KR102451296B1 - Underground water and sewage pipe fixing device with earthquake-resistant function and its construction method - Google Patents

Abstract

The present invention relates to an underground water supply and sewage pipe fixing device with an earthquake-resistant function and a construction method thereof. More specifically, the fixing method, which is provided to protect water supply and sewage pipes buried in the ground, includes: a ground excavation step of forming an excavation hole such that a pipe is exposed, by excavating the ground; an excavation hole pipe cleaning step of cleaning the pipe disposed to be exposed to the excavation hole formed through the ground excavation step; a pipe fixing device installation step of installing a fixing device to the pipe; and an excavation hole burying step of burying the excavation hole. Therefore, the underground water supply and sewage pipe fixing device can protect the buried water supply and sewage pipes from an impact caused by an earthquake or an external force as well as support the pipes, thereby preventing a crack or damage caused by the impact to bring about effects of preventing water and sewage from spilling from the water supply and sewage pipes, and reducing maintenance costs.

Description

Underground water and sewage pipe fixing device with earthquake-resistant function and its construction method

The present invention relates to a device for fixing underground water and sewage pipes having an earthquake-resistant function and a construction method thereof, and more particularly, by protecting and supporting buried water and sewer pipes from shocks caused by earthquakes or external forces, It relates to an underground water and sewer pipe fixing device and its construction method having an earthquake-resistant function that prevents water and sewage from leaking out of water and sewage pipes by preventing damage and reducing maintenance costs.

In general, a water supply pipe that supplies water to factories, houses, and various facilities and a sewage pipe for sewage treatment are connected in series with a number of conduits having a certain diameter and length to secure ground space and beautify the living environment. The ground is cut to a sufficient space so that the structure can be seated, and the conduit structure is sequentially seated there in the longitudinal direction and then backfilled with soil.

If you look at the burial of water pipes, which is a conventional conduit, it is a method of simply digging the ground, putting water pipes there, and then covering the ground again, so it is easy to construct and widely used. The risk of damage to water and sewer pipes due to subsidence and collapse of the ground was minimized by compacting the soil located in .

However, conventional water and sewer pipes have a problem in that cracks are generated or damaged due to shocks transmitted to the water and sewage pipes due to earthquakes or external forces. Damage occurs, and the problem of water and sewage moving through the water and sewer pipes leaking to the outside always exists.

The above-described invention refers to the background of the technical field to which the present invention pertains, and does not mean the prior art.

Republic of Korea Patent Registration No. 10-1699502 (2017.01.18.) 'Room-temperature hardenable water and sewer pipe repair and reinforcement tube and conduit repair and reinforcement method using the same'

The present invention has been devised to solve the above-mentioned problems of the prior art, and an object of the present invention is to protect and support the buried water supply and sewer pipes from impacts caused by earthquakes or external forces, thereby preventing cracks or damage due to impact. An object of the present invention is to provide an underground water and sewerage pipe fixing device and a construction method having an earthquake-resistant function that can prevent water and sewage from leaking out of water and sewage pipes and reduce maintenance costs.

The present invention is a fixing method for protecting pipes, which are water and sewer pipes buried in the ground. A ground excavation step of forming an excavation hole so that the pipe is exposed by attaching the ground to the ground, and exposure to the excavation hole formed through the ground excavation step It characterized in that it consists of a drilling hole pipe washing step of washing the pipe arranged to be so, a pipe fixing device installation step of installing a fixing device on the pipe, and a drilling hole embedding step of burying the drilling hole.

The present invention is a fixing device for protecting pipes that are water and sewage pipes buried in the ground. It consists of elastic support bands for supporting the inner surface of the protection tube unit, and first flanges are formed on both sides of the first upper protection tube, and second flanges are formed on both sides of the second lower protection tube.

The present inventor's apparatus for fixing underground water and sewage pipes with earthquake-resistant function and their construction method protect and support the buried water and sewer pipes from shocks caused by earthquakes or external forces, thereby preventing cracks or damage due to impacts It has the effect of preventing water and sewage from leaking out and reducing maintenance costs.

1 is a flowchart showing a device for fixing an underground water supply and sewerage pipe having an earthquake-resistant function and a construction method thereof according to the present invention.
Figure 2 is an exploded view showing an underground water and sewer pipe fixing device having an earthquake-resistant function according to the present invention.
Figure 3 is a cross-sectional view showing an underground water and sewer pipe fixing device having a seismic function according to the present invention.
Figure 4 is a flow chart showing another embodiment of the underground water and sewer pipe fixing device and the construction method having an earthquake-resistant function according to the present invention.
5 is a view showing another embodiment of the underground water supply and sewer pipe fixing device having a seismic function according to the present invention.
Figure 6 is a view showing another embodiment of the underground water and sewer pipe fixing device having a seismic function according to the present invention.
Figure 7 is a view showing another embodiment of the underground water and sewer pipe fixing device having a seismic function according to the present invention.

