KR100685242B1 - Structure for protecting a slope by installing crossed structure on the slant and constructing method thereof - Google Patents

Abstract

       The present invention is to install a plurality of cross-shaped structure to protect the slope and to install the PC steel wire connected to the anchor support installed on the slope to the cross-shaped structure, the construction of the slope protection structure provided with a cross-shaped structure on the slope to protect the slope Way.

It is about a construction method.

       After drilling a plurality of anchor holes at regular intervals on the entire surface of the slope, insert the anchor support, install a cross-shaped structure made of a quadrangular body made of concrete or steel cross-shaped on the slope, and then install the PC steel wire installed on the anchor support. After passing the PC steel wire through the anchorage provided in the through hole formed in the center portion of the cross-shaped structure, and after tensioning and filling the grouting material into the anchor hole, the ends of the branch portions of another cross-shaped structure adjacent to the branch of the cross-shaped structure It is a slope protection construction method using a cross-shaped structure that forms interconnected joints, arranges the PC wires, and then taps over the entire slope.

Description

       Structure for protecting a slope by installing crossed structure on the slant and constructing method             

       1 shows a cross-shaped structure of the present invention.

       Figure 2 shows another embodiment of the cross-shaped structure of the present invention.

      3 is a view showing that the cross-shaped structure of the present invention is connected to each other and installed.

       4 (a) (b) (c) (d) (e) illustrate various embodiments of joints connecting the cross-shaped structures of the present invention to each other;

       Figure 5 (a) (b) (c) (d) (e) (f) (g) is a view showing the order of construction to protect the slope using the cross-shaped structure of the present invention.

       <Description of the symbols for the main parts of the drawings>

       10: slope 11: steel grating

       12: anchor hole 13: PC steel wire

       14: anchor support 15: grouting material

       20: cross-shaped structure 21: branch

       22: anchorage 23: concrete

       24: center portion 25: through hole

       26: extruded bar 27: four-sided cylinder

       30: seam 31: formwork

       32: reinforcing bar 33: overlapping reinforcing bar

       34: connecting pin 35: filler

       36: through hole 37: internal insert

       38: circular part 39: dumbbell-type hinge pin

       40: enclosure 41: circular groove

       42: sealing material 43: circular connection

         The present invention is to install a plurality of cross-shaped structure on the plurality of perforated anchor holes at regular intervals throughout the slope to protect the slope, and to fix the PC steel wire connected to the anchor support installed in the anchor hole in the cross-shaped structure In addition, the present invention relates to a method of constructing a slope protection structure in which a cross structure is installed on a slope that tensions and cross-connects the cross structure to protect the slope.

       When the above method is described in detail, after arranging the slopes, a plurality of anchor holes are drilled at regular intervals over the entire slope surface, and then an anchor support is inserted, and a quadrangular body of concrete or steel formed crosswise on the anchor holes. After installing the cruciform structure made of a cross-linked PC steel wire installed in the anchor support through the PC steel wire through the anchorage is installed in the through hole formed in the center portion of the cross-shaped structure to be filled with a grouting material in the anchor hole, It is a slope protection construction method for forming the joints of the ends of the branch portions of another cross-shaped structure provided adjacent to the branch portion of the cross-shaped structure, arranging the PC wire, and then recording over the entire slope.

       An object of the present invention is to insert and install the anchor support in the anchor hole formed at regular intervals on the slope, and then install the cross-shaped structure thereon while the PC steel wire connected to the anchor support through the cross-shaped structure, the PC steel wire After the tension is settled, the grouting material is filled in the anchor hole, and the joints are formed to protect the slope by interconnecting end portions of branch portions of another adjacent cross-shaped structure, which are provided in four directions of the cross-shaped structure. When it is used, the cross-shaped structure installed on the slope and anchor support inserted into the slope are increased by the tension force introduced into the PC steel wire, and the binding force is generated more strongly. So that the soil is easily lost or To provide a method for preventing collapse.

