KR100574169B1 - Crack monitoring system for sewer - Google Patents

Abstract

The present invention relates to a rectangular pipe body, which is a floating body of the Sangkwang Strait, and an hour hand flow case erected upward from one side of the sewage pipe; A fixing member having a bracket that surrounds the lower part of the hour hand flow case, the tip portion of which is bent to the bottom and is fixed to the upper and side ends of the sewer pipe, and the other end is screwed to both sides of the bracket to fix the hour hand flow case to one side of the sewer pipe; ; One end is located on the inside of the hour hand flow case and the other end is vertically bent penetrating through the one side of the sewage pipe, the hour hand rod is positioned horizontally in the upper part of the sewer pipe; An elevating rod fixedly coupled to the other end of the hour hand rod positioned inside the sewer pipe; It relates to a sewer pipe crack monitoring device having a circular buoyancy ball that is fitted to the elevating rod and is elevated on the elevating rod according to the level of the sewer pipe to flow the hour rod in the hour hand flow case.

Circular buoyancy ball, lifting rod, hour hand rod, hour hand flow case, fixed member

Description

Crack monitoring system for sewer pipes

1 is a perspective view showing a state of a crack monitoring device according to an embodiment of the present invention,

Figure 2 is a perspective view showing a state in which the crack monitoring device according to an embodiment of the present invention is installed in the sewer pipe,

Figure 3 is a side cross-sectional view showing a state in which the crack monitoring device according to an embodiment of the present invention is installed in the sewer pipe,

Figure 4 is a front cross-sectional view showing a state in which the hour hand rod of the crack monitoring device according to an embodiment of the present invention flows according to the water level of the sewer pipe.

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

1: crack monitoring device 10: circular buoyancy ball

20: lifting rod 30: hour hand rod

40: fixed member 41: fixed between

42: bracket 50: hour hand flow case

60: sewer pipe 61: through hole

The present invention relates to a sewage pipe crack monitoring device, and more particularly, it is possible to perform replacement immediately by easily selecting only sewage pipes where cracks are generated and sewage is lost to the ground. The spillage can minimize the contamination of the surrounding soil, and the cracking process can greatly shorten the time to find the sewage pipe where the sewage flows out. It relates to a sewer pipe crack monitoring device.

In general, when buried underground water pipes, water and sewage pipes, and telecommunications pipes, a plurality of pipes having a predetermined length are continuously connected to form a sewer pipe.

In order to bury the pipes installed as described above, first, the ground has a predetermined depth and a predetermined width, and the bottom surface is excavated evenly so that the joints can be closely connected in a state where the sewer pipe and the sewer pipe are horizontal. .

In this way, a plurality of pipes are connected to the excavated hole to form the aforementioned groundwater pipe, water and sewage pipe, and a telecommunication sewer pipe.

When buried underground water pipes, water and sewage pipes, and telecommunications pipes as described above, it is necessary to work evenly on the bottom surface of the hole in which the pipes are buried to bury the pipes and the pipes horizontally.

Groundwater pipes, water and sewage pipes, and telecommunication pipes buried in the ground will cause side effects such as separation of pipes and pipe cracks, as well as fume pipes, if the sedimentation occurs due to the ground weakening at the point where the pipes are buried. . The causes of cracks vary greatly, including dry shrinkage, floating settlement, design and construction errors, and excessive working loads. Therefore, it is necessary to check whether the cracks on the surface are continuous cracks or minor cracks on the surface. .

Particularly, when the pipe is a sewer pipe, the work of inspecting the inside of the sewer pipe and repairing the damaged part of the inner wall is performed by a worker directly entering the sewer pipe when the diameter of the sewer pipe is large, and the diameter of the sewer pipe is In small cases, the sewage pipes were installed in the crypt to visually inspect the sewage pipes for abnormalities.

Accordingly, it is necessary to find and replace only the sewage pipes in which cracks have been generated among a plurality of pipes in the ground. .

In addition, the resulting work takes a long time, there was a problem that brings more labor loss than necessary.

