KR20040069295A - Direction adjusting device for pipe-jacking - Google Patents

Abstract

PURPOSE: A direction control device for inserting a steel pipe is provided to control the advancing direction of a steel pipe exactly when inserting a steel pipe. CONSTITUTION: In the direction control device for inserting a steel pipe, an arched steel plate(20) is installed into an arched case(110) installed to an internal wall of a guide pipe(10) to be projected forward, the arched case(110) is provided with a fixed bracket(111), the fixed bracket(111) is provided with many fixing holes(111a), a fixing screw(113) is interposed to the fixing hole(111a) to be fixed to the internal wall of the guide pipe(10), the rear end of a hydraulic cylinder(120) is fixed to an internal wall of the rear end from the arched case(110), a piston rod(121) is installed in the hydraulic cylinder(120) to reciprocate toward the front of the hydraulic cylinder(120), the arched steel plate(20) is fixed to the end of the piston rod(121) corresponding to a portion of the circumference of the guide pipe(10), and a through hole(117) is formed on the front of the arched case(110) to interpose the arched steel plate(20).

Description

Direction Adjustment Device for Steel Pipe Pressing {DIRECTION ADJUSTING DEVICE FOR PIPE-JACKING}

The present invention relates to a steel pipe pressurizing direction adjusting device, and more particularly, to a steel pipe pressurizing direction adjusting device which is installed in the leading steel pipe to adjust the direction of movement of the steel pipe when the steel pipe is pushed in.

In general, the steel pipe propulsion press method involves digging a tunnel slightly longer than the length of the unit steel pipe in the ground at the beginning of the point where the pipe is to be buried, and then laying the steel pipe in the tunnel so that the tip of the steel pipe is directed toward the side wall of the tunnel. By pressing the rear end of the steel pipe forward by using the hydraulic jack in the state, press the steel pipe into the ground, discharge the earth and sand inside the steel pipe by manpower, and then connect the other steel pipe to the rear end of the preceding steel pipe and press the steel pipe. It is a non-adhesive excavation method constructed by.

Water and sewage pipes, gas pipes, communication wire pipes, power wire pipes, etc. are designed to be inclined or horizontally at a predetermined angle for each purpose, with a three-dimensional path defined from a source to a user.

In the process of indenting the steel pipe along a predetermined three-dimensional path, the steel pipe is twisted up and down or left and right in the predetermined three-dimensional path according to the change of soil soil.

In order to prevent the steel pipe from being twisted up or down or left and right in a predetermined three-dimensional path, as shown in FIGS. 4 and 5, it corresponds to a portion of the circumference of the leading steel pipe 10 as a direction adjustment device for steel pipe indentation. The arc-shaped iron plate 20 was simply fixed by welding to protrude forward to the front end inner wall of the lead steel pipe 10.

In FIG. 4, since the arc-shaped iron plate 20 is installed to be welded to the lower portion of the lead steel pipe 10 to protrude forward, the arc-shaped iron plate 20 protruding from the lower portion is upwardly subjected to earth pressure during press-fitting of the steel pipe 10. ) Is adjusted upward. In addition, in FIG. 5, since the arc-shaped iron plate 20 is installed to protrude forward by welding the upper portion of the lead steel pipe 10, the arc-shaped iron plate 20 protruding from the upper portion is pressurized downward when the steel pipe is pressed into the lead steel pipe. (10) is adjusted downward.

However, in the conventional steel pipe pressurization direction adjusting device, in order to weld the arc-shaped iron plate 20 to the tip of the lead steel pipe 10 to excavate the front of the lead steel pipe 10 to form a space 30, so When the space 30 is formed in front of the steel pipe 10, cross-section structures such as roads or rivers in the upper portion of the space 30 are settled or deformed according to the soil's soil, and sometimes even until collapse, to industrial accidents. There is a problem that comes up.

In addition, conventionally, in order to weld the arc-shaped iron plate 20 during operation, the front of the lead steel pipe 10 is excavated to form a space 30, and after the direction of the steel pipe is adjusted, the arc-shaped iron plate 20 is In order to remove the welded portion, the front of the lead steel pipe 10 must be excavated again to form the space 30, which delays the construction period and increases the construction cost.

The present invention is to solve the above-mentioned problems, the arc-shaped iron plate is installed on the inner side of the leading steel pipe of the leading steel pipe, the arc-shaped steel plate is provided to provide a steel pipe indentation direction adjustment device is selectively installed to protrude forward of the leading steel pipe. Its purpose is to.

