KR102083383B1 - Reinforced steel pipe one shot grouting - Google Patents

Abstract

The present invention relates to a steel pipe for simultaneously injecting grout, which is driven in the ground so that grouting is performed to reinforce the ground. The steel pipe comprises: a steel pipe body of a pipe shape, which is driven and installed in the ground to have a plurality of grouting holes and discharge holes formed in rows by penetrating the outer surface; a plurality of outer packers which are fixed and installed by a fastening band between the outer surface of the steel pipe body and the inner wall surface of punched holes to be apart from each other at regular intervals in the longitudinal direction of the steel pipe body and surround a circumferential edge unit of the discharge holes; division units which are installed in the steel pipe body in the longitudinal direction of the steel pipe body to be apart from each other at regular intervals so as to divide an inner space; a first injection pipe installed inside the steel pipe body so that a grouting solution can be injected in the outer packers; and a plurality of second injection pipes installed to pass through the division units in the steel pipe body so that the grouting solution can be injected in the divided inner space. Accordingly, the present invention has the effects in which the first injection pipe is arranged inside the steel pipe to fill the inside of the outer packers with the grouting solution, so as to reduce the penetration resistance when the steel pipe is driven into the ground, thereby conducting accurate penetration installation of the steel pipe.

Description

Grouting simultaneous injection steel pipe {REINFORCED STEEL PIPE ONE SHOT GROUTING}

The present invention relates to a grouting simultaneous injection steel pipe, and in detail, by placing the first injection pipe filling the grouting liquid in the outer packer inside the steel pipe to reduce the penetration resistance when the steel pipe is inserted into the ground, The present invention relates to a grouting co-injection steel pipe that can be made in penetration construction.

Generally, grout or grouting is used to inject fillers into cracks and cavities in the ground for reinforcement of the excavation ground or for leak prevention work and soil stability when constructing tunnels in civil engineering works. The filling material (also called the grouting material) is filled using gravity or a pump.

This grouting method installs steel pipes on the ground, and packers are installed inside the steel pipes to inject and solidify the grouting material, thereby integrating the steel pipes and the ground and increasing the shear strength of soil and rock. Therefore, it is a very advantageous method in terms of constructability and economic feasibility.

In general, the steel pipe grouting method consists of drilling a soft ground, inserting a steel pipe provided with a strainer in the drilling hole, injecting a sealing material between the steel pipe and the drilling hole, and injecting cement while installing a packer.

However, this method is difficult to insert the steel pipe due to the collapse of the drill hole, the mixing of foreign matters, etc. in the soft soil ground difficult to maintain the hole because the steel pipe is inserted after the drilling is not practical.

1 is a plan view showing the structure of a conventional grouting simultaneous injection steel pipe.

As shown in FIG. 1, the conventional grouting simultaneous injection steel pipe is formed of a tubular steel pipe body 10 and inserted into the ground, the steel pipe body between the outer surface of the steel pipe body 10 and the inner wall surface of the drilling hole ( A plurality of outer packers 20, which are spaced apart at regular intervals along the longitudinal direction of the 10, the inside of the steel pipe body 10 to be spaced apart at regular intervals along the longitudinal direction of the steel pipe body 10 to partition the inner space Gasket 30, the outer injection pipe 40 is inserted into the outer packer 20 outside the steel pipe body 10 to the grouting liquid is injected into the outer packer 20, and the steel pipe body 10 inside It is installed to pass through the inner gasket 30 is composed of a plurality of inner injection pipe 50 to allow the grouting liquid is injected into the partitioned inner space.

The steel pipe body 10 is formed to have a predetermined length to intrude into the ground such as the ceiling or slope of the tunnel so that the ground is reinforced, thereby improving the structural stability of the structure such as the tunnel or slope.

Then, after the grouting liquid is filled in the steel pipe body 10, the ground and the steel pipe body 10 around the steel pipe body 10 are integrated so that the grouting liquid flows out of the ground to the outside of the steel pipe body 10. To this end, a plurality of grouting holes 11 are formed in the side of the steel pipe body 10 for this purpose.

The steel pipe body 10 is formed to have a circular cross section, and the hollow body 12 is provided inside the steel pipe body 10 so that the liquid can be discharged to the outside after the filling liquid is filled in the tubular member having a predetermined length. Formed.

The outer packer 20 is composed of a tight cloth or waterproof cloth installed in a plurality of places on the outer surface of the steel pipe body 10 at regular intervals along the longitudinal direction of the steel pipe body 10, the inside of the outer The grouting liquid may be injected by the injection tube 40.

When the outer injection pipe 40 is injected into the outer packer 20, the volume of the outer packer 20 increases, and the steel pipe body 10 is tightly filled between the outer surface of the steel pipe body 10 and the inner wall surface of the drilling hole. It will seal the gap between the outer surface of the) and the inner wall surface of the drilling hole.

The inner gasket 30 is installed in a plurality of places inside the steel pipe body 10 at regular intervals along the longitudinal direction of the steel pipe body 10 to partition the hollow 12 of the steel pipe body 10 into a plurality of spaces. It plays a role.

The outer injection tube 40 is installed on the outer surface of the steel pipe body 10 so as to communicate with the outer packer 20 serves to inject the grouting liquid into the outer packer 20.

