KR20080018666A - Length control type steel pipe strut - Google Patents

Abstract

A reinforcement assembly for a steel-pipe in an underground structure is provided to minimize the distortion of the steel-pipe and offset the external forces exerted onto the steel-pipe, by inserting first and second reinforcement members and length adjusting unit inside the steel-pipe to support stably the steel-pipe. A reinforcement assembly for a steel-pipe(2) in an underground structure comprises a first reinforcement member(100), a length adjusting unit(200), and a second reinforcement member(300). The first reinforcement member is mounted inside an upper side of the steel-pipe press-fitted in a strut to build an underground structure, having a curvature similar to the inner curvature of the steel-pipe to support the steel-pipe against external forces exerted thereon. The length adjusting unit has opposite ends supported by the lower ends of the first reinforcement member, wherein the supported opposite ends are length-adjustable in horizontal direction. The second reinforcement member is mounted between the first reinforcement member and the length adjusting unit, having opposite ends that are fixed onto the first reinforcement member. The first and second reinforcement members are made one of L-steel or C-steel.

Description

Reinforcement assembly for underground structure steel pipe {Length Control Type Steel Pipe Strut}

1 is a view showing a reinforcing assembly for an underground structure steel pipe according to the present invention.

Figure 2 shows another embodiment of the reinforcing assembly for underground structure steel pipe according to the present invention.

Figure 3a to 3d is an installation state of the reinforcement assembly for underground structure steel pipe according to the present invention.

Figure 4 is an operating state of the reinforcement assembly for underground structure steel pipe according to the present invention.

Figure 5 is a view showing a state actually installed reinforcement assembly for steel pipe underground structure according to the present invention.

Figure 6 is a view showing another embodiment actually installed reinforcement assembly for steel pipe underground structure according to the present invention.

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

2: steel pipe 100: first reinforcing member

200: length adjusting unit 210, 220: first and second adjusting unit

230: adjusting member 300: second reinforcing member

400: support socket

The present invention is installed inside the steel pipe that is press-fitted into the ground to build a sewage culvert, underground roadway or tunnel structure, etc. to prevent the deformation of the steel pipe due to various external forces acting on the steel pipe reinforcement assembly for the underground pipe It is about.

In general, there is a structure construction method by the attachment and non-attachment in a way to build the structure in the ground. If it is necessary to install sewage rocks, underground roadways, tunnel structures, etc. across existing roads and railroads, it is difficult to transfer obstacles due to construction, or it is impossible to fix them due to obstacles and obstacles in vehicle communication. In the non-attached structure construction method, forward and reach bases in the concept of a work tool are essential to both sides of the crossing road or obstacle. Representative non-adhesive underground structure construction methods include ship pull artificial engineering and steel pipe loop construction.

In the above-mentioned case, the method of artificial pullover is to press-through the steel supporting temporary steel pipe of about 600mm in advance from the forward base to the reach base, and then cross the ground from the reach of the opposite side of the ship to be towed. It is a construction method that removes internal soil in the enclosure by towing a plurality of PC steel wires with the manufactured enclosure, and installs structures in the ground by repeating such towing and excavation work.

However, the above method may cause the settlement of the road or obstacles on the upper part of the enclosure by the propulsion load of the enclosure or the gap between the propulsion enclosure and the temporary steel pipe installed in the underground. Since the installation of the enclosure is large, the traction is limited and the size of the workshop is large, so there is a problem that it is difficult to work in a deep underground space.

In addition, if there is insufficient treatment of the connection between the enclosures, there is a possibility that water leakage, etc., due to the drawbacks of the hull prosthesis method, the steel pipe loop method has been applied in recent years as a non-removable underground structure construction method.

Conventional steel pipe loop method to form a steel pipe loop by sequentially pressing and connecting the steel pipe in the ground to form the structure, to remove all the internal soil inside the steel pipe loop and to build the structure.

The upper or side loads generated during excavation work are supported by temporary materials such as lateral support beams and temporary columns. Briefly describing the construction process of the steel pipe loop, considering the size of the sphere to be constructed at the forward base, horizontally press-fit the temporary steel pipe to the outer surface of the sphere and cast concrete in the steel pipe to form a steel pipe loop.

From the forward base, the inside of the steel pipe loop will be excavated, and the excavation is carried out step by step from the upper part of the steel pipe loop in consideration of the safety of the upper load and the side pressure.