Since the description of the present invention is merely an embodiment for structural or functional description, the scope of the present invention should not be construed as being limited by the embodiment described in the text. That is, since the embodiment is capable of various changes and may have various forms, it should be understood that the scope of the present invention includes equivalents capable of realizing the technical idea.

On the other hand, the meaning of the terms described in the present invention should be understood as follows.

Terms such as “first” and “second” are for distinguishing one component from another, and the scope of rights should not be limited by these terms. For example, a first component may be termed a second component, and similarly, a second component may also be termed a first component.

When a component is referred to as being “connected to” another component, it may be directly connected to the other component, but it should be understood that other components may exist in between. On the other hand, when it is mentioned that a certain element is "directly connected" to another element, it should be understood that the other element does not exist in the middle. On the other hand, other expressions describing the relationship between elements, that is, "between" and "between" or "neighboring to" and "directly adjacent to", etc., should be interpreted similarly.

The singular expression is to be understood to include the plural expression unless the context clearly dictates otherwise, and terms such as "comprises" or "have" refer to the embodied feature, number, step, action, component, part or these It is intended to indicate that a combination exists, and it should be understood that it does not preclude the possibility of the existence or addition of one or more other features or numbers, steps, operations, components, parts, or combinations thereof.

Identifiers (eg, a, b, c, etc.) in each step are used for convenience of description, and the identification code does not describe the order of each step, and each step clearly indicates a specific order in context. Unless otherwise specified, it may occur in a different order from the specified order. That is, each step may occur in the same order as specified, may be performed substantially simultaneously, or may be performed in the reverse order.

All terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs, unless otherwise defined. Terms defined in a commonly used dictionary should be interpreted as having the meaning consistent with the context of the related art, and cannot be interpreted as having an ideal or excessively formal meaning unless explicitly defined in the present invention.

1 is a flowchart showing a device for fixing an underground water supply and sewerage pipe having an earthquake-resistant function and a construction method thereof according to the present invention. Figure 2 is an exploded view showing an underground water and sewer pipe fixing device with a seismic function according to the present invention. Figure 3 is a cross-sectional view showing an underground water and sewer pipe fixing device having a seismic function according to the present invention. Figure 4 is a flow chart showing another embodiment of the underground water and sewer pipe fixing device and its construction method having an earthquake-resistant function according to the present invention. Figure 5 is a view showing another embodiment of the underground water and sewer pipe fixing device having a seismic function according to the present invention. Figure 6 is a view showing another embodiment of the underground water and sewer pipe fixing device having a seismic function according to the present invention. 7 is a view showing another embodiment of the underground water supply and sewer pipe fixing device having a seismic function according to the present invention.

As shown in the drawings, the present inventor's underground water and sewerage pipe fixing device 10 (hereinafter referred to as a fixing device for convenience of description) having an earthquake-resistant function is fixed to protect the pipe 100, which is a water and sewage pipe buried in the ground. As the device (10), this fixing device (10) consists of a protective tube unit (20) and an elastic support band (30).

The protective tube unit 20 has a tubular structure and includes a first upper protective tube 21 and a second lower protective tube 22 disposed while surrounding the pipe 100 .

The first upper protective tube 21 and the second lower protective tube 22 are formed in a semi-circular tube structure as shown in the drawing, and are made of a metal material or a synthetic resin material.

By forming the inner diameter of the protective pipe unit 20 larger than the outer diameter of the pipe 100 , a buffer space is formed between the protective pipe unit 20 and the pipe 100 .

A first flange 211 is integrally formed or welded to both sides of the first upper protective pipe 21, and a second flange 221 is integrally formed or welded to both sides of the second lower protective pipe 22, A bolt hole is formed in the first flange 211 and the second flange 221 , and the first flange 211 and the second flange 221 are bolted to each other to surround the pipe 100 . The first upper protective pipe 21 and the second lower protective pipe 22 are connected.

Here, one end of elastic shafts made of a synthetic resin material having elasticity is attached to the inner surfaces of the first upper protective tube 21 and the second lower protective tube 22 , and the other end of the elastic shaft is attached to the pipe 100 . Thus, it is preferable to support the first upper protective tube 21 and the second lower protective tube 22 by the elasticity of the elastic shaft.

The elastic support bands 30 are disposed while being wrapped around the pipe 100 , and support the inner surface of the protective pipe unit 20 .

The elastic support band 30 is formed on both sides of the pipe 100 to be reinforced.

The elastic support band 30 is attached while surrounding the pipe 100 as shown in the drawing, and the material is made of a synthetic resin material having elasticity.

The elastic support band 30 supports the inner surfaces of both ends of the protective tube unit 20 , and a buffer space is formed between the protective tube unit 20 and the pipe 100 by the elastic support band 30 . do.

The elastic support band 30 is fixed by being attached to the inner surface of the protective tube unit (20).