       Conventionally, by simply assembling and installing blocks on slopes, or by installing stones of a certain size on the slopes to protect the slopes, or by using a method of spraying vegetation soil containing grass seed on the slopes in a shock-creating manner. In order to protect the slopes by allowing the grass to be vegetated, the method of assembling and installing blocks and stones on the slopes is simply a method of mounting them on the slopes. When the soils of the slopes lose their repose and start to collapse, they are lost without any resistance. As the block and stone are lost, any action other than the effect of simply placing the block and stone on the slope of the slope is not expected. The above method stabilizes the soil on the slope because the compressive force does not act on the soil of the slope. It doesn't work, so it's not an effective way to protect slopes. The method of attaching the vegetation soil to the slope is to simply attach the vegetation soil to the slope and to protect the slope by allowing vegetation such as grass to be vegetated. When the soil is lost, the vegetation soil and grass, etc. are easily lost without any resistance action. The problem has been raised that this is easily lost and does not effectively protect the slope.

Therefore, the present invention has been made in order to improve the above problems, the pressure is applied to the slopes of the slope so that the slope soil has a binding force to install the anchor support in the anchor hole formed in the slope to stabilize the slope And the cross-shaped structure is installed on the slope so that the PC steel wire installed in the anchor support to the tension settled in the cross-shaped structure installed on the anchor hole of the slope so that the tension force is transmitted to the soil of the slope through the cross-shaped structure to stabilize the soil It is to provide a construction method of a slope protection structure.

        The present invention after arranging the slope 10 in order to protect the slope after drilling a plurality of anchor holes 12 at regular intervals over the entire slope surface and then insert the anchor support 14 provided with PC steel wire 13 And a cross-shaped structure 20 made of a quadrangle cylinder 27 made of concrete 23 or steel formed in a cross shape on the anchor hole 12, and then a PC steel wire 13 installed on the anchor support 14. The tungsten through the PC steel wire 13 to the fixing hole 22 provided in the through hole 25 formed in the center portion 24 of the cross-shaped structure 20, and is fixed to the anchor hole 12, the grouting material 15 ) And a joint portion 30 formed by interconnecting the ends of the branch portions 21 of another cross-shaped structure 20 provided adjacent to the branch portions 21 of the cross-shaped structure 20, After the PC steel wire 13 is arranged, the slope protection construction method for greening over the entire slope 10 There are Jing.

       Hereinafter, the configuration and operation of the present invention will be described in detail with reference to the accompanying drawings.

        1 is a view showing a cross-shaped structure of the present invention, the branch portion 21 is formed in four directions to reinforce the reinforcing bar 32 to form a cross, the central portion in which the four branch portions 21 cross in the center The through hole 25 is formed in the 24 to install the anchorage 22, and then the concrete 23 is poured to form a cruciform structure 20, but protrudes outward from the end of the branch portion 21 by a predetermined length. Reinforcing bar 26 is formed to protrude.

       The protruding reinforcing bar 26 protruding a predetermined length outward from the end of the branch portion 21 of the cross-shaped structure 20 is another cross-shaped structure installed adjacent to the cross-shaped structure 20 on the slope 10 in the future This is to form the joint portion 30 interconnected with the branch portion 21 of the (20).

       When a tension force is applied to the PC steel wire 13 installed in the anchorage 22 installed in the through hole 25 formed in the central portion 24 in addition to the concrete 23 to be poured to form the cross-shaped structure (20). The cross-shaped structure 20 may be fabricated using a material of high strength plastic having a strength that can resist the tension force.

       Figure 2 is a view showing another embodiment of the cross-shaped structure of the present invention, the four-sided cylindrical body 27 made of steel in the hollow state cross-crossed mutually installed and then fixed by welding or the like branches in four directions 21 is formed, and the center portion where the branch portions 21 in the four directions intersect is formed in the cross-shaped structure 20 is formed with a through hole 25 and the fixing hole 22 is provided in the through hole 25.

       The iron cross structure 20 is made of a general steel or coated with a material such as galvanized or urethane resistant to corrosion and ultraviolet rays even when exposed to the atmosphere.

       3 is a view showing that the cross-shaped structure of the present invention is connected to each other installed, another adjacently installed using a protruding reinforcement (26) protruding to the branch portion 21 formed in the four directions of the cross-shaped structure (20) As shown to form the joint 30 connected to the cross-shaped structure 20, the various methods of forming the joint 30 is to be connected by the various methods described in FIG.