In order to support a plurality of steel pipes in the excavated state as described above, a separate beam was installed on the lower side or the side of the steel pipe to be structurally supported and fixed.

However, the roles of the beams were merely supporting the steel pipes, not supporting them. As a result, the earthquake load or the misalignment in the horizontal or vertical direction is caused by the earth pressure applied from the upper side or the side of the steel pipe installed in the horizontal or vertical direction.

The problem is that the steel pipe loop is structurally unstable as well as the construction cost is increased due to the long working air.

The present invention has been made to solve the above problems, to prevent the deformation of various external forces acting on the steel pipe pressed into the ground to build the underground structure, and if necessary, the deformation generated in the steel pipe is recoverable underground It is an object to provide a reinforcing assembly for structural steel pipes.

In order to achieve the above object, the steel pipe reinforcement assembly according to the present invention is installed on the inner upper surface of the steel pipe pressurized into the ground to build the underground structure, and the inner surface of the steel pipe to be able to support the external force acting on the steel pipe. A first reinforcing member having a curvature similar to the curvature; And both ends are supported on both ends of the lower end of the first reinforcing member, and both ends supported length is configured to include a variable length in the horizontal direction.

Between the first reinforcing member and the length adjuster is configured so that both ends are provided with a second reinforcing member fixed on the first reinforcing member.

The first and second reinforcing members are configured to install L-shaped steel or c-shaped steel.

The length adjusting part has one end portion supported at one lower end of the first reinforcing member and extends to the inner center of the steel pipe, and has a rod-shaped first adjusting portion formed with a screw line on the other end portion, and one end portion at the other lower end of the first reinforcing member. A rod-shaped second adjusting part which is supported and extends to an inner center of the steel pipe and has a screw line formed on the other end thereof, and is connected to the other end of the first adjusting part and the second adjusting part to be installed along the direction of rotation. The adjusting unit is configured to include a control unit provided to make the length adjustment in the horizontal direction.

The first reinforcing member is configured to be provided with a support socket fixed to the steel pipe in a state in which one end of each of the first and second adjusting portions is inserted inward.

The second reinforcing member is configured to be installed at a position 1/2 of the vertical distance between the first reinforcing member and the length adjusting portion.

The first reinforcing member is configured to be spaced apart from the upper surface of the inner steel pipe.

An embodiment of the reinforcing assembly for underground structure steel pipe according to the present invention as described above will be described with reference to the drawings.

1 is a view showing a reinforcing assembly for underground structure steel pipe according to the present invention, Figure 2 is a view showing another embodiment of the reinforcing assembly for underground structure steel pipe according to the present invention, Figures 3a to 3d 4 is an installation state diagram of the reinforcing assembly for underground structure steel pipe according to the present invention, and FIG. 4 is an operation state diagram of the reinforcing assembly for underground structure steel pipe according to the present invention, and FIG. 5 illustrates a state in which the reinforcing assembly for underground structure steel pipe according to the present invention is actually installed. 6 is a view showing another embodiment in which the reinforcing assembly for underground structure steel pipe according to the present invention is actually installed.

Referring to the accompanying Figure 1, it is installed on the inner upper surface of the steel pipe (2) pressed into the ground to build an underground structure, such as sewage culvert, underground driveway or tunnel structure, and supports against the external force acting on the steel pipe (2) A first reinforcing member 100 having a curvature similar to that of the inner surface of the steel pipe 2 so as to be possible; And a length adjusting part 200 having both ends supported at both lower ends of the first reinforcing member 100 and having both ends supported to vary in length in the horizontal direction. The steel pipe 2 uses a large diameter steel pipe of 1200mm or more.

Between the first reinforcing member 100 and the length adjuster 200 is configured so that both ends are provided with a second reinforcing member 300 is fixed on the first reinforcing member 100.

The first and second reinforcing members 100 and 300 are configured such that any one of the L-shaped steel or the c-shaped steel is installed. The thickness of the first and second reinforcing members 100 and 300 may be variously changed by calculating a load acting on the steel pipe 2 and is welded on the inner surface of the steel pipe 2.