The inner injection pipe 50 is installed in the same number as the number of the partitioned space of the steel pipe body 10 so that the end is passed through the inner gasket 30 and one end in each space divided into a plurality of spaces It serves to inject grouting liquid into the compartment.

However, in the conventional grouting simultaneous injection steel pipe, since the outer injection pipe 40 for injecting grouting liquid to the outer packer 20 side is provided on the outside of the steel pipe body (10) the steel pipe body (10) If the external injection tube 40 is damaged in the process of inserting the), there is a problem that the grouting solution cannot be properly injected to the external packer 20.

In addition, since the inner gasket 30 which partitions the hollow 12 formed in the steel pipe body 10 into a plurality of divided spaces inside the steel pipe body 10 is composed of a single layer, structural stability is lowered. When the grouting liquid is injected through the inner injection pipe 50, the adhesive force is weak, so that pressure does not work evenly for each partitioned space. As a result, the grouting simultaneous injection steel pipe is not correctly constructed.

The present invention has been derived to solve the above problems, to provide a grouting simultaneous injection steel pipe that can be precisely made by the grouting is properly made by the compartment so that the inside of the steel pipe is correctly partitioned into a plurality of spaces For that purpose.

In order to solve the above problems, the present invention is a grouting simultaneous injection steel pipe that can be reinforced into the ground by the grouting is made to be reinforced, formed in a tubular shape is inserted into the ground and a plurality of grouting balls and ejection on the outer surface A steel pipe body formed to penetrate the ball; A plurality of outer packers are fixed by a tightening band on the outside of the steel pipe body to be spaced apart at regular intervals along the longitudinal direction of the steel pipe body between the outer surface of the steel pipe body and the inner wall surface of the drilling hole. Wow; A partition configured to be spaced apart at a predetermined interval along the longitudinal direction of the steel pipe body in the steel pipe body to partition an internal space; A first injection tube installed inside the steel pipe body to allow grouting liquid to be injected into the outer packer; A plurality of second injection pipes installed to pass through the partition member inside the steel pipe body to allow the grouting liquid to be injected into the partitioned inner space; It includes, the partition portion is fixed to the right side of the ejection hole is spaced apart a predetermined interval inside the steel pipe body, and fixed to the outer surface of the second injection pipe is disposed on the left side of the ejection hole and the second injection A movable plate which is moved at regular intervals according to the movement of the tube, a first elastic member provided to contact the left side of the fixed plate, a second elastic member provided to contact the right side of the movable plate, and the first expansion and contraction A spacer disposed between the first elastic member and the second elastic member so as to maintain a spaced distance between the member and the second elastic member, and disposed on both sides of the spacer and disposed between the first and second elastic members. A plurality of support plates for supporting the member and the outer surface of the second injection pipe located in the partitioned space of the steel pipe body, one end and the other end is in contact with the movable plate We present a grouting co-injection steel pipe, characterized in that it comprises an external pipe for transmitting pressure.

Here, the first injection pipe disposed in the compartment so that the grouting solution can be injected from the first injection pipe into the inside of the outer packer, a predetermined area is cut to form a separation space, and the separation space is the It may be arranged to overlap with the ejection hole.

In addition, the plurality of second injection pipes may be formed in different lengths so that the end portions are positioned in the respective inner spaces so that the grouting liquid may be injected into the respective inner spaces partitioned by the partition.

In addition, the outer packer is formed of a geotextile such as a non-woven fabric, both ends of the outer packer may be wound on both ends of the outer packer to be fixed to the outer surface of the steel pipe body by a tightening band.

In addition, a separate stabilizer having a hook may be fixed to a plurality of locations on the outer surface of the steel pipe body to fix the tightening band.

The spacer may be formed at a diameter relatively smaller than the diameter of the steel pipe body and may be disposed at a position overlapping the ejection hole.

In addition, the right circumferential surface of the fixing plate may be fixed to the inner surface of the right edge of the steel pipe body and fixedly disposed by a fixed nipple protruding at regular intervals along the radial direction of the steel pipe body.

In addition, the right side inner surface of the right side of the steel pipe body is pressed so that the side surface of the steel pipe body is bent so as to be fixed to the inner surface of the steel pipe body is protruded inward to contact the right circumferential surface of the fixing plate Fixing protrusions to be provided may be provided.

In addition, the inlet of the steel pipe body may be provided with a pressing means for pressing the first elastic member and the second elastic member while the second injection pipe is introduced into the interior of the steel pipe body.

In addition, the pressing means is fixedly coupled to the inlet of the steel pipe body and the fixing member is formed through the screw hole provided with a screw thread in the center, and screwed to the screw hole to move the second injection pipe to the pressure plate is the first A compression bolt configured to pressurize the first elastic member and the second elastic member, and the second injection pipe and the compression bolt are provided between one end of the compression member and one end of the compression member and the movable plate fixed to the other end. The first auxiliary injection tube is inserted into the second injection tube is formed stepped on one side of the outer surface is caught by the end of the compression bolt, and the plurality of second injection tube is inserted into the plurality of extending through the fixing member It may include a second auxiliary injection tube.

In addition, a plurality of through holes formed in the fixing member so that the second auxiliary injection pipe passes therethrough, respectively, the order member is provided at the rear of the fixing member by the compression bolt toward the fixing member to press the order member. The order re tightening plate may be provided.

