KR20030005651A - Pipe laying apparatus - Google Patents

Abstract

PURPOSE: A pipe laying apparatus is provided to reduce construction expenses by decreasing initial investment expenses, maintenance costs and labor costs, to shorten a period of construction and to prevent the damage of a pipe by decreasing thrust pressure. CONSTITUTION: The pipe laying apparatus comprises a screw(10) provided with spiral blade members(14) on a shaft(12) and projected in the earth through a pipe(1) to be placed, a driving motor(20) rotating the screw(10), a feed unit(30) moving the driving motor(20) forward and backward along the screw(10), a thrust unit(40) driving the pipe(1) forward in a laying hole(5), and a support(50) attached to the shaft(12) of the screw(10) and provided with many rods(54) contacted to the inside of the pipe(1).

Description

Pipe laying apparatus

The present invention relates to a pipe laying device, and more particularly, to a pipe laying device which can exert an effect such as shortening the air and reducing construction costs, because the pipe can be buried while excavating and discharging the soil in a mechanized manner. .

In general, if you want to bury water pipes, sewer pipes, etc. on embankments, railways, or heavy traffic roads, the Open Cut method, which excavates the ground and embeds the pipes using ordinary heavy equipment such as excavators, is not applicable. In addition, the propulsion method is applied to the underground by pushing the pipe through a hydraulic propulsion system.

This propulsion method is to excavate the start gang and the reaching gang vertically on both sides of the embankment, railroad or road, and then operate the hydraulic propulsion device installed in the start gang to bury one of the pipes in the ground, and then The tube is then buried by connecting it to an already buried tube and pushing it sequentially to reach the arrival shaft.

By the way, such a propelling method is to use a tunnel boring machine (Shield Tunnel) or a shield machine (Shield Machine), such equipment is expensive equipment, the initial investment cost is high, the maintenance cost is high, the cost of construction is high have. In addition, especially in the case of deep excavation depth and soft ground, it is necessary to install temporary facilities and install rubble, foundation and protective concrete, which increases air and increases labor costs. There is a problem. And, in the case of embedding a small diameter pipe of less than 1500mm in the ground, the ground is excavated by most of the manpower, in which case the work speed is delayed due to manpower work, the air is long, and a lot of separate labor costs are required. There is such a problem.

The present invention has been proposed in view of the problems described above, and an object of the present invention is to excavate and discharge the pipe while excavating and excavating the soil in a mechanized method, it is possible to exert an effect such as shortening the air and reducing construction costs It is to provide a pipe laying device.

1 to 3 is a side view of the use state of the pipe laying device according to the present invention

4 is a cross-sectional view A-A of the screw of FIG.

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

10.Screw 18.Universal Joint

20. Drive motor 30. Transfer means

40. Propulsion means 50. Supports

According to the present invention, the screw 10 is provided with a spiral blade member 14 on the shaft 12 and protrudes toward the ground 2 through which the tip is to be excavated through the inside of the tube 1 to be embedded. And a driving motor 20 for rotating the screw 10, a conveying means 30 for moving the driving motor 20 forward and backward in the longitudinal direction of the screw 10, and the tube 1. (2) and the propulsion means 40 for propelling to the buried hole (5) excavated in the (2), and is rotatably mounted on the shaft 12 of the screw 10 and extends in the radial direction on the tubular body ( It comprises a support 50 provided with a plurality of rods 54 in contact with the inner circumferential surface of the 1), while rotating the screw 10 by the drive motor 20 and at the same time the conveying means 30 Advances in the excavation direction by forming the buried hole 5 in the ground (2) while the pipe (1) to the buried hole (5) by the pushing means Provided is a pipe laying device characterized in that it can be propelled and buried.

According to another feature of the invention, the screw 10 is composed of the unit screw 10 is connected to each other by a universal joint 18, even if the pipe body 1 is buried a predetermined angle, each of the Provided is a tubular embedding device, characterized in that the unit screw 10 is configured to bend at a predetermined angle about the universal joint 18 to prevent bending stress.

According to another feature of the invention, the rod 54 of the support 50 is provided with a hydraulic jack 56, when the pipe body 1 is excessively bent during embedding, the hydraulic jack 56 is stretched Provided is a tubular embedding device, characterized in that configured to adjust the position of the screw (10).

