KR20190132839A - Protection apparatus of undergrounded cable - Google Patents

Abstract

The present invention relates to an underground cable protection device which is buried in the ground and protects an underground cable. The underground cable protection device comprises: a storage container in which holes are defined; a gas filling unit accommodated inside the storage container and filled with a gas which is lighter than air; and a powder filling unit accommodated inside the storage container to be arranged on the gas filling unit and filled with powder. The underground cable protection device of the present invention can be easily identified whether an impact is applied to the protection device for protecting the underground cable during excavation.

Description

Underground cable protection device {PROTECTION APPARATUS OF UNDERGROUNDED CABLE}

The present invention relates to a protection apparatus for underground cables, and more particularly, to an apparatus for embedding underground in conjunction with underground cables to protect underground cables from external forces.

With the rapid increase in power consumption and information communication, power cables and communication cables are buried underground in a certain depth from sidewalks and road grounds, taking into account the urban aesthetics, the movement of people and vehicles.

On the other hand, when cables are buried underground, excavation work may be required for road repair or cable repair. In this case, the underground cable is not visible to the operator's eyes, and thus the underground cable may be damaged during the excavation.

Therefore, in order to prevent the underground cable from being damaged during the excavation, a protective device is installed on the underground cable, but it is not easy for an operator to check whether the protective device is impacted, and the impact is applied to the underground cable. Underground cables are damaged.

SUMMARY OF THE INVENTION An object of the present invention is to provide a protection apparatus for underground cables, which can be easily identified whether or not an impact is applied to the protection apparatus for protecting underground cables during excavation.

In order to achieve the above object of the present invention, the underground cable protection device embedded in the ground to protect the underground cable includes a storage container, a gas filling unit, and a powder filling unit. Holes are defined in the container. The mantissa filling unit is filled in a gas that is lighter than air and is accommodated in the storage container. The powder filling part is accommodated in the storage container and disposed on the gas filling part, and the powder filling part is filled with powder.

In one embodiment of the present invention, the storage container includes a bottom portion, a side wall portion connected to the bottom portion, and a cover portion coupled to the side wall portion to cover the gas filling portion and the powder filling portion. In addition, the holes are defined in a shape passing through the cover part.

In one embodiment of the present invention, the protection device may further include a frame portion. The frame portion is disposed between the powder filling portion and the gas filling portion. In addition, the frame portion includes frames intersecting with each other, and vents are defined between adjacent frames among the frames.

In one embodiment of the present invention, the storage container further includes a frame support coupled to the inner side of the side wall. The frame portion rests on the frame support.

In one embodiment of the present invention, the storage container includes a first coupling portion and a second coupling portion. The first coupling part is disposed at a portion of the cover part that is in contact with the side wall part. The second coupling portion is disposed on an upper end of the sidewall portion and is coupled to the first coupling portion.

In one embodiment of the present invention, the first coupling portion and the second coupling portion may be coupled to each other in a manner in which one receives the other.

In one embodiment of the present invention, the thickness of the cover portion may be thinner than the thickness of the bottom portion.

In one embodiment of the present invention, the cover portion may be formed of a substrate having brittleness.

In one embodiment of the present invention, the gas filling unit may include a plurality of sub-gas filling unit and the shielding unit connected to each other. The shielding portion of the gaseous filling portion intersects between two sub gas filling portions adjacent to each other among the plurality of sub gas filling portions.

In one embodiment of the present invention, the powder filling portion may include a plurality of sub powder filling portions and the shielding portion connected to each other. The shielding portion of the powder filling portion intersects between two sub powder filling portions adjacent to each other among the plurality of sub powder filling portions.

In one embodiment of the present invention, the gas may include helium gas.

In one embodiment of the present invention, the powder may be a colored powder.

In one embodiment of the present invention, the powder may be red.

According to the present invention, the worker who excavates the underground where the underground cable is embedded can recognize that the powder of the protective device is blown out of the protective device by the gas and recognize that the excavator is in contact with the protective device. Thus, the operator can take measures such as stopping the longitudinal excavation work on the ground, whereby the underground cable embedded in the lower part of the protection device can be prevented from being broken due to the excavation work.

1 is a diagram showing an underground cable protection device embedded in the ground to protect the underground cable according to an embodiment of the present invention.
2 is an exploded perspective view of the underground cable protection device shown in FIG.
3 is a cross-sectional view illustrating a plane taken along II ′ of FIG. 2.
4 is a view for explaining the operation of the protection device when an external force is applied to the protection device side.
5 is an exploded perspective view of a protective device according to another embodiment of the present invention.

Hereinafter, the most preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the technical idea of the present invention. . First of all, in adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are used as much as possible even if displayed on different drawings. In addition, in describing the present invention, when it is determined that the detailed description of the related well-known configuration or function may obscure the gist of the present invention, the detailed description thereof will be omitted.