The left circumferential surface of the fixing plate may be fixed to an inner surface of the left edge of the steel pipe body and fixedly disposed by a fixed nipple protruding a predetermined distance along the radial direction of the steel pipe body.

In addition, the left edge inner surface of the steel pipe body is pressed to bend the side surface of the steel pipe body so as to fix the fixing plate to the inner surface of the steel pipe body is projected to the inner side by contacting the left circumferential surface of the fixing plate Fixing protrusions to be provided may be provided.

In addition, the inlet of the steel pipe body may be provided with a pressing means for pressing the first elastic member and the second elastic member while the second injection pipe is drawn out of the steel pipe body.

And, the pressing means is fixedly coupled to the inlet of the steel pipe body and the through-hole is formed in the through hole, the insertion hole is installed in the through-hole and the second injection pipe by moving the pressure plate is the first elastic member and A thread is formed on an inner surface of the second elastic member to press the second elastic member, and may include a tension bolt engaged with the thread of the second injection tube to be screwed thereto.

In addition, when the steel pipe body is installed on the slope, a screw thread is formed on the outer surface of the steel pipe body inlet side, and the screw thread may be provided with a separate support plate which is screwed to the screw thread to contact the slope and the plate surface.

In addition, an outer surface may be formed in a cylindrical shape and a reinforcement having a predetermined length may be installed in the central region of the outer surface of the second injection pipe between the partition and the partition.

And, a plurality of places on the outer surface of the steel pipe body can be fixed to a separate stabilizer formed with a hook to secure the tightening band.

The grouting simultaneous injection steel pipe according to the present invention has the effect that the inside of the steel pipe can be correctly partitioned into a plurality of spaces so that the sealing force is maintained in each space so that the grouting can be properly performed for each section.

In addition, the grouting liquid is injected into the partitioned steel pipe, so that the pressure of the grouting liquid flowing out of the steel pipe during the grouting operation may be uniformly applied, thereby enabling the simultaneous injection steel pipe to be accurately installed.

In addition, by arranging the first injection pipe filling the grouting liquid in the outer packer inside the steel pipe to reduce the penetration resistance when the steel pipe is inserted into the ground to ensure the correct penetration construction of the steel pipe, damage or location of the external packer It is possible to increase the ground reinforcement effect by preventing the separation to maintain a constant injection pressure of the steel pipe.

1 is a plan view showing the structure of a conventional grouting simultaneous injection steel pipe,
2 is a plan view showing the structure of the grouting simultaneous injection steel pipe according to the first embodiment of the present invention,
Figure 3 is a plan view showing the structure of a grouting simultaneous injection steel pipe according to a second embodiment of the present invention,
Figure 4 is a plan view showing the structure of a grouting simultaneous injection steel pipe according to a third embodiment of the present invention,
5 is a plan view showing the structure of a grouting simultaneous injection steel pipe according to a fourth embodiment of the present invention,
Figure 6 is an enlarged view showing a partition of the grouting simultaneous injection steel pipe according to the present invention,
Figure 7 is a longitudinal sectional view showing the structure of the grouting simultaneous injection steel pipe according to the present invention,
8 is a construction state diagram showing a state in which the grouting simultaneous injection steel pipe is constructed on the ceiling of the tunnel according to the present invention,
9 is a construction state diagram showing a state in which the grouting simultaneous injection steel pipe is constructed on the slope according to the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is a plan view showing the structure of the grouting simultaneous injection steel pipe according to the first embodiment of the present invention, Figure 3 is a plan view showing the structure of a grouting simultaneous injection steel pipe according to a second embodiment of the present invention, Figure 4 Is a plan view showing the structure of the grouting simultaneous injection steel pipe according to the third embodiment of the present invention, Figure 5 is a plan view showing the structure of the grouting simultaneous injection steel pipe according to the fourth embodiment of the present invention, Figure 6 7 is an enlarged view illustrating a partition of a grouting co-injection steel pipe according to the present invention, and FIG. 7 is a longitudinal cross-sectional view illustrating a structure of the grouting co-injection steel pipe according to the present invention, and FIG. 8 is a grouting co-injection steel pipe according to the present invention. Figure 9 is a construction state diagram showing a state constructed on the ceiling of the tunnel, Figure 9 is a construction state diagram showing a state in which the grouting simultaneous injection steel pipe is constructed on the slope according to the present invention.

