KR102440096B1 - Protection apparatus for underground pipe - Google Patents

Abstract

The present invention relates to an underground installation protection device, and the underground installation protection device according to the present invention accommodates a fluid in a first space provided therein, and a device body for accommodating a reactant in a second space provided under the first space ; and a valve unit sealing the connection portion between the first space and the second space, wherein the valve unit is provided to open the connection portion when the pressure in the first space is lowered to contact the fluid and the reactant can do it

Description

Underground protection device {PROTECTION APPARATUS FOR UNDERGROUND PIPE}

The present invention relates to an underground installation protection device.

As shown in FIG. 1 , underground pipelines 1 may be provided in the underground of roads such as houses and commercial districts, and transmission and distribution lines 2 may be buried in these underground pipelines 1 . When the transmission and distribution lines 2 are buried in this way, there is an advantage in that the safety and durability of the transmission and distribution lines can be secured.

However, underground pipelines buried underground for a long time may be damaged due to their own aging, so periodic repair and replacement work is required. have.

In order to repair and replace the underground pipe (1), the ground in which the underground pipe is buried must be excavated with an excavator (not shown) so that the underground pipe is exposed to the outside. However, in the process of performing general excavation work, the excavator operator cannot see the underground pipeline buried underground, so in most cases, the excavation work is performed with the driver's sense.

As described above, if the operator performs excavation work without knowing the location of the underground pipeline, the excavator blade may excessively pressurize the underground pipeline, causing the underground pipeline to be destroyed. The same protection plate 3 is covered.

However, it can be seen that such a protection plate 3 is also vulnerable to strong impact and excessive load by the excavator, so there is always a risk of damage. (3) There is a problem that it is not possible to determine whether it is damaged or damaged by this excavator.

In addition, if the excavator operator continues to perform excavation work without knowing whether the protection plate 3 is damaged or damaged, there is a problem that the underground pipeline and transmission and distribution lines are eventually damaged.

US 6878881 B1 (2005.04.12)

It is an object of the present invention to quickly and easily determine whether a protective device for protecting an underground facility, in particular, an underground pipeline is damaged or damaged.

In addition, an object of the present invention is to prevent damage to an underground facility, in particular, an underground pipe in advance by allowing the operator to quickly grasp the degree of damage or damage to the protection device.

The present invention relates to an underground protection device, and the device body for underground protection according to the present invention accommodates a fluid in a first space provided therein, and a reactant in a second space provided under the first space. ; and a valve unit sealing the connection part of the first space and the second space; the valve unit is provided to open the connection part when the pressure in the first space is lowered to contact the fluid and the reactant can do it

In addition, the device body, the upper device body having the first space; and a lower device body connected to a lower portion of the upper device body and having the second space, wherein the connection part may be a connection hole connecting the first space and the second space.

Also preferably, the valve unit may include a valve member inserted into the connection hole to close the connection hole; and an elastic member disposed between the valve member and the upper device body to move the valve member.

And preferably, the valve member, the end of which is exposed to the outside of the connection hole, the end portion extending in the radial direction of the connection hole to contact the upper device body; may include.

Also preferably, the elastic member may be disposed under the locking jaw, and when the pressure of the first space is lowered, the locking jaw may be lifted to release the contact between the locking jaw and the upper device body.

Meanwhile, preferably, the fluid is water, and the reactant may include sodium.

And the upper device body, at least one partition wall provided in the first space; and at least one reinforcing member protruding in the thickness direction.

Also preferably, the upper device body may include: a first upper device body in which the connection hole is formed; and a second upper device body including a partition wall and a reinforcing member corresponding to the partition wall and the reinforcing member formed in the first upper device body; the contact between the first upper device body and the second upper device body Thus, the first space may be formed.

According to the present invention, it is possible to quickly and easily determine whether the protection device for protecting an underground facility, in particular, an underground pipeline is damaged or damaged.

In addition, since the operator can detect whether the protection device is damaged or damaged by sight, hearing, smell, etc., it is possible to prevent damage to underground facilities, in particular, underground pipelines in advance.

1 schematically shows a conventional underground pipeline.
Figure 2 schematically shows a protective plate of a conventional underground pipeline.
3 is a conceptual diagram of an underground facility protection device according to the present invention.
4 to 6 is an operation state diagram of the underground protection device according to the present invention.
7 and 8 are conceptual views of a device body according to another embodiment of the present invention.

In order to help the understanding of the description of the embodiment of the present invention, elements indicated by the same reference numerals in the accompanying drawings are the same elements, and related elements among the elements performing the same operation in each embodiment are indicated by the same or extended numbers. marked.

In addition, in order to clarify the gist of the present invention, descriptions of elements and techniques well known by the prior art will be omitted, and below, the present invention will be described in detail with reference to the accompanying drawings.