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

1 to 3 show a side view of the tube embedding apparatus according to the present invention, Figure 4 shows an A-A cross-sectional view of the screw of FIG. Referring to this, the tube embedding apparatus includes a screw 10, a drive motor 20 connected to the screw 10, a transfer means 30 on which the drive motor 20 is mounted, and a tube to be embedded in the ground. It comprises a propulsion means (40) for propelling (1) and a support (50) slidably mounted to the screw (10).

The screw 10 is formed by the spiral blade member 14 is installed around the shaft 12, inserted into the tube 1 to be embedded in the ground (2) toward the ground (2) where the tip is to be excavated Protruding, the base end is connected to the drive motor 20 is rotated by the drive motor 20 to form a buried hole (5) in the ground (2). At this time, since the screw 10 is made of a plurality of unit screws 10 are connected by the universal joint 18, the pipe body 1 is predetermined while excavating the buried hole (5) in the ground (2) When the angle is bent, each unit screw 10 is bent at a predetermined angle about the universal joint 18.

The transfer means 30 is installed so as to reciprocate in the guide rail 32 installed on the ground of the starting gang, the drive motor 20 and the screw 10 connected to the drive motor 20 in the excavation direction Advance back and forth. The propulsion means 40 is fixed and stretched to the reaction force wall (7) laid perpendicular to the start gang, located between the reaction force wall (7) and the tube (1) embedded in the ground (2), By extending in the propulsion direction of the tubular body 1 by the oil pressure etc. which are not shown in figure, the tubular body 1 is propagated and embedded in the said embedding hole 5 excavated in the underground 2.

The support 50 is provided in the screw 10, the bearing 52 is mounted around the shaft 12 of the screw 10, and extends in the radial direction around the bearing 52, underground It consists of the several rod 54 contacted and supported by the inner peripheral surface of the tubular body 1 to be embedded in (2). Moreover, the roller 57 of the cross-sectional diamond type | mold is provided in the front-end | tip of this rod 54, and the cap 58 is provided so that the circumference | surrounding part of this roller 57 may be enclosed. In addition, the rod 54 of the support 50 provided at the front of the plurality of supports 50 provided in the screw 10 is provided with a hydraulic jack 56 that is operated by the hydraulic means not shown. The support 50 supports the screw 10 so as not to contact the inner wall surface of the tubular body 1, and is coupled to the shaft 12 of the screw 10 by a bearing 52. It is configured to slide smoothly when the 10 rotates. In addition, since the supporter 50 is provided with a roller 57 at the tip of the rod 54, when the propulsion means 40 propels the tubular body 1 in the longitudinal direction of the screw 10, This tubular body 1 is made to slide smoothly.

According to the pipe embedding device configured as described above, the feed means 30 is inserted into the pipe 1 to be embedded in the ground 2 and rotated by the drive motor 20 while the conveying means 30 is guide rails 32. While advancing toward the reach shaft along the same direction, the propulsion means 38 propels the tubular body 1 in the excavation direction, thereby propelling the tubular body 1 while forming a buried hole 5 in the ground 2. Can be buried.

At this time, the earth and sand generated when the buried hole 5 of the screw 10 is excavated is discharged toward the starting gang along the screw 10, the front end of the support 50 mounted on the screw 10 Since the peripheral part of the equipped roller 57 is covered by the cap 58, the discharged soil and the like are smoothly discharged without being caught by the roller 57. In addition, since the screw 10 is made of the unit screw 10 is coupled by the universal joint 18, even if the tube 1 is buried in the ground (2) by a predetermined angle, the respective units Since the screw 10 is bent at a predetermined angle around the universal joint 18, bending stress is not generated, and the number of embedded pipe bodies 1 is large, so that the pipe 10 can be easily removed even if the pipe is very long. In addition, since the hydraulic jack 56 is provided on the rod 54 of the support 50 provided in the front of the support 50 provided in the screw 10, the tube 1 is embedded with many angles. Even if bent, by operating the hydraulic jack 56 to stretch the rod 54 of the support 40 to adjust the position of the screw 10, the pipe 1 can be embedded along the planned piping line. .

Hereinafter, the propulsion method using the apparatus of the present invention will be described.

