KR20050079166A - Support-pipe using method of soil nailing - Google Patents

Abstract

The present invention relates to an insertion support tube for a soil nailing method, and more particularly, inserted into a hole inserted into a perforated hole in the slope to install a nail structure including a reinforcement nail (rebar) or grouting, the insertion hole is collapsed or The present invention relates to an insertion support tube for a soil nailing method in which a plurality of grouting holes are formed to prevent closure and to increase the bonding force between the base and the nail structure.

Insertion support tube for the soil nailing method according to the present invention is inserted into the insertion hole drilled on the slope to install the nail in the insertion support tube to prevent the insertion hole collapse, the insertion support tube is inserted therein It has a diameter to form a grouting layer having a predetermined thickness on the outer circumferential surface of the nail, and a plurality of grouting holes are formed so that the grouting material injected therein leaks to the outside to form a predetermined grouting solid layer outside the insertion support tube. It relates to an insertion support tube for a soil nailing method characterized in that.

Description

Insert support pipe for soil nailing method {Support-pipe using method of soil nailing}

The present invention relates to an insertion support tube for a soil nailing method, and more particularly, inserted into a hole inserted into a perforated hole in the slope to install a nail structure including a reinforcement nail (rebar) or grouting, the insertion hole is collapsed or The present invention relates to an insertion support tube for a soil nailing method in which a plurality of grouting holes are formed to prevent closure and to increase the bonding force between the base and the nail structure.

In general, the soil nailing method does not prestress nails that can resist tensile stresses, shear stresses and bending moments in order to improve the stability of natural slopes by excavation or excavation that have a high risk of collapse. It is one of the field ground reinforcement methods to improve the stability of slope destruction during and after excavation work by increasing the overall shear strength and restraining displacement caused by inserting at close intervals.

As shown in Fig. 1, the small nailing method uses a drill hole (not shown) from the top of a natural or artificial slope to insert a depth of about 75 to 150 mm into a depth of about 8 to 15 m depending on the height of the slope. After drilling and inserting the nail (1) made of reinforcing bars into the drilled insertion hole 10, and then filling the grouting material made of thin mortar or cement milk into the insertion hole (10) for a predetermined time Curing to form a grouting layer 30 having a predetermined thickness, and then shotcrete in a state in which the wire mesh 5 is installed using the bolt 3 and the front plate 2 with respect to the front opening of the insertion hole 10. It is poured in (6) to form reinforcement wall. Therefore, a part of the grouting material filled in the insertion hole 10 penetrates into the base to form a part of the grouting solid layer 140 to reinforce the bonding force between the base and the nail structure composed of the nail 10 and the grouting layer 30. Let's go.

However, according to the conventional soil nailing method, as shown in the cross-sectional view of FIG. 2 according to soil quality, the insertion hole 10 drilled by the perforator is collapsed or sealed, making it difficult to install the nail or the grouting material is not sufficiently filled, so that the nail is not in the air. There was a problem that the bond between the base and the nail structure is inferior as it is easily corroded and partially formed pupils.

Accordingly, as shown in FIG. 3, a method of preventing the insertion hole 10 from collapsing by installing an insertion support tube 150 made of a circular plastic pipe in the insertion hole 10 has been used. However, since the conventional insertion support tube 150 is a structure that completely separates the nail structure and the base plate, there is a problem that the nail structure is simply inserted into the insertion hole 10 so that the coupling force is extremely low.

In addition, since the conventional insertion support tube 150 is inserted into the opening of the insertion hole 10 inwardly, a circular pipe having the same length as the depth of the insertion hole 10 is used. Therefore, since the work space of at least 8 m or more must be secured in order to insert the conventional insertion support tube 150 into the insertion hole 10, there is a problem that the installation of the insertion support tube is difficult when there is a building in front of the slope.

Accordingly, the present invention has been made to solve the above-mentioned problems of the prior art, the main object of the present invention is to be installed in the insertion hole drilled by a perforator to prevent the insertion hole collapse, as well as to improve the bonding force between the base and the nail structure It is to provide an insertion support tube for a soil nailing method formed a plurality of grouting holes to increase.

