new town construction, road construction, etc., thus increasing land utilization and securing stability and comfort of residential complexes. At the same time, it is required to establish a slope stabilization method that can satisfy the constructability, economic feasibility and environmental integrity.

Grouting soil nailing is the most widely used slope stabilization method, and is widely used in Europe and the United States for the purpose of reinforcing slopes and flexible support of excavated surfaces.

In other words, the grouting soil nailing used as an example of the ground reinforcement method is based on the basic concept that the soil body reinforced by the deformed rebar installed on the ground acts like an integrated retaining wall. Its utility as a surrogate structure has been proven and its application has recently been spreading.

In particular, in developed countries, where many theoretical studies on soil nailing have been conducted, they are widely used in small-scale excavation works with a depth of 20M or less, and many specialized construction companies are constructing them in the field.

On the other hand, when the conventional saw nailing method is divided by the grouting method of the drilling hole there is a pressureless method that is a grouting method by gravity and a pressurization method to apply pressure during grouting.

Here, the pressureless method is to install a soil nailing device in the drilled hole and grouting several times (usually 2 to 5 times) by gravity to fill the drilled hole. The construction is long and the construction time is inferior because it is required to repeat the grouting several times because the construction has a downward slope of about degree. As a result, it may not be possible to fill the perforated hole tightly, which may reduce the effect of nailing.

The pressurization method keeps the inside of the drill hole by pressure grouting to improve the principal surface friction with the nailing device or to improve the surrounding ground. At this time, in order to maintain a predetermined pressure (about 6 ~ 15kg / ㎠) is used a packer mainly using a foam urethane.

Nails installed on the slope of the slope are subjected to tensile and shear forces. The closer to the right angle to the slope, the shear force is received by the slope activity, and when inclined to the slope, the nail is simultaneously subjected to the tensile and shear forces.

That is, referring to FIG. 1, first, the nailing method is applied to the slope active surface, and in order to stabilize the slope, the drill hole 4 is drilled at an angle on the inclined slope active surface 2, and the drilling is performed. After the nailing construction to insert the nail 6 made of the deformed steel through the drilled hole 4, the grouting cement sludge 8 is applied, and the nail 6 is moved to the outside of the drilled hole 4 after a predetermined time. Pressurized to draw out.

Then, the nail 6 is drawn out in the A direction, and the tension force in the B direction is applied, and finally, the plate 10 is fixed to fix the nail 6 to the slope active surface 2. . That is, in the application of the saw nailing method, by applying a tensile force to the nail so that the tensile force of the nail acts on the slope-active surface side, to stabilize the slope slope.

In recent years, the raw material price of the nail (6) is soaring, and as the exchange rate is soaring, the grouting construction cost increases, and the tensile force acts as the anchorage and cement sludge, so the tensile force of the nail (6) having a smaller diameter than the anchorage Will not work much.

Therefore, when the nail 6 is not recovered in the conventional nailing method, there is a problem that only the grouting spacing cost is increased without expecting to increase the tension. In addition, cement sludge to close the perforation hole 4 is excessively used, but cement sludge also acts as a major factor in the increase of grouting construction cost due to a sharp rise in raw material prices and a sharp exchange rate. In addition, since cement sludge is added, this also has a problem that it acts as an increase in construction cost.

The present invention has been made in view of the above-described circumstances of the prior art, and the anchorage coupled to the end of the nail is installed so that the tensile force is applied to the cement sludge, and the perforated by cement sludge by combining the corrugated pipe surrounding the nail in front of the anchorage The purpose of the present invention is to provide a grouting construction apparatus and a construction method that can effectively reduce the grouting construction cost while having the same reinforcing effect on the slope surface by separating the nail from the anchorage and recovering it when the hole sealing operation is completed. have.