The present invention is to solve the above problems, it is possible to carry out the replacement work immediately by easily sorting only the sewage pipes are cracked out of a plurality of sewage pipes buried underground, the sewage is lost to the ground, outflow of sewage Due to this, it is possible to minimize the contamination of the surrounding soil, and to shorten the time to find the sewer pipe where the sewage flows due to the cracking, so that the sewer pipe replacement work is performed quickly, and thus there is no unnecessary labor loss. The purpose is to provide crack monitoring for sewer pipes.

In order to achieve the above object, the present invention includes a hour hand flow case erected upright from one side of the sewage pipe as a rectangular pipe body of the floating light strait;

 A fixing member having a bracket that surrounds the lower part of the hour hand flow case, the tip portion of which is bent to the bottom and is fixed to the upper and side ends of the sewer pipe, and the other end is screwed to both sides of the bracket to fix the hour hand flow case to one side of the sewer pipe; ;

 One end is located on the inside of the hour hand flow case and the other end is vertically bent penetrating through the one side of the sewage pipe, the hour hand rod is positioned horizontally in the upper part of the sewer pipe;

An elevating rod fixedly coupled to the other end of the hour hand rod positioned inside the sewer pipe;

It is characterized by having a circular buoyancy ball is fitted to the elevating rod is elevated on the elevating rod in accordance with the water level of the sewer pipe flows the hour rod in the hour hand flow case.

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

1 is a perspective view showing a state of a crack monitoring device according to an embodiment of the present invention, Figure 2 is a perspective view showing a state in which a crack monitoring device according to an embodiment of the present invention is installed in a sewer pipe, Figure 3 is a crack monitoring device according to an embodiment of the present invention in the sewer pipe Figure 4 is a side cross-sectional view showing the installed state, Figure 4 is a front cross-sectional view showing a state in which the hour hand rod of the crack monitoring device according to an embodiment of the present invention flows according to the water level of the sewer pipe.

For reference, in describing the present invention, when it is determined that a detailed description of related known functions or configurations may unnecessarily obscure the subject matter of the present invention, the detailed description thereof is omitted.

In addition, terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to the intention or custom of a user or an operator.

Therefore, the definition should be made based on the contents throughout the specification.

The sewer pipe crack monitoring device 1 of the present invention is a device that can be easily installed at regular intervals in the sewer pipe 60 so as to recognize a crack state of the sewer pipe 60 from the ground, and is fixed to one side of the sewer pipe so that the top surface is the ground surface. An hour hand flow case 50 and a fixing member 40 having a fixing rod 41 and a bracket 42 for fixing the hour hand flow case 50 to one side of the sewer pipe, and one side of the sewer pipe 60. Passing through the through-hole 61 of one end is positioned inside the hour hand flow case 50 and the other end is fixed to the hour hand rod 30 formed in the horizontal direction on the sewer pipe 60 and the other end of the hour hand rod (30) The lifting bar 20 and the lifting bar 20 is composed of a circular buoyancy ball 10 is lifted from the lifting bar 20 in accordance with the water level of the sewer pipe (60).

The circular buoyancy ball 10 is fitted to the elevating rod 20 to be elevated on the elevating rod 20 in accordance with the water level of the sewage pipe 60, to flow the needle rod 30 in the hour hand flow case 50 .

The lifting bar 20 is fixedly coupled to the other end of the hour hand rod 30 located inside the sewage pipe 60 is positioned vertically to the bottom.

The hour hand rod 30 is one side end is located inside the hour hand flow case 50, the other end is vertically bent to penetrate through the through-hole 61 of one side of the sewer pipe 60, horizontally on the sewer pipe 60 Is located.

The fixing member 40 is for firmly fixing the hour hand flow case 50 to the side of the sewer pipe 60, a bracket 42 surrounding the bottom of the hour hand flow case 50, and the tip is bent downward It is fixed to the upper end and the side end of the sewer pipe 60 and the other end is screwed to both sides of the bracket 42 has a fixed interval 41 for fixing the hour hand flow case 50 to one side of the sewer pipe 59.

The hour hand flow case 50 is made of a synthetic resin or a metal material, is formed as a square tube of a floating body of the upper and lower strait, it is fixed upright on one side of the sewer pipe 60.

Referring to the use state of the present invention as follows.

