KR102092033B1 - Method and Structure for Monitoring Vertical Displacement of Underground Pipe - Google Patents

Abstract

The present invention relates to a method for monitoring vertical displacement of an underground pipeline and an installation structure for embedding the underground pipeline therefor. The installation structure of the present invention easily monitors whether the displacement of the underground pipeline in the vertical direction occurs due to ground subsidence and the like on the underground pipeline, which is installed in the underground, such as a gas transportation pipe. Therefore, damage to the underground pipeline due to excessive vertical displacement of the underground pipeline is prevented in advance and measures can be taken promptly.

Description

Method and structure for monitoring vertical displacement of underground pipes for vertical displacement monitoring method for underground pipelines

The present invention is to easily monitor that the displacement in the vertical direction of the underground pipeline due to subsidence, etc. for the pipeline ("underground pipeline") installed in the underground, such as gas transportation pipes, excessive vertical displacement of the underground pipeline The present invention relates to a method for monitoring vertical displacement of an underground pipeline to prevent damage to the underground pipeline in advance and to be able to take measures promptly, and an installation structure of the underground pipeline for reclamation.

It is common that pipelines such as a singer transport pipe, water pipes, and sewer pipes are buried in the ground in a form of backfilling the soil after excavating a trench in the ground and arranging the pipeline in the trench. In the Republic of Korea Patent Registration No. 10-0310744, an example of a method of constructing an underground pipeline under the name "Construction method of underground buried pipe" is introduced.

When a subsidence occurs in the ground where the underground pipeline is disposed, displacement in the vertical direction, that is, vertical displacement occurs, also in the underground pipeline.If excessive vertical displacement occurs in the underground pipeline, damage such as cracks occurs in the underground pipeline itself. Alternatively, separation may occur at the connection portion of the underground pipeline, and further, a linear medium of the underground pipeline may cause the transport medium such as gas to be transported through the underground pipeline to not be properly transported. Therefore, it is very important for the maintenance of the underground pipeline to continuously monitor how much vertical displacement occurs in the underground pipeline.

However, since the underground pipeline is buried in the underground, it is very difficult to continuously monitor the vertical displacement occurring in the underground pipeline, and the prior art has not suggested an effective method for this.

Republic of Korea Registered Patent Publication No. 10-0301744 (announced on September 22, 2001).

The present invention was developed to overcome the above-described conventional situation, by allowing the vertical displacement occurring in the underground pipeline to be monitored easily and quickly and in real time on the ground, to rapidly generate excessive vertical displacement of the underground pipeline. It is an object of the present invention to provide a "method for monitoring vertical displacement of underground pipelines and an installation structure of underground pipelines for reclamation" that enables effective countermeasures.

In order to achieve the above problems, in the present invention, in the pipe installation portion (3) excavated in a trench shape on the ground, the spacer (2) is fixedly installed at intervals in the longitudinal direction, the spacer (2) underground The conduit 1 is coupled and continuously installed in the longitudinal direction, and the conduit installation 3 has a backfilled configuration; The separation support (2) is fixedly installed on the ground of the pipeline installation part (3) and is provided on the upper end of the support part (20) and is coupled to be located away from the ground surface of the pipeline installation (3). The lower coupling ring (21) that wraps the round bottom surface of the underground pipeline (1), the upper coupling ring (22) that wraps the round upper surface of the underground pipeline (1) and engages with the lower coupling ring (21), and the vertical rod Consisting of a member, the lower end is vertically installed at any one of the support portion 20, the lower coupling ring 21, and the upper coupling ring 22, and the upper portion protrudes upward to the ground after the pipeline installation portion 3 is covered. It comprises a vertical displacement indicator bar 23 to be; In the state where the pipeline installation part 3 is backfilled, the upper end of the vertical displacement indicator rod 23 protrudes above the ground after the pipeline installation part 3 is covered; By monitoring the vertical displacement at the top of the vertical displacement indicator (23) protruding above the ground, the vertical displacement monitorable underground pipeline reclamation installation structure is characterized in that the vertical displacement of the underground pipeline (1) can be determined and measured. Is provided.

In addition, in the present invention, in order to achieve the above object, the step of installing a conduit installation unit (3) in the form of a trench on the ground; Fixing the spacer (2) in the pipeline installation portion (3) at a vertical interval; A step of continuously installing in the longitudinal direction by combining the underground conduit 1 with the spacer 2; And backfilling the pipeline installation part 3 to cover it; The separation support (2) is fixedly installed on the ground of the pipeline installation part (3) and is provided on the upper end of the support part (20) and is coupled to be located away from the ground surface of the pipeline installation part (3), The lower coupling ring (21) that wraps the round bottom surface of the underground pipeline (1), the upper coupling ring (22) that wraps the round upper surface of the underground pipeline (1) and engages with the lower coupling ring (21), and the vertical rod Consisting of a member, the lower end is vertically installed at any one of the support portion 20, the lower coupling ring 21, and the upper coupling ring 22, and the upper portion protrudes upward to the ground after the pipeline installation portion 3 is covered. It comprises a vertical displacement indicator bar 23 to be; In the state where the pipeline installation part 3 is backfilled, the upper end of the vertical displacement indicator rod 23 protrudes above the ground after the pipeline installation part 3 is covered; By monitoring the vertical displacement of the upper end of the vertical displacement indicator (23) protruding above the ground, a vertical displacement monitoring method of the underground pipeline is provided, characterized in that the vertical displacement of the underground pipeline (1) is determined and measured.