First, excavating the starting shaft and the reaching shaft on both sides of the section in which the tubular body 1 is to be embedded, and install the driving motor 20, the conveying means 30, and the propulsion means 40 inside the starting shaft. After the primary screw 10 is connected to the drive motor 20, the primary screw 10 is inserted into the primary tube 1 to be embedded in the ground. Subsequently, while the primary screw 10 is rotated by the drive motor 20, the conveying means 30 is advanced in the reach shaft direction to excavate the primary buried hole 5 in the ground 2. The vehicle body 1 is pushed to the primary buried hole 5 by the propulsion means 40. At this time, when the pipe body 1 is bent a lot during embedding, by extending the radial direction of the rod 54 of the support 40 provided in the top end of the screw 10 by the hydraulic jack 56, the screw Adjust the position of (10) so that the tubular body (1) can be embedded along the planned piping line.

Next, the conveying means 30 is retracted and the primary screw 10 is removed from the primary tube 1, and then another secondary screw 10 is jointly coupled to the primary screw 10. Another secondary tube 1 is connected to the primary tube 1 already embedded by welding or the like. Subsequently, the primary and secondary screws 10 are inserted into the primary and secondary tubes 1 again to rotate and advance by the driving motor 20 and the transfer means 30, and at the same time, the primary and secondary screws 10 The vehicle body 1 is pushed by the propulsion means 40 and pushed into the buried hole 5. In this way, the plurality of pipe bodies 1 are buried in sequence by pushing the screw 10 and the pipe bodies 1 in the starting shaft in such a manner as to be propelled toward the reaching shaft.

Therefore, the pipe embedding device can be embedded by sequentially connecting the pipe (1) to the buried hole (5) while drilling the buried hole (5) by advancing in the digging direction while rotating the screw (10), As in the related art, since it is not necessary to use expensive equipment such as a tunnel boring machine or a shield machine, the initial investment cost and maintenance cost can be reduced, and the cost such as construction cost can be greatly reduced. In addition, in the propulsion method using the pipe laying device, when laying the pipe in a deep and soft ground, it is not necessary to install a temporary facility and install cumbersome work such as rubble laying, foundation concrete, protective concrete, etc. Easy and shorten the air, and even when the small diameter tube 1 is buried, the construction is carried out in a mechanized manner without depending on the manpower, so not only is the work very fast, but also the labor cost can be reduced. Can be. In addition, since the pipe embedding apparatus excavates the buried hole 5 in the ground 2 and simultaneously pushes and embeds the pipe 1, the conventional propulsion pressure is significantly reduced, so that the pipe 1 by the propulsion pressure is reduced. While the damage can be significantly reduced, a large number of pipe bodies 1 are buried with low propulsion pressure, so that the pipe can be formed very long.

As described above, according to the present invention, the pipe laying device and the propulsion method using the same can be buried without using expensive equipment such as tunnel boring machine or shield machine, the initial investment cost, maintenance cost and labor cost, etc. Due to the reduction of construction cost, the construction cost is remarkably reduced, and the construction is easy and the air can be remarkably shortened by pushing and laying the pipe while excavating and discharging the soil with screws. Since a plurality of pipes are buried with low propulsion pressure, there is an advantage that the pipe can be formed very long.

Claims (3)

A spiral blade member 14 is provided on the shaft 12 and the screw 10 protrudes toward the ground 2 through which the tip is to be excavated through the inside of the tube 1 to be embedded, and the screw ( Excavation of the drive motor 20 to rotate 10, the transfer means 30 to move the drive motor 20 back and forth in the longitudinal direction of the screw 10, and the tubular body 1 to the ground 2; A propulsion means 40 for propelling the buried holes 5 and rotatably mounted on the shaft 12 of the screw 10 and extending in a radial direction on an inner circumferential surface of the tubular body 1. And a support 50 provided with a plurality of rods 54 which are in contact with each other. The screw 10 is rotated by the drive motor 20 and in the excavation direction by the transfer means 30. While advancing to form a buried hole (5) in the ground (2) while pushing the tube (1) to the buried hole (5) by the propulsion means for embedding A tube embedded in the device, characterized in that so. The unit screw (10) of claim 1, wherein the unit screws (10) are connected to each other by a universal joint (18), and the unit screws (10) are bent at a predetermined angle as the tube (1) is embedded. Pipe burying device, characterized in that (10) is bent at a predetermined angle around the universal joint (18) while bending stress is prevented. According to claim 1, wherein the rod 54 of the support 50 is provided with a hydraulic jack 56, when the pipe 1 is excessively bent during embedding, the hydraulic jack 56 is stretched to the screw 10 Pipe laying device, characterized in that configured to adjust the position of.