       In addition, the joint portion 30 of the present figure shows a joint portion 30 connected by using a protruding rebar. As mentioned in FIG. 2, when the steel quadrangle cylinder 27 is used, it is to be connected by the joint connection method described in FIG.

       Figure 4 (a) (b) (c) (d) (e) is a view showing various embodiments of the joint portion connecting the cross-shaped structure of the present invention, as shown in FIG. The joint portion 30 connected to each other is to reinforce the reinforcing bars 32 as shown in the diagram (a) of this figure, and interconnect the concrete cross-shaped structure 20 manufactured using the concrete 23 to the slope 10. Next, the overlapping reinforcing bar 33 is connected to the reinforcing bar 26 protruding from the branch 21 of the cross-shaped structure 20 adjacent to each other using the protruding bar 26 and the binding line. After the formwork 31 is installed to have the same diameter as that of the part 21, the concrete 23 is poured to form a joint part 30 to be connected,

       (B) is a method of interconnecting the branch portions 21 of the cross-shaped structure 20 produced using the concrete 23 as a through hole (not shown) in a distance away from the end of the branch portion 21 a predetermined distance The branch portion 21 formed in the square portion 21 is inserted into a separate quadrangular cylinder 27 so that the branch portions 21 disposed adjacent to the quadrangular cylinder 27 abut each other. After filling with the filler 35 in the 27 and inserting and fixing a separate connecting pin 34 in the through-hole (not shown) formed in the quadrilateral cylinder 27 and the branch portion 21, the joint portion (30) To form and connect,

       (C) is a method of interconnecting when the cross-shaped structure 20 is manufactured by using the four-corner cylinder 27 of steel, the through hole 37 in a predetermined distance from the end of the branch portion 21. The through hole 25 is also formed at both ends of the inner insert 37 inserted into the square cylinder 27, and then the branch portion 21 of the cross-shaped structure 20 provided adjacent to the slope. In order to interconnect with each other, the inner insert 37 is inserted into the through hole 36 formed in the quadrangular cylinder 27, and then filled with the filler 35 in the joint portion 30, and the branch 21 The connecting pin 34 is inserted through and fixed in the through hole 25 formed in the inner insert 37 to form the joint portion 30.

       (D) is a branch portion 21 of the cross-shaped structure 20 mentioned in Figure (c) is composed of a four-sided cylinder 27, the inside of the four-sided cylinder 27 is empty, so both sides of the circular connecting portion 43 The dumbbell-shaped hinge pin 39 formed with a circular portion 38, such as a dumbbell, is inserted into the through-hole 36 formed in the quadrangular cylinder 27 of the branch portion 21 of the cross-shaped structure 20 installed adjacently. In order to allow the circular portion 38 formed on the dumbbell-shaped hinge pin 39 to be inserted into the quadrangular cylinder 27 and to be hinged, a separate enclosure 40 is inserted into the quadrangular cylinder 27. The joint portion 30 is provided so that the circular portion 38 is installed in the circular groove 41 formed in the enclosure 40 and the surfaces of the branch portions 21 which are in contact with each other are sealed with an elastic sealing material 42. To form.

       In this way, the end face of the branch portion 21 is sealed with an elastic sealing material 42, but the sealing material 42 does not penetrate into the quadrangular cylinder 27 and the circular groove 41 of the housing 40. The dumbbell-type hinge pin (39) to facilitate the hinge action.

       In addition, when the sealing material is sealed using the sealing material 42, foreign matter or moisture is prevented from entering the joint part 30 to prevent a shape such as corrosion and the like, so that the soil of the later slope is behaved so that the cross-shaped structure 20 is formed. When the mutual movement of the predetermined size is the movement of the cross-shaped structure 20 by moving in the circular groove 41 formed in the housing 40 is the circular portion 38 of the dumbbell-shaped hinge pin (39) Allow it to absorb on its own.

       In particular, the installation of the cross-shaped structure 20 to form the joint portion 30 is to be installed on the unstable slope 10 because the angle of repose of the soil to form the slope 10 is small.