As shown in these figures, the grouting co-injection steel pipe according to the present invention is a grouting co-injection steel pipe that can be reinforced into the ground by intruding into the ground, so that the grouting is made, it is formed in a tubular shape and inserted into the ground A steel pipe body 100 formed to penetrate a plurality of grouting holes 110 and blowout holes 120 on an outer surface thereof; Between the outer surface of the steel pipe body 100 and the inner wall surface of the drilling hole spaced apart at regular intervals along the longitudinal direction of the steel pipe body 100 to surround the outer periphery of the blowout hole 120 to the outside of the steel pipe body 100 A plurality of outer packers 200 fixedly installed by the tightening band 210; A partition part 300 installed inside the steel pipe body 100 at predetermined intervals along the longitudinal direction of the steel pipe body 100 to partition an internal space; A first injection pipe 400 installed inside the steel pipe body 100 to allow grouting liquid to be injected into the outer packer 200; A plurality of second injection pipes (500) installed to pass through the partition portion (300) inside the steel pipe body (100) to allow grouting liquid to be injected into the partitioned inner space; Including, the partition 300 is fixed to the fixed plate 310 and the second injection pipe 500 is fixed to the right side of the ejection hole 120 spaced apart in the interior of the steel pipe body (100) The movable plate 330 is fixed to an outer surface and disposed on the left side of the ejection hole 120 and moved at regular intervals according to the movement of the second injection pipe 500, and to be in contact with the left side of the fixed plate 310. The first elastic member 320 is provided, the second elastic member 340 provided in contact with the right side of the movable plate 330, the first elastic member 320 and the second elastic member 340 The spacer 350 disposed between the first elastic member 320 and the second elastic member 340 to be spaced apart from each other, and the first elastic member disposed on both sides of the spacer 350. A plurality of support plates 360 for supporting the member 320 and the second elastic member 340, and located in the partitioned space of the steel pipe body 100 The group is provided in the outer surface of the second injection pipe (500) is configured to include an outer tube 510 to one end and the other end is in contact with the movable plate 330, it passes the pressing force.

The steel pipe body 100 is formed to have a predetermined length to intrude into the ground such as the ceiling or slope of the tunnel so that the ground is reinforced, thereby improving the structural stability of the structure such as tunnel or slope.

In order to further improve the structural stability of structures such as tunnels and slopes, the grouting liquid is filled into the inside of the steel pipe body 100 after the grouting liquid is filled, and the grouting liquid flows out of the ground to the inside of the ground. The ground and the steel pipe body 100 around the body 100 to be integrated, for this purpose, the side of the steel pipe body 100 is a passage through which the grouting liquid injected through the second inlet pipe 500 is discharged to the outside A plurality of grouting holes 110 are formed through.

The steel pipe body 100 is formed to have a circular cross section and the inner space is provided in the interior of the steel pipe body 100 so as to be able to flow out after the filling liquid is filled in the inside and is formed of a tubular member having a predetermined length have.

The length of the steel pipe body 100 may be determined according to the strength of the ground to which the steel pipe is to be penetrated and installed. If the ground strength is relatively weak, the steel pipe body 100 is formed to have a length of the steel pipe body 100 to penetrate deeply. It should be made, and in the case of relatively strong ground, it is preferable to form a length of the steel pipe body 100 to shorten the penetration depth so that the easy penetration construction is made.

In addition, the outer surface of the steel pipe body 100 is a passage through which the grouting liquid injected through the first injection pipe 400 is discharged to the outside of the steel pipe body 100 so as to fill the grouting liquid into the outer packer 200. The blowing hole 120 to be through is formed.

The outer packer 200 is spaced apart at regular intervals along the longitudinal direction of the steel pipe body 100 between the outer surface of the steel pipe body 100 and the inner wall surface of the drilling hole outer packer 200 to surround the periphery of the ejection hole 120 It is a some member installed in the outside.

The outer packer 200 is a geotextile formed of the same material as the nonwoven fabric, and when the grouting liquid is filled therein, the volume increases, and the outer surface of the steel pipe body 10 is closely filled while filling the space between the steel pipe body 100 and the hole. And close the gap between the inner wall surface of the drilling hole.

And, both ends of the outer packer 200 is fixed to the outer surface of the steel pipe body 100 by the tightening band 210 so that the grouting liquid injected into the inside of the outer packer 200 through both ends of the outer packer 200. Fastening bands 210 are wound around both ends of the outer packer 200 so as not to leak out.

In addition, a plurality of places on the outer surface of the steel pipe body 100 is provided with a separate stabilizer 220 is formed with a hook to secure the tightening band 210, the hook is inserted into the inside of the tightening band 210 It is effective to prevent the flow of the tightening band 210 by causing the tightening band 210 to be wound on the outer surface of the steel pipe body 100 to be in a state.

On the other hand, the compartment 300 is installed in the steel pipe body 100 in the longitudinal direction of the steel pipe body 100 spaced apart at regular intervals by partitioning the internal space through the second injection pipe 500, the steel pipe body 100 The pressure that the grouting liquid is injected into the inside of the inner space serves to act evenly in each compartment.

The partition 300 is the partition 300 is fixed to the fixed plate 310 is fixed to the right side of the blow hole 120 is spaced apart in the interior of the steel pipe body 100, the second injection The movable plate 330 is fixed to the outer surface of the pipe 500 and disposed on the left side of the jet hole 120 and moved at regular intervals according to the movement of the second injection pipe 500, and the left side of the fixed plate 310. A first elastic member 320 provided in contact with a surface, a second elastic member 340 provided in contact with a right surface of the movable plate 330, the first elastic member 320, and the second elastic member The spacer 340 is disposed between the first elastic member 320 and the second elastic member 340 to be spaced apart from each other, and the spacer 340 is disposed on both sides of the spacer 350. A plurality of support plates 360 for supporting the first elastic member 320 and the second elastic member 340, and the partitioned space of the steel pipe body 100 In the second is provided in the outer surface of the inlet tube 500 is configured with one end and the other end is in contact with the movable plate 330 includes an outer tube 510 that passes the pressing force.