According to the present invention, by monitoring and measuring the vertical displacement of the vertical displacement indicator bar, vertical displacement occurring in the underground pipeline can be accurately monitored and measured in real time, and thus, due to excessive vertical displacement of the underground pipeline The effect of being able to prevent damage to the underground pipeline in advance, and to effectively and promptly take appropriate measures in response to the occurrence of vertical displacement of the underground pipeline is exerted.

1 is a schematic exploded perspective view showing a state in which the underground pipeline is installed on the spacer according to the present invention.
FIG. 2 is a schematic front view of the state shown in FIG. 1 in the direction of arrow A of FIG. 1;
FIG. 3 is a schematic assembly perspective view showing a state in which the underground pipeline is installed in conjunction with a spacer bearing following the state of FIG. 1.
4 is a schematic front view of the state shown in FIG. 3.
5 and 6 are schematic perspective views of the spacer, respectively.
7 is a schematic perspective view showing a state in which the underground pipelines are installed on the spacer.
8 is a schematic perspective view showing a state where the underground pipeline is disposed after the spacer is installed in the pipeline installation unit according to the present invention.
9 is a schematic lateral side view of the state of FIG. 8.
FIG. 10 is a schematic front view of the state shown in FIG. 9.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. Although the present invention has been described with reference to the embodiments shown in the drawings, it is described as one embodiment, whereby the technical spirit of the present invention and its core configuration and operation are not limited.

FIG. 1 is a schematic exploded perspective view showing a state in which the underground pipeline 1 is installed in the spacer 2 in the pipeline installation unit 3 according to the present invention, and FIG. 2 is in the state illustrated in FIG. 1. A schematic front view in the direction of arrow A of FIG. 1, ie in the longitudinal direction, is shown. FIG. 3 is a schematic assembly perspective view showing a state in which the underground pipeline 1 is installed in combination with the spacer 2 following the state of FIG. 1, and FIG. 4 is a longitudinal direction for the state shown in FIG. 3 A schematic front view of the furnace is shown.

As shown in the drawing, in the present invention, the ground is excavated to form a trench-shaped pipe installation part 3, and the spacer 2 is spaced apart in the direction in which the underground pipe 1 extends, that is, in the longitudinal direction. After being installed in the installation part 3, the underground pipeline 1 is coupled to the spacer 2 to be continuously installed in the longitudinal direction. After installation of the underground pipeline 1, the pipeline installation part 3 is backfilled and covered to complete the installation and installation of the underground pipeline.

5 and 6, respectively, a schematic perspective view of the spacer 2 is shown. In FIG. 5, a state in which the spacer 2 is opened for installation of the underground pipeline 1 is shown. In the state, the spacer 2 is closed. 7 is a schematic perspective view showing a state in which the underground conduit 1 is installed and coupled to the spacer 2.

As illustrated in the drawings, the spacer support 2 includes a support unit 20 fixedly installed on the ground of the pipeline installation unit 3. A lower coupling ring 21 is provided at the upper end of the supporting portion 20 spaced apart from the ground surface of the pipeline installation portion 3, and the lower coupling ring 21 surrounds the round lower surface of the underground pipeline 1. The upper coupling ring 22 is coupled to the lower coupling ring 21. The upper coupling ring 22 is a member that surrounds the round upper surface of the underground pipeline 1, and in the case of the embodiment shown in the drawing, the lower coupling ring 21 and the upper coupling ring 22 are hinged on one side, and thus The upper coupling ring 22 rotates while the underground conduit 1 is placed on the lower coupling ring 21 to wrap the upper surface of the underground conduit 1, and then the upper and lower coupling rings 21 and 22 are fastened. The underground pipeline (1) is positioned to be spaced apart from the ground surface of the pipeline installation unit (3) in a state fixed by the separation support (2).

The spacer support 2 is provided with a vertical displacement indicator rod 23. The vertical displacement indicator rod 23 is made of a vertical rod member, and its lower end is fixed at an arbitrary position of the spacer 2. That is, the vertical displacement indicator rod 23 is installed to be vertically coupled to any one of the support portion 20, the lower coupling ring 21 and the upper coupling ring 22. The upper end of the vertical displacement indicator rod 23 protrudes above the ground after the pipeline installation part 3 is covered.