The present invention also provides an insertion support tube for the soil nailing method that can minimize the work space required in front of the slope by making the insertion support tube is installed in the insertion hole drilled by the perforator in the longitudinal direction.

In another aspect, the present invention by installing a nail and grouting injection hose in the insertion support tube and rotatably installed the excavation portion at its tip, excavation of the earth and sand in the insertion hole and installed by pulling the insertion support tube inside the insertion hole It is to provide an insertion support tube for a soil nailing method.

In order to achieve the above object, the insertion support pipe for the soil nailing method according to the present invention is inserted into the insertion hole drilled on the slope to install the nail insertion support for the soil nailing method to prevent the insertion hole collapse In the tube,

The insertion support tube has a diameter capable of forming a grouting layer having a predetermined thickness on the outer circumferential surface of the nail inserted therein, and the grouting material injected therein leaks to the outside to form a predetermined grouting solid layer on the outside of the insertion support tube. A plurality of grouting holes are formed to be formed.

The insertion support tube is characterized in that the plurality of unit insertion support tube which is sequentially reduced in diameter to be foldable in the longitudinal direction is slidably coupled.

The insertion support tube is characterized in that made of a foldable corrugated tube or a flexible synthetic resin tube in the longitudinal direction.

The nail is fixed to the support plate for pressing the insertion support tube forward in the insertion support tube, the front of the insertion support tube is fixed to the tip of the nail is provided with an excavation for excavating the earth and sand It features.

On the other hand, a cylindrical fixing cap for fixing the insertion support tube is installed at the tip of the insertion support tube made of the corrugated pipe or the flexible synthetic resin tube, and a support plate for pressing the insertion support tube forward is fixed to the rear of the fixing cap. The nail is installed, the front of the fixing cap is fixed to the tip of the nail is characterized in that the excavation portion for excavating the earth and sand is installed.

In addition, the grouting hole formed in the insertion support tube is characterized in that formed in the upper, lower sections of the predetermined width of the left and right sides.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the insertion support pipe for a soil nailing method according to the present invention.

First, Figures 4a and 4b is a perspective view showing a preferred embodiment of the insertion support tube for a soil nailing method according to the present invention and Figure 5 is a cross-sectional view of the insertion support tube for a soil nailing method according to the present invention. As shown, the insertion support tube 50 of the present invention is a circular synthetic resin (FRP) pipe, the nail (1) and grouting of the outer diameter and the predetermined diameter that can be inserted into the insertion hole (10) punched by a perforator The hose 60 is inserted and has an inner diameter of a size capable of forming the grouting layer 30 having a predetermined thickness on the outer circumferential surface of the nail 1. And the length of the insertion support tube 50 is equal to the depth of the insertion hole 10, the thickness thereof has a thickness greater than the minimum thickness to prevent the insertion hole 10 collapse. In addition, a plurality of grouting holes 58 and 59 penetrate the insertion support tube 50 so that the grouting material filled therein may leak to the outside. In this case, the grouting holes 58 and 59 may have a size such that at least thin mortar or cement mill may leak, and may have various shapes such as a circle or a sphere.

Therefore, as shown in the installation cross-sectional view of FIG. 5, the insertion support tube 50 of the present invention is installed in the insertion hole 10, the nail 1 is inserted therein, and then the insertion support tube 50 When a predetermined grouting material is injected into the inside, the grouting material to be injected forms a grouting layer 30 inside the insertion support tube 50 and flows to the outside through the grouting hole 58 to insert the support tube 50. And a grouting solid layer 40 having a predetermined thickness in the space between the insertion hole 10 and the insertion hole 10. In addition, a part of the grouting material leaked into the insertion hole 10 penetrates into the base or enters the pupil formed in the base to form an amorphous grouting solid layer 45. As such, the insertion support tube 50 of the present invention is not only the inner grouting layer 30 and the outer grouting solids layer 40 are coupled to each other through the grouting hole 58, but also an irregular solid layer formed in the base. Since 45) is integrally coupled, the bonding force between the base and the nail structure is greatly improved.