1 is a diagram showing an underground cable protection device embedded in the ground to protect the underground cable according to an embodiment of the present invention.

Referring to FIG. 1, underground cable 50 is embedded in underground 10. In this embodiment, the underground cable 50 may be a power cable embedded in the underground 10, and in another embodiment, the underground cable 50 may be a communication cable embedded in the underground 10.

The underground cable protection device 100 (hereinafter referred to as "protection device") is embedded in the underground 10 to protect the underground cable 50. More specifically, the protection device 100 is embedded in the underground 10 together with the underground cable 50, but the protection device 100 is disposed adjacent to the sidewalk block 5 installed above the ground surface than the underground cable 50. The protection device 100 protects the underground cable 50 from the external force applied from the ground surface to the ground side. For example, when an excavation operation is performed on the sidewalk block 5 and the ground 10 using an excavator, the protection device 100 protects the underground cable 50 from external force applied from the excavator.

In this embodiment, the longitudinal direction of the protection device 100 may be parallel to the longitudinal direction of the underground cable 50. That is, the protection device 100 may extend in the direction in which the underground cable 50 extends and overlap the underground cable 50 when viewed in plan view.

FIG. 2 is an exploded perspective view of the underground cable protection device illustrated in FIG. 1, and FIG. 3 is a cross-sectional view illustrating a cut along the line II ′ of FIG. 2. On the other hand, in the exploded perspective view of Figure 2, each of the components may have a shape that extends substantially further in the longitudinal direction of the underground cable as shown in Figure 1, but showing the overall shape of each component For the sake of convenience, each component is shown reduced in relation to the longitudinal direction.

2 and 3, the protection device 100 includes a storage container 180, a gas filling part 160, a frame part 150, and a powder filling part 130.

The storage container 180 has a storage space therein to accommodate the gas filling part 160, the frame part 150, and the powder filling part 130. In this embodiment, the container 180 has a bottom portion 181, sidewall portions 182, cover portion 110, first coupling portions 120, second coupling portions 185, and frame supports 188. ).

The bottom part 181 may have a plate shape, and the gas filling part 160, the frame part 150, and the powder filling part 130 are sequentially disposed on the bottom part 181. Each of the sidewall portions 182 is connected to the bottom portion 181. In this embodiment, each of the side wall portions 182 is connected in a direction perpendicular to the bottom portion 181, and thus is accommodated in the storage container 180 by the structure of the bottom portion 181 and the side wall portions 182. Space can be defined.

The cover 110 is coupled to the upper end of each of the side wall portions 182 to cover the storage space of the storage container 180. In this embodiment, the cover 110 may be a substrate having brittleness, such as a plastic plate.

In this embodiment, the second thickness T2 of the cover 110 may be smaller than the first thickness T1 of the bottom 181. Therefore, damage to the cover 110 may be induced by an external force applied to the cover 110.

Holes 105 are formed in the cover 110. Each of the holes 105 has a shape penetrating the cover part 110. Accordingly, when the external force applied to the cover 110 side is transmitted to the powder filling unit 130 and the gas filling unit 160, the powder filled in the powder filling unit 130 and the gas filled in the gas filling unit 160 are covered. It may be exhausted to the outside of the storage container 180 through the holes 105 of the unit 110. This will be described in more detail with reference to FIG. 4.

The first coupling parts 120 may be provided along the inner circumference of the cover part 110 to face the upper ends of the side wall parts 182. The first coupling parts 120 are coupled to the second coupling parts 185 to couple the cover part 110 to the side wall parts 182. In this embodiment, each of the first coupling parts 120 is provided. The silver may have a shape of a protrusion protruding from the inside of the cover part 110.

The second coupling parts 185 may be located on top of the sidewall parts 182. As described above, when each of the first coupling parts 120 has a shape of a protrusion, each of the second coupling parts 185 may be defined by partially removing upper ends of the sidewall parts 182. Therefore, each of the first coupling parts 120 may be accommodated in a corresponding second coupling part of the second coupling parts 185 and coupled with the second coupling part.

In another embodiment, each of the second coupling portions 185 may have a shape protruding from the top of the sidewall portions 182, and each of the first coupling portions 120 protrudes from the inside of the cover portion 110. It may have a shape.

The frame supports 188 are spaced apart from each other and fixed inside the sidewall portions 182. In this embodiment, each top surface of the frame supports 188 may have a flat shape. Therefore, the frame part 150 may be stably seated on the frame support parts 188.

The gas filling unit 160 is accommodated in the storage container 180. In this embodiment, the gas filling unit 160 may be implemented by filling a container made of vinyl or a thin plastic plate with a gas lighter than air, for example, helium gas or hydrogen gas.