The fixing plate 310 is formed in a disk shape having a predetermined thickness with a circular cross section identical to the cross section of the steel pipe body 100, and installed to be fixed to the hollow along the longitudinal direction of the steel pipe body 100. It serves to support one side of 320).

As shown in FIG. 2, the right circumferential surface of the fixing plate 310 is provided at a plurality of locations on the inner side of the right edge of the steel pipe body 100 so as to fix the fixing plate 310 to the internal space of the steel pipe body 100. Fixing nipples 311 to be fixed in contact with each other may be provided to protrude a predetermined interval along the radial direction of the steel pipe body (100).

On one side of the fixed nipple 311 provided to protrude inward from the inner surface of the steel pipe body 100, the fixed plate 310 is fixed nipple 311 by welding or the like in a state where the fixed plate 310 is seated. It can be fixed by.

As shown in FIG. 3, the inner side of the right edge of the steel pipe body 100 is press-pressed to bend the inner side of the steel pipe body 100 so that the fixing plate 310 may be fixed to the inner surface of the steel pipe body 100. It may be provided with a fixing protrusion 312 to be fixed by contacting one side of the fixing plate 310 by being protruded.

The movable plate 330 is formed in the same shape as the fixed plate 310 and is disposed at a distance spaced from the fixed plate 310 by a predetermined distance to press the first and second elastic members 320 and 340. Side surfaces of the first elastic member 320 and the second elastic member 340 are in close contact with the inner surface of the steel pipe body 100 serves to accurately partition the inner space of the steel pipe body 100 into a plurality of spaces.

The movable plate 330 is moved to the outer surface of the second injection pipe 500 so that the movable plate 330 moves to the fixed plate 310 to pressurize the first elastic member 320 and the second elastic member 340. It is fixed by the bonding, such as welding, by moving the second injection pipe 500 to move the plurality of movable plates 330 to the fixed plate 310, respectively, the first elastic member 320 and the second elastic member. 340 may be pressurized.

By pressing the first elastic member 320 and the second elastic member 340, the side surfaces of the first elastic member 320 and the second elastic member 340 are brought into close contact with the inner surface of the steel pipe body 100. When the grouting liquid is injected through the injection pipe 500, the grouting liquid is filled in the respective partitioned spaces so that the pressure at which the grouting liquid flows out to the outside of the steel pipe body 100 can be kept constant. Grouting can be achieved.

When the first elastic member 320 and the second elastic member 340 are joined by the movement of the movable plate 330, the elastic members are elastically deformed while the height thereof is lowered and the width thereof is expanded so that the inner surface of the steel pipe body 100 and the first elastic member ( 320 and the outer surfaces of the second elastic member 340 are in close contact with each other so that the grouting liquid is accurately filled in each of the partitioned spaces.

The spacer 350 is disposed between the first elastic member 320 and the second elastic member 340 so as to maintain a spaced distance between the first elastic member 320 and the second elastic member 340, and the steel pipe body. It is formed at a diameter relatively smaller than the diameter of 100 and is disposed at a position overlapping with the ejection hole 120.

This is because the first expansion member 320 and the second expansion member 340 to maintain the spaced apart intervals so that the injection hole 120 is not closed by the first expansion member 320 and the second expansion member 340. This is to ensure that the grouting liquid injected through the first injection hole 400 is continuously discharged to the outside of the steel pipe body 100 through the ejection hole 120.

The support plate 360 is disposed on both sides of the spacer 350 to support the first elastic member 320 and the second elastic member 340 to press the first elastic member 320 and the second elastic member 340. It plays a role in ensuring this is done correctly.

The movable plate 330 moves to the stationary plate 310 to move the movable plate 330 on the outer surface of the second injection pipe 500 to pressurize the first elastic member 320 and the second elastic member 340. An outer tube 510 is provided on the outer surface of the second injection pipe 500 between the plates 330 to transmit a pressing force, and the movable plates 330 are fixed by moving the second injection pipe 500, respectively. The plate 310 is moved to the side so that the first elastic member 320 and the second elastic member 340 can be pressed.

The first injection pipe 400 is installed inside the steel pipe body 100 and serves to inject the grouting liquid into the inside of the outer packer 200, and the outer packer 200 of the first inlet pipe 400. The first injection pipe 400 disposed in the compartment 300 so as to inject the grouting solution therein is a predetermined area is cut to form a separation space 410, the separation space 410 is a blowout hole ( It is preferably arranged to overlap with (120).

The first injection pipe 400 may form a space 410 to allow the injection of grouting liquid into the outer packer 200, the grouting liquid is external to the outer surface of the first injection pipe 400. The grouting liquid may be injected into the outer packer 200 by penetrating a separate outflow hole which may flow out.

The second injection pipe 500 is movable plate 330 is fixedly coupled to the outer surface to enable the movement of the movable plate 330 and the grouting liquid through the inner space through the through hole 520 of the steel pipe body 100 It is injected into the inside of the grout to play a role.

To this end, the outer surface of the second injection pipe 500 is formed to have different lengths so that the end portions are positioned in the respective inner spaces so that the grouting liquid can be injected into the inner spaces partitioned by the partition 300.

In addition, the grouting liquid may be uniformly filled in each partitioned inner space by allowing the grouting liquid to be discharged into the inner space by the plurality of second injection pipes 500 having respective ends disposed in the partitioned inner space. .