On the other hand, the grouting hole 58 formed in the insertion support tube may be formed only in the upper and lower sections of the predetermined width of the left and right sides of the insertion support tube. That is, the grouting hole 58 is a leak of thin mortar or cement milk injected into the insertion support tube. When the grouting hole 58 is formed on the bottom surface, the grouting hole 58 continuously leaks to the bottom while curing the grouting material. This is because a hole is formed in the grouting layer 30 formed at the upper surface of the grouting layer 30. If the grouting hole 58 is formed on the upper surface of the grouting layer 30, water or soil is introduced into the insertion support tube before the grouting material is filled.

6 is a perspective view showing another embodiment of the insertion support tube for the soil nailing method according to the present invention, as shown, a unit insertion support tube 51 of a predetermined length in which a plurality of grouting holes 58 are formed ( 52) (53) is to be folded in the longitudinal direction. That is, the unit insertion support tube is a plurality of circular synthetic resin pipes are sequentially reduced in diameter, are coupled to each other slidable. And the end of the small diameter unit insertion tube is integrally formed with a locking projection (55) protruding outward, the end of the larger diameter unit insertion support tube is annular so that the locking projection 55 can be caught inward The locking protrusion 56 is formed. Accordingly, when the plurality of unit insertion support tubes 51, 52, 53 is extended in the longitudinal direction, the unit insertion support 10 is equal to the depth of the insertion hole 10. On the contrary, when all the unit insertion support tubes are folded in the longitudinal direction, one unit insertion support is provided. It will have a length similar to the tube. Therefore, the insertion support tube 50 of the present invention can work even if only a work space of a width similar to that of one unit insertion support tube is secured. For example, when there is a building or another slope in front of the slope, the insertion support tube 50 is completely folded and inserted into the insertion support tube 50 while being positioned in the opening of the insertion hole 10. By using the nail 1, the smallest diameter unit insertion support tube 53 is pulled forward one by one in order to work in a narrow work space. At this time, the nail 1 is also preferably used to connect a plurality of unit nails.

On the other hand, a plurality of grouting holes 58 are also formed in the unit insertion support tubes 51, 52, 53. And the unit insertion support tube 53 having the minimum diameter has a size that can be inserted into the nail (1) and the grouting injection hose (60). More specifically, the length of the unit insertion support tube is 1.5 to 2.0m, the minimum inner diameter of the unit insertion support tube is 60mm and the thickness is 3mm or less. And the diameter of the grouting hole 58 formed in the unit insertion support tube is preferably 30mm or less. Therefore, when connecting three to six unit insertion support in the longitudinal direction it is possible to form an insertion support having a length of 4.5 to 12m.

7 is a cross-sectional view showing another embodiment of the insertion support tube for the soil nailing method according to the present invention, as shown, a plurality of unit insertion support tubes 51, 52, 53 in the longitudinal direction It is foldable, and the nail 1 of predetermined diameter is provided in the inside. At the distal end of the insertion support tube 50, a predetermined excavation part 70 is fixed to the distal end of the nail 1 and rotatably installed. At this time, the support plate 8 of a predetermined size is fixed to the distal end of the nail 1 so as to be caught by the locking protrusion 56 formed in the insertion support tube 53 having the minimum diameter. The excavation part 70 is fixed to the tip of the nail 1 protruding a predetermined length toward the front of the insertion support tube 50.

Therefore, when the insertion support tube 50 according to the present invention pushes the nail 1 into the insertion support tube 50 in a state in which the insertion support tube 50 is completely contracted and positioned in the opening of the insertion hole 10. The support plate 8 installed at the tip portion pushes the unit insertion support tube 53 forward, thereby pulling the plurality of unit insertion support tubes 53 forward in order. In addition, when the nail 1 is rotated to one side, the excavation part 70 fixed to the front end thereof rotates together. At this time, since the excavation blade or the excavation screw of a predetermined formation is installed in the excavation portion 70, the earth and sand in the insertion hole 1 can be excavated. And the opening of the insertion hole 10 is provided with a driving means (not shown) for pushing or rotating the nail (1).