First, one side of the hour hand rod 30 is inserted into the hour hand flow case 50, and then vertically bent, and the other end is inserted inward through a through hole 61 formed at an upper end of one side of the sewer pipe 60. The upper end of the hour hand flow case 50 is slightly protruded from the ground surface so that the operator can check the position of the hour hand rod 30 inside the hour hand flow case 50 on the ground surface.

In this state, one end of the fixing member 41 of the fixing member 40 is bent over the upper outer surface of the sewer pipe 60 so as to be locked to the other end of the sewer pipe 60, and the other end of the fixing member 41 is tacked. It is firmly fixed by screwing both sides of the bracket 42 in close contact with one side end of the sewage pipe 60 while wrapping the lower portion of the distribution case 50.

The other end of the elevating rod 20 is fixedly coupled to the other end of the hour hand rod 30 inserted into the upper portion of the sewer pipe 60 in the horizontal direction, and the buoyant circular buoyancy ball 10 is fitted to the elevating rod 20. It is elevated on the steel rod 20.

When the group heat monitoring device 1 of the present invention is mounted on the inside and the outside of the sewage pipe line 60, the circular buoyancy ball 10 is raised and lowered on the lifting bar 20 according to the water level inside the sewage pipe line 60. The rod 30 is made to flow in the hour hand distribution case.

That is, as shown in FIG. 4, when there is no crack in the sewer pipe 60, the sewage or rainwater level flowing therein is constantly maintained at a constant level. ) Is lifted from the lifting bar 20 and the hour hand rod 30 is rotated so that one end is in close contact with one side of the hour hand distribution case 50. Thus, if the hour hand rod 30 inside the hour hand distribution case 50 is in close contact with one side, the water level in the sewer pipe 60 is kept constant, it is determined that there is no crack at all.

However, when a crack occurs in the sewage pipe 60, the sewage or rainwater in this section through the crack flows out of the sewage pipe 60 to the shore line, and the water level inside the sewage pipe 60 is rapidly lowered. As represented by the solid line of Figure 4, the circular buoyancy ball 10 is located at the lower end of the elevating rod 20 to place one end of the hour hand rod 30 in the center of the hour hand barrel 50. When the position of the hour hand rod 30 is located at the center side in the hour hand distribution case 50, the crack of the sewer pipe 60 is generated in the section, and the water level of the sewer pipe 60 is judged to be low. Dig out only to replace the sewer pipe (60).

The circular buoyancy ball 10 which rises and falls according to the internal water level of the sewage pipe 60 is moved by the hour hand rod 30 from the inside of the hour hand distribution case 50 by resistance to the flow rate of the sewage pipe 60. It is possible to easily identify the water level inside the Haas tube 60 on the ground surface. Accordingly, it is possible to easily identify and replace the sewage pipe 60 at the point where the leak occurs due to the crack.

In this way, the present invention can be carried out immediately by replacing only the sewage pipes are cracked out of a plurality of sewer pipes buried underground, the sewage is lost to the ground, the contamination of the soil around the sewage outflow It can minimize the time, the crack is generated can significantly shorten the time to find the sewage outflow pipe sewage pipe replacement work is made quickly, and thus there is no effect that no labor loss more than necessary.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

Claims (1)

In the sewer pipe crack detection device that flows by the buoyancy ball and the water level change in the sewer pipe can be easily recognized by leaking out of the sewer pipe; A hour hand flow case erected upright from one side of the sewage pipe as a rectangular pipe body, which is a floating body of Sangkwang Strait;  A fixing member having a bracket that surrounds the lower part of the hour hand flow case, the tip portion of which is bent to the bottom and is fixed to the upper and side ends of the sewer pipe, and the other end is screwed to both sides of the bracket to fix the hour hand flow case to one side of the sewer pipe; ;  One end is located on the inside of the hour hand flow case and the other end is vertically bent penetrating through the one side of the sewage pipe, the hour hand rod is positioned horizontally in the upper part of the sewer pipe; An elevating rod fixedly coupled to the other end of the hour hand rod positioned inside the sewer pipe; The sewer pipe crack monitoring device having a circular buoyancy ball that is fitted to the elevating rod and is elevated on the elevating rod according to the water level of the sewer pipe to flow the hour rod in the hour hand flow case.

Images