However, the spirit of the present invention is not limited to the presented embodiment, and specific components may be proposed in other forms in which specific components are added, changed, or deleted by those skilled in the art, but this is also included within the scope of the same spirit as the present invention. make it clear

An object of the present invention is to enable an operator to recognize whether an underground facility, in particular, an underground pipe is damaged or damaged by at least one of visual, auditory, and olfactory senses. In addition, one purpose is to prevent further damage or breakage of the underground pipeline in advance by enabling the operator to easily recognize the degree of damage or breakage.

However, the underground installation is not necessarily limited to an underground pipeline, and any other object buried underground in addition to the underground pipeline may be applied.

As shown in FIG. 3 , the underground protection device according to an embodiment of the present invention accommodates a fluid in a first space 111 provided therein, and a reactant in a second space 112 provided under the first space. It may include a device body 110 for accommodating and a valve unit 130 for sealing the connection part 120 of the first space and the second space.

In this case, the valve unit may be provided to open the connection part when the pressure in the first space is lowered to bring the fluid into contact with the reactant.

Preferably, the device body may include an upper device body 114 having the first space and a lower device body 115 connected to a lower portion of the upper device body and having the second space.

Here, a coupling means such as an adhesive may be used to connect the upper device body 114 and the lower device body 115, and when the device body 110 is made of a metal material, coupling means such as bolts and nuts can also be used.

However, when the device body 110 is molded of plastic, preferably, considering that the upper device body 114 and the lower device body 115 are fit-coupled, they may be initially molded to be suitable for fitting coupling. have.

In particular, when the device body 110 is injection molded using a plastic resin such as PE, the upper device body and the lower device body can be fitted and coupled in a clip manner. A coupling protrusion (not shown) and a coupling groove (not shown) may be formed, respectively.

And the fitting tolerance of the coupling protrusion and the coupling groove may be an interference fitting or an intermediate fitting, and after fitting and coupling them using the elasticity of plastic, a single device body 110 may be constructed. However, this is not necessarily limited by the present invention, and the material of the device body 110 and the configuration of coupling the upper device body 114 and the lower device body 115 are appropriately changed and applied by those skilled in the art.

The connection part 120 connects the upper device body 114 and the lower device body 115 , and may be a connection hole 121 penetrating the upper device body 114 and the lower device body 115 . In addition, the first space 111 of the upper device body and the second space 112 of the lower device body may be connected to each other by the connection hole 121 .

Accordingly, the fluid W accommodated in the first space 111 may fall into the second space 112 through the connection hole 121 by gravity, and the reactant 113 accommodated in the second space 112 . can be contacted with

Here, when the fluid movement hole 131a is provided in the circumferential direction of the valve member 131 , the fluid W can move more quickly into the second space 112 .

Preferably, the fluid W may be water (H ₂ O), and the reactant 113 may be provided in the form of a solid as a material including sodium (Na). However, it should be noted that this is also not necessarily limited by the present invention and may be appropriately changed and applied by those skilled in the art.

The connection hole 121 may be normally sealed by the valve unit 130 . The valve unit 130 is disposed between the valve member 131 and the valve member 131 and the upper device body 114 inserted into the connection hole 121 to close the connection hole, the valve member ( It may include an elastic member 132 for moving the 131).

In this case, the inner diameter of the connection hole 121 may be provided to have an interference fit or an intermediate fit tolerance with the outer diameter of the valve member 131 . Accordingly, the elastic member 132 preferably has a circular shape corresponding to the shape of the valve member 131 while having sufficient elastic restoring force to lift the valve member 131 even with such a fitting tolerance.

And the end of the valve member 131 is exposed to the outside of the connection hole 121, while extending a certain length in the radial direction of the connection hole 121, the locking jaw 133 provided to contact the upper device body 114, is provided as

According to the locking jaw 133 provided in this way, it is possible to prevent the valve member 131 from leaving the connection hole 121 in an unintentional situation, and the elastic member 132 is placed directly on the locking jaw 133 . By placing it on the lower side, the elastic member 132 can lift the valve member 131 more easily.

Hereinafter, with reference to FIGS. 4 to 6 will be described with respect to the operation of the underground buried protection device according to the present invention.

First, as shown in FIG. 4 , the valve member 131 is normally pressed by the pressure of the fluid W present in the first space 111 and completely seals the connection hole ( 121 in FIG. 3 ). can

However, when a part of the upper device body 114 is damaged by the excavation device 10 , the fluid W inside the first space 111 starts to leak to the outside through the damaged excavation hole 11 .

Then, the operator can see the fluid W leaking primarily and know that the device body 110 has reached the initial stage of damage, and can take appropriate follow-up measures. At this time, a dye may be mixed with the fluid W to further stimulate the operator's vision so that the fluid W has a certain color.