On the other hand, it is preferable that the inlet of the steel pipe body 100 exposed to the outside of the ground during construction is provided with a pressing means 600 that can accurately press the first elastic member 320 and the second elastic member 340. Do.

As shown in Figures 2 and 3, the pressing means 600 is fixedly coupled to the inlet of the steel pipe body 100 and the fixing member 610 is formed through the screw hole 611 is provided with a screw thread in the center, Compression bolt 620 for screwing to the screw hole 611 to move the second injection pipe 500 so that the movable plate 330 presses the first elastic member 320 and the second elastic member 340; A second injection pipe 500 is inserted between the first injection pipe 400 and the compression bolt 620, one end of which extends through the compression bolt 620 and the movable plate 330 is fixed to the other end thereof. One side of the outer surface is formed to be stepped, the first auxiliary injection pipe 630 and the plurality of second injection pipe 500, which is caught by the end of the compression bolt 620 is inserted into and extends through the fixing member 610 It is configured to include a plurality of second auxiliary injection pipe 640 to be.

The fixing member 610 is a member that is fixedly joined to the inlet of the steel pipe body 100 exposed to the outside of the ground during construction by welding or the like, and has a threaded hole 611 formed therein with a screw thread in the inner surface thereof. It is.

In addition, the periphery of the screw hole 611 is formed in the same number as the number of the second auxiliary injection pipe 640 to be installed through-hole 612 in which the second auxiliary injection pipe 640 can be inserted It is.

The compression bolt 620 is screwed into the screw hole 611 of the fixing member 610 to move the second injection pipe 500, the movable plate 330 is the first elastic member 320 and the second elastic member ( 340 serves to pressurize.

The central region of the compression bolt 620 is formed with a through hole through which the first auxiliary injection tube 630 passes so that the first auxiliary injection tube 630 extends to the outside. Hexagonal grooves are formed to recess the compression bolt 620 by inserting a tool such as a wrench.

The first auxiliary injection pipe 630 is provided between the first injection pipe 400 and the compression bolt 620, one end of which extends through the compression bolt 620, the other end of the movable plate 330 is fixed The injection tube 500 is inserted and one side of the outer surface is formed to be stepped so that the end of the compression bolt 620 is caught to enable pressurization.

Grouting liquid is injected into the second injection pipe 500 through the first auxiliary injection pipe 630 extending to the outside of the fixing member 610, the inner space formed at the longest distance among the partitioned internal space of the steel pipe body 100 Allow grout to be filled.

The plurality of second auxiliary injection pipes 640 are inserted into the plurality of second injection pipes 500 and extended through the fixing member 610, so that the grouting liquid is injected into the remaining second injection pipes 500 and the steel pipes. The grouting liquid is filled in the remaining inner space of the body 100.

A plurality of through holes 612 formed in the fixing member 610 to penetrate the second auxiliary injection pipe 640 is provided with a repellent material 650, respectively, in the compression bolt 620 behind the fixing member 610. The pressing member plate 660 is pressed toward the fixing member 610 to press the order member 650 is provided.

The grouting liquid filled in the inner space of the steel pipe body 100 is penetrated by pressing the plate 660 of the fixing member 610 by pressing the compression bolt 620 to press the plate surface of the fixing member 610. Through the ball 612 to prevent the outflow to the outside.

As shown in Figure 4 and 5, the pressing means 600 is fixed to the inlet of the steel pipe body 100, the fixing member 610 is formed through the through hole 613 in the center, and the through hole Inserted into the 613 and the second injection pipe 500 is moved to form a screw thread on the inner surface so as to press the first elastic member 320 and the second elastic member 340 by the movable plate 330 It is configured to include a tension bolt 670 is engaged with the screw thread of the second injection pipe 500 is screwed.

The pressing means 600 shown in FIGS. 2 and 3 pushes the second injection pipe 500 into the steel pipe body 100 to press the first elastic member 320 and the second elastic member 340. On the other hand, the pressing means 600 shown in Figures 4 and 5 pulls the second inlet pipe 500 to the outside of the steel pipe body 100 to the first elastic member 320 and the second elastic member 340 Pressurized.

To this end, a thread is formed on the outer surface of the end of the second injection pipe 500, and an end of the second injection pipe 500 having the screw thread is screwed with the thread formed on the inner surface of the tension bolt 670 so that the second injection pipe ( To pull the 500 to the outside of the steel pipe body (100).

The pressing means 600 shown in FIGS. 2 and 3 pushes the second injection pipe 500 into the steel pipe body 100 to press the first elastic member 320 and the second elastic member 340. On the contrary, the pressing means 600 shown in FIGS. 4 and 5 pulls the second injection pipe 500 to the outside of the steel pipe body 100 to draw the first elastic member 320 and the second elastic member. Since it is a method of pressing the 340, there is no need to fix the fixing member 410 to the front end of the steel pipe body 100 has the effect that it is easy to manufacture.

4 and 5, when the second injection pipe 500 is pulled, the fixing plate 310 and the first expansion member 320 and the second expansion member 340 may be compressed. The position of the movable plate 330 is changed.

That is, the fixing plate 310 is located at the left edge, the left circumferential surface of the fixing plate 310 is fixed to the inner surface of the steel pipe body 100, protruding at regular intervals along the radial direction of the steel pipe body 100 The fixing nipple 311 may be fixedly arranged.