In order to achieve the above object, according to a preferred embodiment of the present invention, the drilling hole (4) in the slope of the slope active surface 2, the nailing to insert the nail 50, with grouting therein In the grouting construction apparatus for reinforcing the non- sloped surface through the work, the nail 50 is fixed to the predetermined portion inside the drilling hole 4 near the end of the nail 50, and the nail 50 is separated after the grouting construction. A fixing unit 22 coupled to one end of the nail 50 so as to be able to be made; It is configured to wrap the outside of the nail 50, the cement sludge 8 and the nail 50 is injected into the front of the fixing unit 22 so that the nail 50 is not directly contacted to close the perforation hole 4 and perforated Corrugated pipe 60 is installed to the inlet of the hole (4); A coupling 40 for coupling the anchorage 22 and the corrugated pipe 60 to both ends thereof; Grouting construction, characterized in that consisting of a pressure plate 70, the insertion hole (74, 72) for the cement sludge injection pipe (80) and the nail (50) to pass through the perforated hole (4), respectively An apparatus is provided.

Preferably, the nail 50 is provided with a grouting construction device, characterized in that the front end male thread 54 and the rear end male thread 52 are laid out at both ends thereof.

Preferably, the fixing unit 22 includes a second nut 32 having a female screw 34 formed therein so that the rear end screw 52 of the nail 50 is coupled; The rear surface is welded to the front end of the second nut 32, the insertion hole 26 for forming the nail 50 passes therein, the fixing jaw for increasing the fixing force with the cement sludge 8 at the rear end A grouting construction apparatus is provided, characterized in that 30 is formed and consists of a connector 24 having a male screw 28 formed on the outer periphery of the front end.

Preferably, the coupling 40 is coupled to the rear end of the corrugated pipe 60 therein, the insertion hole 42 for the nail 50 is passed through is formed, the front end of the insertion hole 42 Inner circumference is provided with a grouting construction device, characterized in that the coupling portion 44 is formed to be inclined to couple the corrugated pipe (60).

Preferably, the corrugated pipe 60 has a plurality of recesses 64 and convex portions 66 are repeatedly formed on the outer surface of the corrugated pipe 60 to increase the bonding force with the cement sludge 8 filled therein, and the nail 50 is formed therein. There is provided a grouting construction apparatus characterized in that the space portion 62 is formed for insertion.

Preferably, the acupressure plate 70 is grouting, characterized in that the first nut 76 is further provided with a female screw 78 therein to be coupled to the shear male screw 54 of the nail 50 in front of it. A construction device is provided.

Preferably, the second nut 32 is characterized in that the circular cap 36 is welded to its rear surface such that the cement sludge 8 does not flow into the second nut 32 and the corrugated pipe 60. A grouting construction apparatus is provided.

On the other hand, the present invention comprises a first process of assembling the plant factory grouting; A second process of drilling a drilling hole to reinforce the slope activity surface; A third step of installing the pressure plate and the cement sludge injection pipe; A fourth process of first injecting and curing cement sludge between the drilled hole and the corrugated pipe; A fifth step of applying tension to the nail; A sixth step of sealing the cement sludge by secondary injection between the drilled hole and the corrugated pipe, and curing the cement sludge; Provided is a grouting construction method comprising a seventh process of collecting nails.

Preferably, the first process comprises the steps of assembling the fixing unit; Coupling a coupling to the anchorage; Coupling a corrugated pipe to the front end of the coupling; There is provided a grouting construction method comprising a step of coupling one end of a nail to the anchorage.

Preferably, the fifth process is a grouting construction method, characterized in that the first output of the nail is coupled to the first nut coupled to the shearing screw is to be delivered to the fixing unit.

Preferably, the seventh process further comprises the step of collecting the first nut by rotating the first nut coupled to the shear male thread of the nail counterclockwise, and collecting the nail by rotating the nail counterclockwise The grouting construction method is characterized in that it is provided.

The grouting construction apparatus and the construction method thereof according to the present invention have an advantage in that the construction cost can be effectively reduced, the construction period can be greatly reduced, and the same slope active surface reinforcement by cement sludge can be achieved.

EMBODIMENT OF THE INVENTION Hereinafter, this invention is demonstrated in detail with reference to drawings.