The shock or vibration transmitted from the outside to the pipe 100 is buffered by the protection pipe unit 20 , and the shock or vibration is again reduced by the elasticity of the elastic support band 30 attached to the pipe 100 . will be filled

Here, the elastic support unit 40 is further fastened to the lower portion of the second lower protective pipe 22 .

The elastic support unit 40 includes a fixed shaft 41 having one end fixed to the lower portion of the second lower protective pipe 22 , and a support coil spring 42 having an upper end welded to the lower end of the fixed shaft 41 , and , a support shaft 43 welded to the lower end of the support coil spring 42, and a curved support panel 44 welded to the lower end of the support shaft 43, so that the support panel 44 is formed in an excavation hole. By supporting it on the bottom surface of the It cushions the shock or vibration transmitted from the lower part.

A detection sensor 50 is attached to the outer surface of the pipe 100 to detect an impact, and the transceiver 60 is further screwed to receive the signal from the detection sensor 50 and transmit it to the outside (control center), When the pipe 100 is damaged, a signal is transmitted to the outside.

The detection sensor 50 and the transceiver 60 are disposed in a buffer space formed between the pipe 100 and the fixing device 10 .

A curved plate spring 70 is further screwed into the inner surface of the first lower protective pipe 22 and the second lower protective pipe 22, and the leaf spring 70 supports the pipe 100. Due to the elasticity of the leaf spring 70 , the external shock or vibration is buffered from being transmitted to the pipe 100 .

An external elastic sheet made of a synthetic resin material having elasticity is further attached to the outer surfaces of the first lower protective tube 22 and the second lower protective tube 22 to cushion the transmission of shock and vibration.

The fixing method to protect the pipe 100, which is the water and sewage pipe buried in the ground, as described above, includes a ground excavation step (S1) of forming an excavation hole so that the pipe 100 is exposed by attaching the ground to the ground, and the ground excavation Excavation pipe cleaning step (S2) of washing the pipe 100 disposed to be exposed to the excavation hole formed through the step (S2) is passed.

After that, after going through the pipe 100 fixing device 10 installation step (S3) for installing the fixing device 10 to the pipe 100, the excavation hole embedding step (S4) of burying the excavation hole is performed in a series will complete the process of

After the drilling hole pipe cleaning step (S2), the elastic support unit 40 installation step (S2-1) of installing the elastic support unit 40 in the lower part of the second lower protective pipe 22 introduced into the drilling hole ) is added.

Although the present invention has been described in detail so far, it is clear that the embodiments mentioned in the process are merely illustrative and not restrictive, and the present invention is the technical spirit or field of the present invention provided by the following claims. Within a range that does not depart from, it will be said that component changes to a degree that can be equally dealt with fall within the scope of the present invention.

10: fixing device 20: protective tube unit
21: first upper protective pipe 211: first flange
22: second lower protection pipe 221: second flange
30: elastic support band 40: elastic support unit
41: fixed shaft 42: support coil spring
43: support shaft 44: support panel
50: detection sensor 60: transceiver
70: leaf spring 100: piping
S1: Ground excavation step S2: Excavation pipe cleaning step
S2-1: Resilient support unit installation step S3: Pipe fixing device installation step
S4: Excavation hole reclamation stage

Claims (2)

As a construction method of a fixing device to protect pipes that are water and sewage pipes buried underground,
Ground excavation step of forming an excavation hole so that the pipe is exposed by attaching the ground;
an excavation pipe cleaning step of washing the pipe disposed to be exposed to the excavation hole formed through the ground excavation step;
a pipe fixing device installation step of installing a fixing device on the pipe; and
an excavation hole burying step of burying the excavation hole; In the construction method of an underground water supply and sewer pipe fixing device having an earthquake-resistant function comprising:
The fixing device includes a protective tube unit comprising a first upper protective tube and a second lower protective tube disposed while surrounding the pipe;
It is disposed while wrapping around the pipe, and consists of elastic support bands for supporting the inner surface of the protective pipe unit,
A first flange is formed on both sides of the first upper protective pipe,
Second flanges are formed on both sides of the second lower protective pipe,
After the drilling hole pipe cleaning step, an elastic support unit installation step of installing an elastic support unit in the lower portion of the second lower protective pipe introduced into the drilling hole is further added,
The elastic support unit includes a fixed shaft having one end fixed to a lower portion of the second lower protective tube, a support coil spring having an upper end welded to a lower end of the fixed shaft, and a support shaft welded to a lower end portion of the support coil spring; It consists of a curved support panel welded to the lower end of the support shaft so that the support panel is supported on the bottom surface of the drilling hole, so that the elasticity of the support coil spring and the support panel are used to bury the drilling hole and then delivered from the bottom dampens shock or vibration,
A curved plate spring is further screwed to the inner surface of the first lower protective pipe and the second lower protective pipe, and by allowing the plate spring to support the pipe, shock or vibration from the outside is transmitted to the pipe by the elasticity of the leaf spring. Construction method of an underground water and sewer pipe fixing device with an earthquake-resistant function, characterized in that it is designed to buffer the
delete

Images