In addition, the fixing plate 310 is pressed to protrude inwardly so that the side surface of the steel pipe body 100 is bent to the inner surface of the steel pipe body 100 so as to fix the fixing plate 310 to the inner surface of the steel pipe body 100. Fixing protrusions 312 may be provided to allow the right circumferential surface thereof to be contacted and fixed.

The tension bolt 670 is inserted into the through hole 613 formed in the fixing member 610 so as to be freely rotatable. By the rotation of the tension bolt 670, the second injection pipe 500 is pulled out of the steel pipe body 100 so that the first elastic member 320 and the second elastic member 340 is joined to the steel pipe body 100 Allows the compartment to be partitioned.

On the other hand, when the steel pipe body 100 is installed on the slope, a screw thread is formed on the outer surface of the inlet side of the steel pipe body 100, and the screw thread is screwed to the screw thread so that the slope and the plate contact each other. ) Is provided.

In addition, the outer surface is formed in a cylindrical shape and a reinforcement member 800 having a predetermined length is installed in the central area of the outer surface of the second injection pipe 500 between the partition part 300 and the partition part 300. ) To prevent deflection or bending due to pressurized force.

Grouting simultaneous injection steel pipe according to the present invention having the configuration as described above is the first elastic member 320 and the first by using the second injection pipe 500 in the state intruded into the ground, such as the ceiling of the slope or tunnel The first elastic member 340 is disposed at a relatively long distance from the first elastic member 320 and the second elastic member 340 disposed at a position proximate to the inlet of the second injection pipe 500 at the time of pressing. By making the pressing force applied to the member 320 and the second elastic member 340 to be uniform, the sides of the first elastic member 320 and the second elastic member 340 are brought into close contact with the inner surface of the steel pipe body 100 to be hollow. 110 can be correctly partitioned.

In addition, the grouting liquid is filled in the outer packer 200 through the first inlet pipe 400 so that the volume of the outer packer 200 is increased to tightly seal the space between the steel pipe body 100 and the drilling hole. At the same time, after the grouting liquid is filled in the internal space of each steel pipe body 100 partitioned at a uniform pressure, the steel pipe is discharged into the ground at a uniform pressure through the grouting hole 101 formed in the steel pipe body 100. The grouting construction can be accurately made on the inside and outside of the body 100 can be made to reinforce the ground.

Since the above has just been described with respect to some of the preferred embodiments that can be implemented by the present invention, as is well known the scope of the present invention should not be construed as limited to the above embodiments, the present invention described above It will be said that both the technical idea and the technical idea which together with the base are included in the scope of the present invention.

100: steel pipe body 110: grouting ball
120: blowout hole 200: external packer
210: tightening band 300: partition
310: fixed plate 320: the first elastic member
330: movable plate 340: second elastic member
350: spacer 360: support plate
510: outer tube 520: through hole
400: first injection tube 410: space
500: second injection pipe 600: pressurizing means
610: fixing member 620: compression bolt
630: first auxiliary injection tube 640: second auxiliary injection tube
650: jaejae 660: jaejae fastening
670: tensioning bolt

Claims (17)