Figure 2 is an exploded perspective view showing the configuration of the grouting construction apparatus according to an embodiment of the present invention, Figure 3 is a side cross-sectional view showing a mounting configuration of the grouting construction apparatus according to an embodiment of the present invention.

Referring to this, the grouting construction apparatus 20 according to an embodiment of the present invention is installed so that the anchoring force is applied to the cement sludge is applied to the end of the nail, the cement by combining the corrugated pipe surrounding the nail in front of the anchorage It is a device that can reduce the grouting construction cost while having the same reinforcement effect on the slope activity by separating the nail from the anchorage and recovering it when the sealing hole sealing operation by sludge is completed.

To this end, the grouting construction apparatus 20 according to an embodiment of the present invention is to drill the hole 4 in the slope of the slope active surface 2, and with the grouting therein, inserting the nail 50 In the grouting construction device to reinforce the non-sloped surface through the nailing work, the nail 50 is fixed to a predetermined portion inside the drilling hole 4 near the end of the nail 50, and the nail 50 after the grouting construction The fixing unit 22 is coupled to one end of the nail 50 so as to separate it.

At this time, the fixing unit 22 has a second nut 32 having a female screw 34 formed therein so that the rear end screw 52 of the nail 50 is coupled; The rear surface is welded to the front end of the second nut 32, the insertion hole 26 for forming the nail 50 passes therein, the fixing jaw for increasing the fixing force with the cement sludge 8 at the rear end 30 is formed and consists of the connector 24 with the external thread 28 formed in the outer periphery of a front end.

In addition, the second nut 32 has a circular cap 36 is welded to its rear surface such that the cement sludge 8 does not flow into the second nut 32 and the corrugated pipe 60. 36 has a seating groove 38 in which a tip of the nail 50 can be seated.

On the other hand, the grouting construction apparatus 20 according to an embodiment of the present invention is configured to surround the outside of the nail 50, the cement sludge 8 and the nail 50 injected in order to close the perforation hole 4 A corrugated pipe 60 is provided to be coupled to the front of the fixing hole 22 to be installed to the inlet of the drilling hole 4 so as not to be in direct contact with each other. Coupling 40 to be engaged is provided.

In addition, the grouting construction device 20 according to an embodiment of the present invention is located in the inlet of the drilling hole 4, the insertion hole for the cement sludge injection pipe 80 and nail 50 pass through 74, 72 Acupressure plate 70 each of which is perforated is provided.

In this case, the nail 50 has a front male screw 54 and a rear male screw 52 laid on both ends thereof, respectively, and the first male screw 76 and the rear male screw 52 are formed on the first male screw 76 and the rear male screw 52, respectively. Each of the two nuts 32 is coupled so that the tensile force can be applied to the nail 50 by rotating the first nut 76 and the nail 50 is released by uncoupling the nail 50 with respect to the second nut 32. Allow 50 to be recovered.

On the other hand, the coupling 40 is coupled to the rear end of the corrugated pipe 60 therein, the insertion hole 42 for the nail 50 is passed through is formed, the front end of the insertion hole 42 At the periphery, the coupling part 44 for coupling the corrugated pipe 60 is formed to be inclined.

In addition, the corrugated pipe 60 has a plurality of recesses 64 and convex portions 66 are repeatedly formed on the outer surface of the corrugated pipe 60 to increase the bonding force with the cement sludge 8 filled therein, and the nail 50 therein. The space part 62 for this insertion is formed.

In addition, the acupressure plate 70 is further provided with a first nut 76 having a female thread 78 formed therein to be coupled to the front end male thread 54 of the nail 50 in front thereof.

With reference to the accompanying drawings, a construction process using a grouting plant according to an embodiment of the present invention of the above configuration will be described in detail.

4 and 5 is a process chart showing a grouting construction process according to an embodiment of the present invention, Figures 6a to 6g is a state diagram showing the grouting construction state according to an embodiment of the present invention for each process.

First, the grouting construction process according to an embodiment of the present invention is preceded by the process of assembling the planting process when grouting, the process of assembling the planting process when grouting is made in large units in the factory, and assembling the fixing unit 22 first. Done.