       Figure (e) is to form a branch portion 21 of the cross-shaped structure 20 made of a quadruple cylinder 27 or concrete 23 in a "b" shape and "b" shape, respectively, and connect them up and down, It is to be fixed through the up and down using the connecting pin 34 and then filling the connecting portion with the filler 35 to form the joint portion (30).

       In this figure, it was described as connecting by using a four-sided cylinder 27, the branch portion 21 made of concrete 23 and the branch portion made of steel that does not penetrate other than the four-sided cylinder (27) ( 21 may also be applied.

        5 (a), (b), (c), (d), (e), and (f) (g) show a construction procedure for protecting a slope using the cross-shaped structure of the present invention. After the cut soil is formed to clean up the slope (10), Figure (b) is to install and fix the steel grating 11 over the entire sloped, Figure (c) is the steel grating 11 A plurality of anchor holes 12 are drilled at regular intervals over the entire fixed surface of the slope 10, and FIG. (D) shows the anchor while supporting the anchor support 14 in the anchor hole 12. A certain length of both ends of the PC steel wire 13 connected to the support 14 is provided to protrude outward from the anchor hole 12, and FIG. (E) shows concrete 23 formed crosswise on the anchor hole 12. Or in the through-hole 25 formed in the center portion of the cross-shaped structure 20 while installing a cross-shaped structure 20 made of a four-piece cylinder 27 made of steel Wherein the PC steel wire 13 is inserted through, Fig. (F) is introduced into the PC steel wire 13 inserted through the through-hole 25 formed in the center portion 24 of the cross-shaped structure 20 while the PC steel wire 13 into which the tension force is introduced by filling the grouting material 15 into the anchor hole 12 and then installing the anchorage 22 in the through hole 25 of the center portion 24 of the cross-shaped structure 20. Is inserted through the fixing unit 22 and fixed to fix the PC steel wire 13 protruding to the outside of the fixing unit 22, Figure (g) is a regular interval on the slope (10). The joints 30 are formed to interconnect the branch portions 21 of the cross-shaped structures 20 which are installed adjacent to each other, and greening is performed on the slopes 10 except for the cross-shaped structures 20. Slope protection construction method to protect the slope.

       The tension force introduced into the PC steel wire 13 is transmitted to the cross-shaped structure 20, and this tension force is transmitted to the earth and sand of the slope 10 by the compressive force so as to be the phenomenon of pressing the soil on the slope of the slope from above to stabilize the slope 10. To make it possible.

       In addition, the cross-shaped structure 20 installed on the slope 10 is interconnected so that the compressive force is spread evenly throughout the slope so that the slope is more stable, while the branches 21 are interconnected. Using the method as mentioned in 4, if the soil of the slope 10 is unstable so that there is soil movement, the cross-shaped structure (20) is a hinged dumbbell type that is an example of Figure 4 (d) to absorb it As shown in (e) of the joint portion 30 using the hinge pin 39, the joints and grooves of the “a” and “b” shapes formed at the ends of the branch portion 21 are connected to each other so as to displace each other. It is also intended to apply the joint portion 30 to form a 30 so that the connecting pin 34 interconnecting it is the hinge axis.

       The present invention is installed on the slope to stabilize the soil by installing a PC steel wire in the anchor hole formed in the slope to prevent the soil flows down or lost and insert the PC steel wire through the cross-shaped structure installed on the anchor hole and the tension force To settle and to cross the cross-structure structure so that the tension is spread evenly to the slope to stabilize the slope more stable than the conventional slope protection method and can stabilize the slope more efficiently than the conventional soil protection It is a very useful invention that can effectively stabilize the slope that can be selectively applied to the method of introducing the tension force and the method of interconnecting the cross-shaped structure according to the type of.