Figure 1a is a perspective view of a direction adjustment device for steel pipe injection in accordance with an embodiment of the present invention,

1B is a cross-sectional view taken along the line 1b-1b of FIG. 1A;

1C is a cross-sectional view along the line 1c-1c of FIG. 1A;

2 is a cross-sectional view showing that the steel pipe pressurization direction adjusting apparatus according to an embodiment of the present invention is installed in the leading steel pipe, showing a state of use in the upward adjustment of the leading steel pipe,

3 is a cross-sectional view showing that the steel pipe pressurization direction adjusting apparatus according to an embodiment of the present invention is installed in the leading steel pipe, showing a state of use in the downward adjustment of the leading steel pipe,

4 is a cross-sectional view showing a conventional steel pipe pressurization direction adjusting device is installed on the upper portion of the lead steel pipe, showing a state of use in the upward adjustment of the lead steel pipe, and

FIG. 5 is a cross-sectional view illustrating a conventional steel pipe pressurization direction adjusting device installed at a lower portion of the lead steel pipe, and illustrates a state of use of the lead steel pipe in the downward adjustment. FIG.

In order to achieve the above object, in the steel pipe pressurization direction adjusting apparatus according to the present invention, an arc-shaped iron plate is installed in the arc-shaped case installed on the tip inner side wall of the lead steel pipe to selectively protrude forward of the lead steel pipe. The case has a flat shape corresponding to a portion of the circumference of the lead steel pipe, the central portion of the side facing the lead steel pipe is opened, and fixing brackets are formed at both edges thereof, and a plurality of fixing holes are formed in the fixing bracket. A fixing screw is inserted into the ball to be fixed to the inner wall of the front end of the lead steel pipe, and the rear end of the hydraulic cylinder is fixed to the inner wall of the rear end of the arc-shaped case, and the piston rod reciprocates in the hydraulic cylinder toward the front end of the hydraulic cylinder. Circumferentially of the lead steel pipe at the end of the piston rod, An arc-shaped iron plate corresponding to a part of the arc-shaped steel plate is fixed, and an arc-shaped through hole corresponding to the arc-shaped iron plate is formed at the tip of the arc-shaped case so that the arc-shaped iron plate is inserted.

Hereinafter, with reference to the accompanying drawings an embodiment of a steel pipe pressurization direction adjusting apparatus according to the present invention.

Figure 1 shows a steel pipe pressurization direction adjustment apparatus according to an embodiment of the present invention. In the present embodiment, the same reference numerals are used for the same components as the prior art.

As shown in FIG. 1A, in the steel pipe pressurization direction adjusting device according to the present embodiment, the arc-shaped steel plate 20 is provided in the arc-shaped case 110 installed on the tip inner side wall of the lead steel pipe 10. It is selectively installed to protrude forward.

As shown in detail in FIGS. 1B and 1C, the arc-shaped case 110 has a flat shape corresponding to a portion of the circumference of the lead steel pipe 10, and the central portion of the side facing the lead steel pipe 10 is opened and Fixing brackets 111 are formed at both edges. A plurality of fixing holes 111a are formed in the fixing bracket 111, and a fixing screw 113 is inserted into the fixing holes 111a to be fixed to the inner wall of the tip of the lead steel pipe 10.

In the arc-shaped case 110, the rear end of the hydraulic cylinder 120 is fixed to the inner wall of the rear end by welding, and the piston rod 121 in the hydraulic cylinder 120 is capable of reciprocating toward the front end of the hydraulic cylinder 120. The hydraulic ports 123 are formed on the side walls near the front end and the rear end of the hydraulic cylinder 120, and the hydraulic hoses 125 are connected to the hydraulic ports 123, respectively. Although not shown in the diagram 125, a hydraulic unit is connected.

One side wall of the arc-shaped case 110 is formed with a hose through-hole 115 through which the hydraulic hose 125 penetrates.

The hydraulic unit is composed of a hydraulic source, a hydraulic pump, a directional valve, etc., by controlling the hydraulic unit, the hydraulic pressure port 123 formed in the vicinity of the front end or the rear end of the hydraulic cylinder 120 via the hydraulic hose 125, respectively By selectively supplying to the piston rod 120 of the hydraulic cylinder 120 is reciprocated, this technique is well known to those skilled in the art will not be described in more detail.

An arc-shaped iron plate 20 corresponding to a portion of the circumference of the lead steel pipe 10 is fixed to the distal end of the piston rod 121.

An arc-shaped through hole 117 corresponding to the arc-shaped iron plate 20 is formed at the distal end of the arc-shaped case 110 so that the arc-shaped iron plate 20 fixed to the distal end of the piston rod 121 is inserted.

Steel pipe pressurization direction adjustment apparatus according to an embodiment of the present invention as described above, in order to adjust the direction of the lead steel pipe 10, as shown in Figure 2 and 3, the lower and upper portion of the lead steel pipe 10 Are installed on each.