As a grouting co-injection steel pipe that can be reinforced by intruding into the ground to allow grouting,
A steel pipe body 100 formed in a tubular shape and inserted into the ground and formed to penetrate a plurality of grouting holes 110 and blowout holes 120 on an outer surface thereof;
Between the outer surface of the steel pipe body 100 and the inner wall surface of the drilling hole spaced apart at regular intervals along the longitudinal direction of the steel pipe body 100 to surround the outer periphery of the blowout hole 120 to the outside of the steel pipe body 100 A plurality of external packers 200 fixedly installed by the tightening band 210;
A partition part 300 installed inside the steel pipe body 100 at predetermined intervals along the longitudinal direction of the steel pipe body 100 to partition an internal space;
A first injection pipe 400 installed inside the steel pipe body 100 to allow grouting liquid to be injected into the outer packer 200;
A plurality of second injection pipes (500) installed to pass through the partition portion (300) inside the steel pipe body (100) such that grouting liquid is injected into the partitioned inner space; Including,
The partition 300 is fixed to the fixed plate 310 and the second injection pipe 500, the outer surface is fixed to the right side of the ejection hole 120 spaced apart a predetermined interval inside the steel pipe body (100) And the movable plate 330 which is disposed on the left side of the ejection hole 120 and is moved at a predetermined interval according to the movement of the second injection pipe 500, and is provided to be in contact with the left side of the fixed plate 310. The first elastic member 320, the second elastic member 340 provided to be in contact with the right surface of the movable plate 330, and the first elastic member 320 and the second elastic member 340 are spaced apart from each other. A spacer 350 disposed between the first elastic member 320 and the second elastic member 340 so as to maintain a gap, and disposed on both sides of the spacer 350 so as to maintain the gap; ) And a plurality of support plates 360 for supporting the second elastic member 340, and the second column located in a partitioned space of the steel pipe body 100. Is provided on the outer surface of the tube 500, one end and the other end is in contact with the movable plate 330 includes an outer tube 510 that passes the pressing force,
The first injection pipe 400 disposed in the compartment 300 so that the grouting liquid may be injected into the outer packer 200 from the first injection pipe 400 is cut in a predetermined area. Spaced space (410) is formed, the spaced space 410 is grouting simultaneous injection steel pipe, characterized in that disposed to overlap with the blow hole (120). delete The method of claim 1,
A plurality of the second injection pipe 500 is formed with a different length so that the end is located in each of the inner space so that the grouting liquid can be injected into the respective inner space partitioned by the partition 300 Grouting simultaneous injection steel pipe. The method of claim 1,
The outer packer 200 is formed of a geotextile such as a nonwoven fabric, both ends of the outer packer 200 is fixed to the outer surface of the steel pipe body 100 by a tightening band 210 of the outer packer 200 Grouting simultaneous injection steel pipe, characterized in that the tightening band 210 is wound on both ends. The method of claim 4, wherein
Grouting simultaneous injection steel pipe, characterized in that a separate stabilizer 220 is provided with a hook is fixed to a plurality of places on the outer surface of the steel pipe body 100 is fixed to the tightening band (210). The method of claim 1,
The spacer 350 is formed with a diameter relatively smaller than the diameter of the steel pipe body 100 is a grouting simultaneous injection steel pipe, characterized in that disposed in a position overlapping with the ejection hole (120). The method of claim 6,
The right circumferential surface of the fixing plate 310 is fixed to the inner surface of the right edge of the steel pipe body 100 and fixedly disposed by a fixed nipple 311 protruding at regular intervals along the radial direction of the steel pipe body 100. Grouting simultaneous injection steel pipe, characterized in that. The method of claim 6,
The inner side of the right edge of the steel pipe body 100 to be fixed to the inner surface of the steel pipe body 100 by pressing the compression plate so that the side of the steel pipe body 100 is bent to protrude inward Grouting co-injection steel pipe, characterized in that provided with a fixing protrusion (312) to be fixed in contact with the right peripheral surface of the fixing plate (310). The method according to claim 7 or 8,
At the inlet of the steel pipe body 100, the second injection pipe 500 may be pushed into the steel pipe body 100 to pressurize the first elastic member 320 and the second elastic member 340. Grouting simultaneous injection steel pipe, characterized in that the pressing means 600 is provided. The method of claim 9,
The pressing means 600 is fixedly coupled to the inlet of the steel pipe body 100 and the screw member 610 is formed through the screw hole 611 is provided with a screw thread in the center, and screwed into the screw hole 611 Compression bolt 620 and the first injection to move the second injection pipe 500 so that the movable plate 330 presses the first elastic member 320 and the second elastic member 340 The second injection pipe 500 is inserted between the pipe 400 and the compression bolt 620, one end of which extends through the compression bolt 620 and the movable plate 330 is fixed to the other end thereof. One side of the outer surface is formed to be stepped, the first auxiliary injection pipe 630 and the plurality of second injection pipe 500 is inserted into the end of the compression bolt 620 is inserted into the fixing member 610 Grouting simultaneous injection steel pipe, characterized in that it comprises a plurality of second auxiliary injection pipe 640 extending through. The method of claim 10,
A plurality of through holes formed in the fixing member 610 to pass through the second auxiliary injection pipe 640 is provided with a repellent material 650, respectively, and the compression bolt 620 behind the fixing member 610. Grouting co-injection steel pipe, characterized in that the pressing member plate 660 is pressed by the fixing member 610 to press the order member 650. The method of claim 6,
The left circumferential surface of the fixing plate 310 is fixed to the inner surface of the left edge of the steel pipe body 100 and fixedly disposed by the fixing nipples 311 protruding at regular intervals along the radial direction of the steel pipe body 100. Grouting simultaneous injection steel pipe characterized by. The method of claim 6,
The left side edge of the steel pipe body 100 is press-compressed to protrude inward to the inner surface of the left edge of the steel pipe body 100 so as to fix the fixing plate 310 to the inner surface of the steel pipe body 100 Grouting co-injection steel pipe, characterized in that provided with a fixing projection (312) to be fixed in contact with the left peripheral surface of the fixing plate (310). The method according to claim 12 or 13,
At the inlet of the steel pipe body 100, the second inlet pipe 500 may be drawn out of the steel pipe body 100 to pressurize the first elastic member 320 and the second elastic member 340. Grouting simultaneous injection steel pipe, characterized in that the pressing means 600 is provided. The method of claim 14,
The pressing means 600 is fixedly coupled to the inlet of the steel pipe body 100, the fixing member 610 is formed through the through hole 613 in the center, and inserted into the through hole 613, the second injection A thread is formed on the inner surface of the movable plate 330 to press the first elastic member 320 and the second elastic member 340 by moving the pipe 500 so that the thread of the second injection pipe 500 is moved. Grouting simultaneous injection steel pipe, characterized in that it comprises a tension bolt 670 is engaged with the screw. The method of claim 1,
When the steel pipe body 100 is installed on a slope, a screw thread is formed on an outer surface of the inlet side of the steel pipe body 100, and a separate support plate 700 is screwed to the screw thread to contact the slope and the plate surface. Grouting simultaneous injection steel pipe, characterized in that provided. The method of claim 1,
Grouting, characterized in that the outer surface is formed in a cylindrical shape and the reinforcement member 800 having a predetermined length is installed in the central region of the outer surface of the second injection pipe 500 between the partition portion 300 and the partition portion 300. Injection steel pipe.

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