In this situation, if the fluid W continues to flow without any special measures, the pressure in the first space 111 is gradually lowered, and the pressure pressing the valve member 131 is also weakened, as shown in FIG. 5 , the elastic member 132 ) by the elastic restoring force of the valve member 131 is gradually raised in the connection hole (121).

Then, the connection hole (121 in FIG. 3) is partially opened and the fluid (W) falls into the second space (112) through the space. The reactant (113) contains sodium (Na), and the fluid (W) Since is water (H ₂ O), when two substances meet, hydrogen is generated, and the operator's hearing is stimulated by the explosive power of hydrogen.

If this reaction continues, gas starts to be generated through the excavation hole 11 as shown in FIG. 6 . When the operator sees this gas, a considerable number of damage to the device body 110 has progressed, and the operator can recognize that the underground pipeline is damaged or just before being damaged.

On the other hand, Figures 7 and 8 show a transverse cross-section of the upper device body 114 according to an embodiment of the present invention.

As shown in FIG. 7 , the upper device body 114 may include at least one partition wall 114a provided in the first space 111 to reinforce rigidity. The partition wall 114a may protrude at a predetermined height from the first space 111 , and is formed around the valve unit 130 so that the fluid (W in FIG. 3 ) can easily flow around the valve unit 130 . It may be placed so as to form a predetermined flow path.

In addition, the upper device body 114 may include at least one reinforcing member 114b protruding at a predetermined height in the thickness direction. According to the partition wall 114a and the reinforcing member 114b, bending deformation of the upper device body 114 can be prevented, and the rigidity of the upper device body 114 can be reinforced. Such a configuration may be equally applied to the lower device body 115 .

At this time, as shown in FIG. 8, the upper device body 114 may be provided to be divided into a first upper device body 214a and a second upper device body 214b, and the upper device body 114 has a connection hole ( 121) may be provided with a formed first upper device body (214a) and a second upper device body (214b) covered on the upper portion of the first upper device body.

At this time, the partition wall (114a in FIG. 7 ) and the reinforcing member 114b provided in the first upper device body 214a may be equally provided in the second upper device body 214b. In this way, if the multi-layer blower molding technique of the kiss-off method configured by stacking the upper device body 114 and the lower device body 115 is used, the durability and pressure resistance of the device body 110 can be ensured, and the rigidity is more has an increasing effect.

This kiss-off type molding can be applied to the lower device body 115 as well, and the number of laminated plates is not limited by the present invention, and can be appropriately changed and applied by the operator and the working environment. is a matter

The above has been described with respect to an embodiment of the present invention, the scope of the present invention is not limited thereto, and various modifications and variations are possible within the scope without departing from the technical spirit of the present invention described in the claims. It will be apparent to one of ordinary skill in the art.

1: underground pipeline 2: transmission and distribution lines
3: protection plate 110: device body
111: first space 112: second space
113: reactant 114: upper device body
114a: bulkhead 114b: reinforcing member
115: lower device body 120: connection part
121: connection hole 130: valve unit
131: valve member 132: elastic member
133: locking jaw 214a: first upper device body
214b: second upper device body

Claims (8)

an apparatus body accommodating a fluid in a first space provided therein, and accommodating a reactant in a second space provided under the first space; and
Including; a valve unit sealing the connection part of the first space and the second space;
The valve unit is provided to open the connection part when the pressure in the first space is lowered to contact the fluid and the reactant,
The device body includes an upper device body having the first space, and a lower device body connected to a lower portion of the upper device body and having the second space,
The connection part is a connection hole connecting the first space and the second space,
The valve unit is inserted into the connection hole to close the connection hole, and an elastic member disposed between the valve member and the upper device body to move the valve member. Device.
delete delete According to claim 1,
The valve member,
an end portion exposed to the outside of the connection hole, the end portion extending in a radial direction of the connection hole to contact the upper device body;
Underground facility protection device comprising a.
5. The method of claim 4,
The elastic member,
Underground facility protection device, which is disposed under the locking jaw, and releases the contact between the locking jaw and the upper device body by lifting the locking jaw when the pressure in the first space is lowered.
6. The method of any one of claims 1 or 4 or 5,
the fluid is water,
The reactant is an underground protection device, characterized in that it contains sodium (Na).
7. The method of claim 6,
The upper device body,
at least one partition wall provided in the first space; and
at least one reinforcing member protruding in the thickness direction;
Underground facility protection device comprising a.
8. The method of claim 7,
The upper device body,
a first upper device body in which the connection hole is formed; and
A second upper device body including a partition wall and a reinforcing member corresponding to the partition wall and the reinforcing member formed on the first upper device body;
Underground protection device, characterized in that the first space is formed by the contact of the first upper device body and the second upper device body.

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