The assembly of the fixing unit 22 is completed by bringing the front surface of the second nut 32 into close contact with the back surface of the connector 24, and welding the cap 36 by bringing the cap 36 into close contact with the back surface of the second nut 32. Will be.

The coupling 40 is coupled to the anchorage 22. That is, the male screw 28 formed on the outer periphery of the front end of the fixing unit 22 is coupled to the female screw 46 formed on the inner periphery of the rear end of the coupling 40.

In that state, the corrugated pipe 60 is coupled to the front end of the coupling 40. That is, when the corrugated pipe 60 is pressed through the inner insertion hole 42 of the coupling 40, the recessed portion 64 formed on the outer surface of the corrugated pipe 60 is the insertion hole of the coupling 40. The coupling portion 44 is formed in the front end of the 42, the coupling portion 44 is formed in the inclined surface, so that when the corrugated pipe 60 is pushed in is naturally coupled.

Then, the one end of the nail 50 is coupled to the fixing unit 22, the rear end male screw 52 of the nail 50 with respect to the female thread 34 of the second nut 32 formed in the fixing unit 22. Tighten by rotating clockwise.

In this state, in order to reinforce the slope active surface 2, the drilling hole 4 is drilled as shown in FIG. 6A, and the grouting construction device 20 preassembled as shown in FIG. 6B is drilled. Insert into the hole (4).

And, as shown in Figure 6c, the pressure plate 70 and the cement sludge injection pipe 80 is installed, and fastening the first nut 76 to the shear male screw 54 of the nail 50, The first nut 76 is fastened to the outside of the pressure plate 70, and the first nut 76 is fastened to the front of the pressure plate 70.

And, as shown in Figure 6d, the cement sludge is first injected and cured between the drilled hole and the corrugated pipe. At this time, the primary injection and curing is a process of injecting the cement sludge 8 so that the fixing unit 22 is integrated with the inner wall surface of the drilling hole (4), in this state do not apply a tensile force to the nail (50) Instead, the fixing tool 22 is fixed to the inner wall surface of the drilling hole 4.

After some time has elapsed, when the first-injected cement sludge 8 hardens on the inner wall surface of the drilling hole 4, the fixing unit 22 is firmly fixed to the inside of the drilling hole 4, In that state, as shown in FIG. 6E, the first nut 76 is rotated in a clockwise direction. Then, a strong tensile force acts on the nail 50.

In this state, as shown in FIG. 6F, the cement sludge injection pipe 80 is drawn outwardly, and the cement sludge is discharged into the remaining space of the drilling hole 4 through the cement sludge injection pipe 80. Infuse tea. At this time, the corrugated pipe 60 surrounds the outside of the nail 50 while forming a predetermined space, so that the cement sludge 8 is not directly in contact with the nail 50 and the perforation hole 4 and the corrugated pipe 60. ) Is filled in the space between.

When the secondary injection, curing and curing of the cement sludge is completed, the first nut 76 is collected by rotating it counterclockwise, and the nail 50 is rotated counterclockwise to the second nut ( 32) and the nail 50 is collected. Then, the construction state is that the cement sludge 8 is grouted so that a tensile force is applied between the perforation hole 4 and the corrugated pipe 60 while the space is formed inside the corrugated pipe 60 as shown in FIG. 6G. do.

Therefore, the grouting construction method according to the embodiment of the present invention can effectively reduce the construction cost, greatly reduce the construction period, and can reinforce the same slope active surface by cement sludge.

On the other hand, the grouting construction apparatus and the construction method according to an embodiment of the present invention is not limited to the above embodiments, but various modifications can be made within the scope not departing from the technical gist.

1 is a side cross-sectional view showing a nailing apparatus according to a conventional embodiment,

Figure 2 is an exploded perspective view showing the configuration of the grouting construction apparatus according to an embodiment of the present invention,

Figure 3 is a side cross-sectional view showing a mounting configuration of the grouting construction apparatus according to an embodiment of the present invention,

4 and 5 is a process chart showing a grouting construction process according to an embodiment of the present invention,

Figure 6a to 6g is a state diagram showing a grouting construction state according to an embodiment of the present invention for each process.