The length adjusting part 200 has one end portion supported on one side lower end of the first reinforcing member 100 extending to the inner center of the steel pipe and having a rod-shaped first adjusting part 210 having a screw line formed on the other end thereof. One end portion of the first reinforcing member 100 is supported at one end of the first reinforcing member 100 and extends to the inner center of the steel pipe 2, and has a rod-shaped second adjusting portion 220 having a thread on the other end thereof, and the first adjusting portion ( 210 and the second control unit 220 is connected to the other end of the control unit 230 is provided so that the length adjustment in the horizontal direction is the first, second control unit (210, 220) in accordance with the rotation direction It is composed. The adjusting port 230 is formed on the inner circumferential surface to be engaged with the screw thread formed in the first and second adjusting parts 210 and 220 and is coupled to the first and second adjusting parts 210 and 220.

The first reinforcing member 100 is configured to be provided with support sockets 400 and 400 'fixed to the steel pipe 2 in the state in which one end of the first and second adjusting portions 210 and 220 are inserted inward. One side of the support socket (400, 400 ') and the first plate (410, 410') having a curvature similar to the curvature of the first reinforcing member 100 to be in close contact with the outer surface of the first reinforcing member 100 and weldable The insertion holes 420 and 420 'are formed integrally with the first plates 410 and 410' so that one end of the first and second adjusting parts 210 and 220 is inserted.

The second reinforcing member 300 is configured to be installed at a position 1/2 of the vertical distance where the first reinforcing member 100 and the length adjusting unit 200 is located. The reason why the first reinforcing member 100 and the length adjusting part 200 are installed at a position 1/2 of the vertical distance as described above is that deformation of the steel pipe 2 due to external force applied from the upper side of the steel pipe 2. This is because it corresponds to a position to prevent and stably support.

Referring to FIG. 2, the configuration according to another embodiment of the reinforcing assembly for underground structure steel pipe according to the present invention may be provided such that the first reinforcing members 100 are spaced apart from both sides of the inner surface of the steel pipe 2, respectively. Do.

In addition, the second reinforcing member 300 is installed at both lower ends of the first reinforcing member 100, the length adjustment portion 200 of the vertical distance between the first reinforcing member 100 and the second reinforcing member 300. It is also possible to be configured to be installed at a 1/2 position.

An embodiment of a reinforcing assembly for an underground structure steel pipe according to the present invention configured as described above will be described with reference to the drawings.

Referring to FIG. 3A, the reinforcing assembly for underground steel pipes according to the present invention is installed inside the steel pipe 2 that is press-fitted when constructing sewage culverts, underground roadways, or tunnel structures. The propulsion base is installed to install the steel pipe 2 in the ground, and the process of inserting the steel pipe 2 into the ground will be omitted, and the steel pipe 2 will be described as being completely inserted into the ground.

As shown in FIG. 3A, after press-fitting the steel pipe 2 into a place for building a sewage culvert, an underground roadway or a tunnel structure, the worker enters the inside of the steel pipe 2 to connect the first reinforcing member 100 to the steel pipe 2. Fix it on the inner upper surface of the product.

The first reinforcing member 100 is installed on the upper side of the steel pipe 2 because deformation may occur toward the inside of the steel pipe 2 due to the pressure caused by grouting with the load due to earth pressure.

Referring to FIG. 3B, both ends of the second reinforcement member 300 are installed in the first reinforcement member 100 at the point where the installation of the first reinforcement member 100 is completed. Both ends of the second reinforcement member 300 are installed on the inner surface of the first reinforcement member 100.

Referring to FIG. 3C, after the installation of the second reinforcing member 300 (see FIG. 3B) is completed, the operator supports the first and second adjusting units 210 and 220 (see FIG. 3B) of the length adjusting unit 200. It is positioned inward of the insertion hole 420 of the socket 400. The support socket 400 is pre-installed on the first reinforcing member 100 on which the length adjusting part 200 is to be installed after the second reinforcing member 300 is installed.

Referring to FIG. 3D, when the operator rotates the adjusting knob 230 provided in the length adjusting unit 200 in the direction of the arrow, the adjusting screw and the first and second adjusting threads formed on the inner circumferential surface of the adjusting slot 230 are adjusted. As the threads formed on the other ends of the parts 210 and 220 are engaged, the first and second adjusting parts 210 and 220 are moved in the direction of the arrow.