2 illustrates a state in which the leading steel pipe 10 is upwardly adjusted by the steel pipe pressurization direction adjusting device according to the embodiment of the present invention. The state of FIG. 2 advances the piston rod 121 of the steel pipe press direction adjusting device installed in the lower part of the leading steel pipe 10 so that the lower arc-shaped steel plate 20 protrudes forward from the case 110, and the leading steel pipe. The piston rod 121 of the steel pipe pressurization direction adjusting device installed on the upper portion of the upper portion is reversed so that the upper arc-shaped steel plate 20 is retracted into the case 110. In this state, the lead steel pipe 10 is press-fitted. The arc-shaped iron plate 20 protruding from the lower surface receives earth pressure upward, and the leading steel pipe 10 is adjusted upward.

3 illustrates a state in which the leading steel pipe 10 is downwardly adjusted by the steel pipe pressurization direction adjusting device according to the embodiment of the present invention. The state of FIG. 3 advances the piston rod 121 of the steel pipe pressurization direction adjusting device installed on the upper part of the leading steel pipe 10 so that the upper arc-shaped steel plate 20 protrudes forward from the case 110, and the leading steel pipe. The piston rod 121 of the steel pipe pressurization direction adjusting device installed in the lower portion of the lower portion is reversed so that the lower arc-shaped steel plate 20 is retracted into the case 110. In this state, the lead steel pipe 10 is press-fitted. The arc-shaped iron plate 20 protruding on the lower surface receives earth pressure downward and is adjusted downward to the leading steel pipe 10.

As described above, the direction of the lead steel pipe 10 is adjusted by selectively advancing or retracting each piston rod 121 of the direction adjusting device installed on the lower and upper portions of the lead steel pipe 10, and the piston rod 121 As described above, the reciprocating movement only needs to control the hydraulic unit connected to the hydraulic cylinder 120, so that the direction of the lead steel pipe 10 is easily adjusted in the present invention.

On the other hand, if all the piston rod 121 of the direction adjusting device installed on the lower and upper portion of the lead steel pipe 10 is retracted, since the direction of the lead steel pipe 10 is not adjusted, in the present invention, the direction of the lead steel pipe 10 It is not necessary to remove the direction adjusting device from the leading steel pipe 10 when there is no need to adjust the pressure.

In the above described the case where the direction adjusting device is installed on the upper and lower portions of the lead steel pipe 10, for example, it will be understood that the same is true even when the direction adjusting device is installed on the left and right of the lead steel pipe 10.

According to the steel pipe pressurization direction adjusting device of the present invention, the arc-shaped iron plate is installed on the inner side tip of the lead steel pipe, the arc-shaped iron plate is installed so as to selectively protrude toward the lead steel pipe, the direction adjustment of the lead steel pipe There is no need to weld arc-shaped steel plates to the city lead steel pipe, and therefore, there is no need to excavate the front of the lead steel pipe to form a space for welding work, so that the cross-section structures such as roads and rivers in the upper part sink, deform or collapse. Not only does it have the advantage of no work, but it also eliminates the need to excavate the front of the leading steel pipe to form a space for welding the arc-shaped steel plate during operation, and also eliminates the portion where the arc-shaped steel plate is welded after the steel pipe is oriented. In order to eliminate the need to excavate the front of the leading steel pipe to form a space, construction period is shortened and construction cost is reduced. It has the advantage.

In addition, according to the present invention, since the direction of the lead steel pipe is easy to adjust, it is possible to check the direction of the lead steel pipe from time to time to ensure precise construction.

Claims (1)

As a steel pipe pressurizing direction adjusting device in which the arc-shaped iron plate 20 is selectively installed to protrude forward of the lead steel pipe 10 in the arc-shaped case 110 installed on the inner side end wall of the lead steel pipe 10, The arc-shaped case 110 is a flat shape corresponding to a portion of the circumference of the lead steel pipe 10, the center portion of the side facing the lead steel pipe 10 is open and fixing brackets 111 are formed at both edges thereof. Become, The fixing bracket 111 is formed with a plurality of fixing holes (111a), A fixing screw 113 is inserted into the fixing hole 111a to be fixed to the inner wall of the tip of the lead steel pipe 10. The rear end of the hydraulic cylinder 120 is fixed to the inner wall of the rear end in the arc-shaped case 110, The piston rod 121 is installed in the hydraulic cylinder 120 so as to reciprocate toward the front end of the hydraulic cylinder 120, An arc-shaped iron plate 20 corresponding to a portion of the circumference of the lead steel pipe 10 is fixed to the distal end of the piston rod 121, Steel arc pressure injection direction adjustment device, characterized in that the arc-shaped through-hole corresponding to the arc-shaped iron plate 20 is formed in the tip portion of the arc-shaped case 110 so that the arc-shaped iron plate 20 is inserted.