* Description of the symbols for the main parts of the drawings *

20: grouting construction device, 22: fixing fixture,

24: connector, 30: fixed jaw,

32: second nut, 36: cap,

40: coupling, 50: nail,

60: wrinkle tube, 70: pressure plate,

76: first nut, 80: cement sludge injection tube.

Claims (11)

In the grouting construction device for drilling the slope hole 4 to the slope of the slope active surface (2), and to perform the slope slope reinforcement through a nailing operation to insert a nail (50) with grouting therein, A fixing unit coupled to one end of the nail 50 to fix the nail 50 to a predetermined portion inside the drilling hole 4 near the end of the nail 50 and to separate the nail 50 after grouting. 22); It is configured to surround the outside of the nail 50, it is coupled to the front of the fixing unit 22 so as not to make direct contact with the cement sludge 8 and the nail 50 injected in order to seal the drilling hole (4) Corrugated pipe 60 is installed to the inlet of (4); A coupling 40 for coupling the anchorage 22 and the corrugated pipe 60 to both ends thereof; Grouting construction, characterized in that consisting of a pressure plate 70, the insertion hole (74, 72) for the cement sludge injection pipe (80) and the nail (50) to pass through the perforated hole (4), respectively Device. The grouting construction apparatus according to claim 1, wherein the nail (50) has a front male thread (54) and a rear male thread (52) formed on both ends thereof, respectively. According to claim 1 or 2, wherein the fixing unit 22 has a second nut (32) having an internal thread (34) formed therein to be coupled to the rear end screw 52 of the nail (50); The rear surface is welded to the front end of the second nut 32, the insertion hole 26 for forming the nail 50 passes therein, the fixing jaw for increasing the fixing force with the cement sludge 8 at the rear end 30, the grouting construction device, characterized in that consisting of a connector (24) formed with a male screw 28 on the outer periphery of the shear. According to claim 1, The coupling 40 is the rear end of the corrugated pipe 60 is coupled therein, the insertion hole 42 for the nail 50 passes through is formed, the insertion hole 42 Grouting construction device, characterized in that formed in the inclined coupling portion (44) for coupling the corrugated pipe (60). According to claim 1, The corrugated pipe (60) has a plurality of recesses 64 and convex portion (66) is repeatedly formed on the outer surface to increase the bonding force with the cement sludge (8) filled in the outside, the inside Grouting construction device, characterized in that the space (62) for inserting the nail 50 is formed. The pressure plate (70) is further provided with a first nut (76) having a female thread (78) formed therein to be coupled to the front end male screw (54) of the nail (50) in front of it. Grouting construction device. 4. The second nut 32 has a circular cap 36 welded to its rear surface such that the cement sludge 8 does not flow into the second nut 32 and the corrugated pipe 60. Grouting construction device characterized in that. A first step of assembling the plant during grouting; A second process of drilling a drilling hole to reinforce the slope activity surface; A third step of installing the pressure plate and the cement sludge injection pipe; A fourth process of first injecting and curing cement sludge between the drilled hole and the corrugated pipe; A fifth step of applying tension to the nail; A sixth step of sealing the cement sludge by secondary injection between the drilled hole and the corrugated pipe, and curing the cement sludge; A grouting construction method comprising a seventh process of collecting the nail. The method of claim 1, wherein the first process comprises: assembling the fixing unit; Coupling a coupling to the anchorage; Coupling a corrugated pipe to the front end of the coupling; A grouting construction method comprising the step of coupling one end of the nail to the fixing unit. The grouting method of claim 1, wherein the fifth process is a process of rotating the first nut coupled with the shear male thread of the nail in a clockwise direction so that the in-output of the nail is transmitted to the fixing unit. The method of claim 1, wherein the seventh process is a process of collecting the first nut by rotating the first nut coupled to the shear male thread of the nail counterclockwise, and collecting the nail by rotating the nail counterclockwise. Grouting construction method characterized in that it further comprises.

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