Claims (9)

In the structure installed on the slope 10 to protect the slope, a plurality of anchor holes 12 perforated at regular intervals over the entire surface of the slope on which the steel grating 11 is installed, and in the anchor hole 12. The PC steel wire 13 is inserted into the anchor support body 14 to which the PC steel wire 13 is connected, and the cross-shaped structure 20 provided on the anchor hole 12 and the fixing opening 22 formed in the center of the cross-shaped structure. After fixing the tension force and introducing the tension force, the anchor hole 12 is filled with a grouting material, the PC steel wire is fixed in the fixing hole, and another cross shape provided with the branch portions 21 of the cross structure 20 adjacent thereto. In the slope protection structure in which the ends 30 of the branch portions of the structure are formed by interconnecting joints 30,      The cross-shaped structure 20 cross-installs the four-cylindrical body 27 in a cross shape so that the branch portions 21 are formed in four directions, and a through hole 25 is formed in the center portion where the four branch portions cross. And a cross-shaped structure on a slope characterized by the fact that the fixing tool 22 is provided in the through hole. delete delete delete        The method of claim 1,       The joint portion 30 has a through portion 36 formed in a separate quadrangular cylinder 27 having a branch formed through-hole 25 in a predetermined distance from the end of the branch portion 21 of the cross-shaped structure (20) And inserting and fixing a separate connecting pin 34 into the through hole 25 formed in the quadrilateral cylinder 27 and the branch portion 21. Slope protection structure provided with a cross-shaped structure on the slope characterized by being formed by.        The method of claim 1,       The joint portion 30 forms a through hole 25 at a predetermined distance inside the end portion of the branch portion 21 of the cross-shaped structure 20 made of an iron quadrilateral cylinder, and is inserted into the quadrilateral cylinder 27. The inner insert 37 also has a through hole 25 at both ends thereof, and is then inserted into the through part 36 formed in the branch portion 21 of the quadrangular body of the cross-shaped structure 20 adjacently installed. (37) is inserted and then filled with a filler in the connection portion, characterized in that formed by penetrating through the connecting pin 34 in the through hole 25 formed in the branch portion 21 and the inner insert 37 Slope protection structure provided with a cross structure on the slope.        The method of claim 1,       The joint portion 30 is provided with a housing 40 having a circular groove formed inside the quadrangular cylinder 27, which is the branch portion 21 of the cross-shaped structure 20 adjacently installed, and in the circular groove 41 of the enclosure. While the circular portion 38 formed on both sides of the dumbbell-shaped hinge pin 39 is coupled to the end surface of the branch portion 21 is in contact with each other, the surface is characterized in that it is sealed with an elastic sealing material 42 Slope protection structure with cross-shaped structure.        The method of claim 1,        The joint portion 30 is a "b" shaped and "b" shaped with protrusions and grooves, respectively, at certain lengths of the ends of the branch portions 21 of the four-cylindrical body 27 or the cruciform structure 20 made of concrete. Slope protection provided with a cross-shaped structure on the slope characterized by the cross-linked to form up and down and interlocking with each other, but fixed to penetrate up and down using the connecting pin 34 and then filling the connecting portion with the filling material 35 Structure.        In the construction method for installing the slope protection structure to protect the slope,        (a) arranging the slope 10 formed after the cut soil;        (b) installing and fixing the steel grating 11 over the entire sloped surface;        (c) is a constant distance over the entire surface of the steel grating fixed installation  Drilling a plurality of anchor holes 12;       (d) protruding a predetermined length of both ends of the PC steel wire 13 connected to the anchor support while installing the anchor support 14 in the perforated anchor hole to protrude outward from the anchor hole;       (e) the PC wire 13 in the through-hole 25 formed in the center of the cross-shaped structure while installing a cross-shaped structure 20 made of a quadrilateral cylinder 27 made of concrete or steel cross-shaped on the anchor hole. Penetrating through;       (f) fills the grouting material 15 into the anchor hole while introducing a tension force into the PC steel wire 13 penetrated into the through hole 25 formed in the center portion of the cross-shaped structure 20, and the cross-shaped structure ( PC which protrudes outward of the anchorage 22 after the anchorage 22 is installed in the through hole 25 of the central portion of the center 20 and the PC steel wire 13 into which the tension force is introduced is penetrated into the anchorage 22. Removing the steel wire 13; And       (g) forms a joint portion 30 which interconnects each branch portion 21 of the cross-shaped structure 20 adjacently provided at a predetermined interval on the slope 10, and the cross-shaped structure 20 Method for constructing a slope protection structure provided with a cross-shaped structure on the slope, characterized in that the step is carried out to the greening on the slope other than 10.

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