As the operator continuously rotates the adjusting mechanism 230, the other ends of the first and second adjusting portions 210 and 220 are completely inserted into the insertion hole 420 of the support socket 400.

Referring to FIG. 4, the upper side of the steel pipe 2 is stably supported by the first reinforcing member 100 against various external forces applied to the steel pipe 2 as shown by arrows in the drawing. The external force acting on the outside of 2) is stably supported by the first and second adjusting units 210 and 220 provided in the second reinforcing member 300 and the length adjusting unit 200 to be applied to the steel pipe 2. Offset to external forces or deformation of the steel pipe (2) is minimized.

Referring to FIG. 5, the attached FIG. 5 shows the first and second reinforcing members 100 and 300 and the length adjusting part 200 according to the present invention in a state where the steel pipe 2 is press-fitted into the soil layer in the actual construction site. Is a view showing a state in which is installed.

As shown in the figure, the steel pipe is installed inside the plurality of steel pipes 2 installed in the ground and made of support reinforcement for the external force 2 applied to the steel pipe 2 even when the lower portion of the steel pipe 2 is cut. (2) It can be used to minimize the deformation of itself.

6 is a view showing another embodiment in which the reinforcing assembly for the underground structure steel pipe according to the present invention is actually installed, the embodiment of the accompanying FIG. 6 shows a state in which the ground is a rock layer. Here, the rock layer means a strata composed of soft rock, ordinary rock or hard rock. The rock layer is provided with lock bolts (not shown) on both left and right walls to structurally reinforce the rock layer and include a length adjusting part 200 on the inner upper surface of the steel pipe 2 as shown in the drawing. 2, reinforcing members 100 and 300 may be provided.

On the other hand, the present invention can be variously modified by those skilled in the art without departing from the gist of the invention.

As described above, the steel pipe reinforcement assembly according to the present invention is installed inside the steel pipe that is press-installed when constructing sewage culverts, underground roadways or tunnel structures, etc. of steel pipes by various external forces acting on the steel pipe. There is an effect that can minimize deformation and stress deformation occurring in the steel pipe.

In addition, by varying the thickness of the first and second reinforcing members according to the conditions of the construction site can effectively cope with the external force acting on the steel pipe, even if the deformation occurs in the steel pipe has an effect that can be covered by the length adjuster.

In addition, there is an effect that can be easily removable at the length of the other adjustment site as necessary to recycle.

Claims (7)

A first reinforcing member installed on an inner upper surface of the steel pipe pressurized into the ground to build an underground structure, the first reinforcing member having a curvature similar to the curvature of the inner surface of the steel pipe to support the external force acting on the steel pipe; And Both ends are supported at both ends of the lower end of the first reinforcing member and the reinforcement assembly for underground structure steel pipes, characterized in that it comprises a length adjusting portion that is supported both ends of the variable length in the horizontal direction. The method of claim 1, The reinforcing assembly for underground structure steel pipes, characterized in that between the first reinforcing member and the length adjusting portion is provided with a second reinforcing member is fixed on both ends of the first reinforcing member. The method of claim 1, The first and second reinforcing members are reinforced structures for underground structure steel pipes, characterized in that using any one of L-shaped or c-shaped steel. The method of claim 1, The length adjusting part has one end portion supported on one side lower end of the first reinforcing member and extends to the inner center of the steel pipe, and has a rod-shaped first adjusting portion having a screw line formed on the other end portion, and one end portion supported on the other lower end of the first reinforcing member. And a rod-shaped second adjusting portion extending from the inner center of the steel pipe and having a threaded line formed on the other end thereof, connected to the other ends of the first adjusting portion and the second adjusting portion, and the first and second adjusting portions according to the rotation direction. Reinforcement assembly for underground structure steel pipe, characterized in that it comprises a control device provided to be made to adjust the length in the horizontal direction. The method according to claim 1 or 4, The first reinforcing member reinforcement assembly for underground structure steel pipes, characterized in that the support socket which is fixed to the steel pipe in the state in which one end of each of the first and second adjustment portion is inserted inward. The method of claim 1, And the second reinforcing member is installed at a position 1/2 of the vertical distance at which the first reinforcing member and the length adjusting part are positioned. The method of claim 1, The first reinforcing member is a reinforcing assembly for underground structure steel pipes, characterized in that spaced apart on the inner surface of the steel pipes.

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