8 is a cross-sectional view showing another embodiment of the insertion support tube for the soil nailing method according to the present invention, as shown, consisting of a thin corrugated tube or a soluble synthetic resin tube. That is, the risk of collapse, such as rock, is relatively small, but in the case of a large number of pupils formed in the base, it is possible to improve the bonding force between the base and the nail structure by using a corrugated tube or a flexible synthetic tube whose shape is easily changed. At this time, the end of the insertion support tube 50 made of the corrugated pipe or flexible synthetic resin pipe (50) is fixed to the nail (1) is installed therein and the excavation portion (70) that is installed at the tip Is installed. The fixed cap 80 is composed of a cylindrical inner cap 81 and the outer cap 82, the end of the corrugated pipe or flexible synthetic resin pipe interposed between the inner cap 81 and the outer cap 82 Is fastened firmly by bolts (83). Accordingly, when the support plate 8 of the nail 1 installed in the insertion support tube 50 presses the fixing cap 80, the corrugated pipe or the flexible synthetic resin pipe is drawn into the insertion hole 10. . The excavation part 70 is integrally fixed to the tip of the nail 1 through a fastening means such as welding or a bolt. In some cases, the grouting hole 58 may be omitted. For example, when the size of the pupil formed in the base is too large, the grouting hole 58 may be omitted to prevent the grouting material from leaking and wasting.

Hereinafter, with reference to Figures 9a and 9b looks at the schematic process of the soil nailing method using the insertion support tube according to the present invention. First, the insertion support tube 50 according to the present invention is prepared. At this time, the insertion support tube 50 is a plurality of unit insertion support tubes 51, 52, 53 are foldably coupled in the longitudinal direction, a plurality of grouting holes (58) perforated in each unit insertion support tube It is. And the insertion support tube 50 inside the nail (1) and the grouting injection hose 60 of a predetermined diameter is inserted and the excavation portion 70 is rotated in the state fixed to the tip of the nail (1) Possible installation.

Subsequently, the insertion hole 10 having a size in which the insertion support tube 50 of the present invention can be inserted into the selected natural or artificial slope is drilled with a puncher (not shown). And it is installed by inserting the insertion support tube 50 according to the present invention into the insertion hole (10). At this time, it is preferable to push the nail 1 or rotate to one side by using a predetermined driving means 90 installed outside the insertion hole 10. That is, when the nail 1 is pushed into the insertion support tube 50 in a state in which the insertion support tube 50 is contracted and positioned in the opening of the insertion hole 10, the support plate 8 installed at the distal end thereof is provided. The pressurized unit insertion support tube 53 draws a plurality of unit insertion support tubes 51 and 52 in turn. And if the insertion hole 10 is closed by the earth and sand, the nail 1 is rotated to one side to advance while excavating the earth and sand to the excavation portion 70 is fixed to the tip.

Subsequently, when the insertion support tube 50 is completely installed in the insertion hole 10, the grouting injection hose 60 installed in the insertion support tube 50 is pulled out to inject the grouting material into the insertion support tube. (la). At this time, the grouting material is injected at a pressure of ³ ~ 5kg / cm ² . Then, the grouting material injected into the insertion support tube 50 is filled inside to form the grouting layer 30, and leaks to the outside of the insertion support tube through the grouting hole 58 to insert the support tube 50. A predetermined grouting solids layer 40 is formed in the space between the insertion hole 10 and a part of the grouting solids layer 45 that is penetrated into the base or filled into the pupil of the base to form an amorphous grouting solid layer 45. Meanwhile, a tube-shaped sealer is installed at the opening of the insertion support tube 50 filled with the grouting material to prevent the grouting material injected at a predetermined pressure from leaking into the opening (bar). After curing for a predetermined time, the shotcrete is poured by fixing the wire mesh with the bolt and the front plate to form a reinforcing wall having a predetermined thickness (g).

On the other hand, Figure 10 is a cross-sectional explanatory view showing a state in which the insertion support tube 50 made of a corrugated pipe or flexible synthetic resin tube is installed, as shown, the insertion support tube 50 is the shape of the insertion hole 10 and Since the insertion support tube 50 is easily deformed by the internal pressure by the grouting material injected into the insertion support tube 50, the insertion support tube 50 partially enters the pupil of the base and forms irregular protrusions 33. Therefore, even when the grouting hole 58 is not formed in the insertion support tube 50, the coupling force between the base and the nail structure is improved by the irregular protrusion 33.