Figure 8 is a schematic perspective view showing the underground pipe (1) is placed in the pipe installation portion (3) of the ditch type by the spacer (2), as shown above, the pipeline installation portion (3) is backfilled and covered Is shown, and FIG. 9 shows a schematic lateral side view of the state of FIG. 8, and FIG. 10 shows a schematic front view of the state shown in FIG. 9. 8 to 10, the upper end of the vertical displacement indicator 23, which is coupled to each spacer 2 in the underground burial of the underground pipeline 1, is projected above the ground.

When a subsidence (1) is settled or raised on the ground where the underground pipe (1) is buried, vertical displacement occurs in the spacer (2) installed at the corresponding point and the underground pipe (1) combined with it. Since the underground pipeline (1) is firmly coupled to the space support (2), the underground pipeline (1) is vertically displaced to the same size as the space support (2). Since the vertical displacement indicator rod 23 is coupled to the separation support 2 and the vertical displacement indicator rod 23 protrudes above the ground, when the vertical displacement occurs in the separation support 2 , The upper end of the vertical displacement indicator rod 23 protruding on the ground is also moved in the vertical direction with the same size as the vertical displacement of the spacer 2. That is, the upper end of the vertical displacement display bar 23 is vertically displaced.

Therefore, the manager monitors and measures the vertical displacement occurring at the top of the vertical displacement indicator bar 23 in real time with the naked eye or by various other methods, so that the vertical displacement of the separation bearing 2 and consequently the vertical displacement of the underground pipeline 1 The displacement can be monitored and measured in real time.

As described above, in the present invention, the vertical displacement occurring in the underground pipeline 1 can be monitored and measured accurately in real time by monitoring and measuring the vertical displacement of the vertical displacement indicator rod 23, and thus the underground pipeline. Damage to the underground pipeline due to excessive vertical displacement of the can be prevented in advance, it is possible to effectively take measures in response to the occurrence of vertical displacement of the underground pipeline (1).

1: underground pipeline
2: Spacing
3: Pipe installation part

Claims (2)

The pipe installation part excavated in the form of a ditch in the ground, the spacer is fixedly installed at a distance in the longitudinal direction, the underground pipe is coupled to the spacer and installed continuously in the longitudinal direction, and the pipeline installation part is backfilled. Have;
The separation bearing is fixed to the base of the pipe installation part, and is provided at the upper end of the support portion to be spaced apart from the ground surface of the pipe installation part, and the lower coupling ring that surrounds the round bottom surface of the underground pipeline, and the round upper surface of the underground pipeline. It consists of a lower coupling ring and an upper coupling ring that is hinged and fastened on one side, and a vertical bar member, so that the lower end is installed vertically at any one of the support part, the lower coupling ring, and the upper coupling ring. It comprises a vertical displacement indicator rod protruding upwards above the ground after the installation portion is covered;
After the support part is installed on the ground of the pipeline installation part and the upper coupling ring rotates to cover the upper surface of the underground pipeline while the underground pipeline is placed on the lower coupling ring, the upper and lower coupling rings are fastened to fix the underground pipeline by the separation bearing To be located spaced apart from the ground surface of the pipeline installation portion;
In the state where the pipeline installation portion is filled, the upper end of the vertical displacement indicator rod protrudes above the ground after the pipeline installation portion is covered;
Vertical displacement monitoring rods projecting over the ground By monitoring the vertical displacement of the top, it is possible to grasp and measure the vertical displacement of the underground pipeline.
Installing a pipeline installation unit in a trench shape on the ground;
Fixing the spacer in the pipeline installation spaced in the longitudinal direction;
Step of continuous installation in the longitudinal direction by combining the underground pipe to the spacer; And
It includes a step of backfilling the pipeline installation portion;
The separation bearing is fixed to the base of the pipe installation part, and is provided at the upper end of the support portion to be spaced apart from the ground surface of the pipe installation part, and the lower coupling ring that surrounds the round bottom surface of the underground pipeline, and the round upper surface of the underground pipeline. It consists of a lower coupling ring and an upper coupling ring that is hinged and fastened on one side, and a vertical bar member, so that the lower end is installed vertically at any one of the support part, the lower coupling ring, and the upper coupling ring. It comprises a vertical displacement indicator rod protruding upwards above the ground after the installation portion is covered;
After the support part is installed on the ground of the pipeline installation part and the upper coupling ring rotates to cover the upper surface of the underground pipeline while the underground pipeline is placed on the lower coupling ring, the upper and lower coupling rings are fastened to fix the underground pipeline by the separation bearing To be located spaced apart from the ground surface of the pipeline installation portion;
In the state where the pipeline installation portion is filled, the upper end of the vertical displacement indicator rod protrudes above the ground after the pipeline installation portion is covered;
A method for monitoring vertical displacement of an underground pipeline, characterized by determining and measuring the vertical displacement of the underground pipeline by monitoring the vertical displacement at the top of the vertical displacement indicator rod protruding above the ground.

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