As described above, the insertion support tube for the soil nailing method according to the present invention is formed inside the insertion support tube by the grouting material is injected into the insertion support tube by forming a plurality of grouting holes so that the grouting material leaks to the outside In addition to forming a predetermined grouting layer, a predetermined grouting solid layer is formed integrally with the outside to increase the bonding force between the base and the nail structure.

In addition, the present invention has the effect of minimizing the work space required for the installation of the insertion support tube by combining a plurality of unit insertion support in the longitudinal direction foldable or by forming the insertion support tube with a corrugated pipe or flexible synthetic resin tube.

In addition, the present invention can install the insertion support pipe while excavating the earth and sand in the insertion hole by installing an excavation portion that is rotated by the nail at the tip of the insertion support tube as well as buried the excavation portion in the grouting solid layer between the base and the nail structure There is an effect that can further improve the bonding force.

1 is a cross-sectional view for explaining the soil nailing method according to the prior art,

Figure 2 is a cross-sectional explanatory view for showing a problem of the soil nailing method according to the prior art,

3 is a cross-sectional view illustrating the problem of the insertion support tube according to the prior art,

Figure 4a and b is a perspective view showing a preferred embodiment of the insertion support tube according to the present invention,

Figure 5 is a cross-sectional view showing a state in which the insertion support tube shown in Figure 4 installed;

Figure 6 is a perspective view showing another embodiment of the insertion support tube according to the present invention,

7 is a cross-sectional view showing another embodiment of the insertion support tube according to the present invention;

8 is a sectional view showing another embodiment of the insertion support tube according to the present invention;

9A and 9B are cross-sectional explanatory views showing a schematic process diagram of a soil nailing method using an insertion support tube according to the present invention;

10 is a cross-sectional explanatory view showing a state in which the insertion support tube shown in Figure 8 is installed.

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

1: nail 2: front panel

3: bolt 4: spacer

5: wire mesh 8: support plate

10: insertion hole 30: grouting layer

40, 140: grouting solid layer 50, 150: insertion support tube

55: locking jaw 56: locking protrusion

58: grouting hole 60: grouting injection hose

70: excavation 80: fixed cap

Claims (7)

In the insertion support tube for the soil nailing method to be inserted into the insertion hole drilled on the slope to install the nail to prevent the insertion hole collapse, The insertion support tube has a diameter capable of forming a grouting layer having a predetermined thickness on the outer circumferential surface of the nail inserted therein, and the grouting material injected therein leaks to the outside to form a predetermined grouting solid layer on the outside of the insertion support tube. Insert support tube for a soil nailing method characterized in that a plurality of grouting holes are formed to be formed. The method of claim 1, The insertion support tube is an insertion support tube for a soil nailing method, characterized in that the plurality of unit insertion support tube which is sequentially reduced in diameter to be foldable in the longitudinal direction is slidably coupled. The method of claim 1, The insertion support tube is the insertion support tube for a soil nailing method, characterized in that made of a corrugated tube or a flexible synthetic resin tube foldable in the longitudinal direction. The method according to claim 1 or 2, The inside of the insertion support tube is provided with a nail of a predetermined diameter is fixed to the support plate for pressing the insertion support tube forward, characterized in that the front of the insertion support tube is provided with an excavation fixed to the tip of the nail Insertion support pipe for the soil nailing method. The method of claim 3, At the tip of the insertion support tube consisting of the corrugated pipe or flexible synthetic resin tube is provided with a cylindrical fixing cap for fixing the insertion support tube, the back of the fixing cap is fixed nail support plate for pressing the insertion support tube forward Is installed, in front of the fixing cap insertion support tube for a soil nailing method, characterized in that the excavation is fixed to the tip of the nail is installed. The method according to any one of claims 1 to 3, Grouting hole formed in the insertion support tube is inserted support tube for a soil nailing method, characterized in that formed in the upper, lower sections of the predetermined width on both sides. The method of claim 3, Insertion support tube for a soil nailing method, characterized in that the grouting hole is not formed in the insertion support tube made of the corrugated pipe or flexible synthetic resin pipe.