In this embodiment, the gas filling unit 160 may have a structure divided from each other. In more detail, the gas filling unit 160 includes sub gas filling units 161, and the sub gas filling units 161 are connected to each other, and two sub gas filling units adjacent to each other among the sub gas filling units 161 are provided. The shield 162 is positioned between the 161. Therefore, even if the two sub gas charging parts 161 are positioned adjacent to each other, the gas is not mixed between the two sub gas charging parts 161 by the shielding part 162.

As described above, when the gas filling unit 160 includes the sub gas filling units 161, one hole is generated in the gas filling unit 60 to exhaust all of the gas filled in the gas filling unit 60. Can be prevented. Accordingly, in this embodiment, since the gas is exhausted corresponding to the portion where the external force is substantially generated in the gas filling unit 60, the operation of the protection device 100 to be described with reference to FIG. 4 may be performed more accurately.

The frame part 150 is seated on the frame support parts 188 and disposed inside the storage container 180, and the frame part 150 is positioned between the gas filling part 160 and the powder filling part 130. Therefore, a space is formed between the gas filling part 160 and the powder filling part 130 by the frame part 150, so that the gas exhausted from the gas filling part 160 may move in the space.

In this embodiment, the frame unit 150 includes first frames 151 and second frames 152 connected to the first frames 151. The first frames 151 intersect the second frames 152.

In this embodiment, the first frames 151 and the second frames 152 may be implemented with thin wood or wires.

According to the structure of the first and second frames 151 and 152 described above, the first and second frames 151 and 152 are connected to each other, but vents 155 are defined between adjacent frames. Therefore, the gas discharged from the gas filling unit 160 may be provided to the powder filling unit 130 through the vents 155.

The powder filling unit 130 is accommodated in the storage container 180, and the powder filling unit 130 is disposed on the gas filling unit 160 with the frame unit 150 interposed therebetween. In this embodiment, the powder filling unit 130 may be implemented by filling the powder 185 in a container made of a vinyl or thin plastic plate. In addition, the powder 185 may be a powder of various colors such as red powder such as white powder, blue powder, yellow powder, and the like. In addition, the powder 185 may be preferably small in size of the particles of the powder 185 and small in weight of the particles of the powder 185 so that the powder 185 may be blown by the gas filled in the gas filling unit 160.

In this embodiment, the powder filling unit 130 may have a structure divided from each other. More specifically, the powder filling unit 130 includes sub powder filling units 131, and the sub powder filling units 131 are connected to each other, and two sub powder filling units adjacent to each other among the sub powder filling units 131 are provided. The shield 132 is positioned between the 131. Therefore, even if the two sub powder filling parts 131 are positioned adjacent to each other, the powder 135 is not mixed between the two sub powder filling parts 131 by the shielding part 132.

As described above, when the powder filling part 130 is composed of the sub powder filling parts 131, the powder may be uniformly distributed over the entire area of the powder filling part 130, and the powder filling part 130 may be Local location of the powder can be prevented.

4 is a view for explaining the operation of the protection device when an external force is applied to the protection device side.

1 and 4, a protection device 100 that receives an external force 200 from the outside is disclosed. For example, when the protection device 100 is embedded in the ground 10 together with the underground cable 50, the external force 200 may be applied to the protection device 100 by an excavation operation using an excavator.

In this case, since the protection device 100 is buried above the underground cable 50 in the underground 10, the protection device 100 first transmits the external force 200 directly to the underground cable 50 so that the underground cable 50 is underground. The 50 is prevented from being broken.

In this embodiment, when the external force 200 is applied to the protective device 100, the protective device 100 informs the worker that the excavation position of the ground 10 is close to the underground cable 50. The operation of the protection device 100 associated with this will be described below.

When the external force 200 is applied to the protection device 100, the external force 200 is sequentially transmitted to the cover part 110, the powder filling part 130, the frame part 150, and the gas filling part 160. As described above, when the cover 110 is made of a brittle substrate such as a plastic plate, when the external force 200 generated by an object having a large weight, such as an excavator, contacts the cover 110 The unit 110 is broken.

Meanwhile, as described above, each of the container accommodating the powder 135 in the powder filling part 130 and the container accommodating the gas 165 in the gas filling part 160 are made of vinyl or a thin plastic plate, Since the frames 151 and the second frames 152 are made of thin wood or wires, when the external force 200 is transmitted to the powder filling part 130 and the gas filling part 160, the powder filling part 130 is provided. The container containing the powder 135 of) and the container containing the gas 165 of the gas filling unit 160 are damaged.

As a result, the gas 165 is discharged from the gas filling unit 160, and the powder 135 is discharged from the powder filling unit 130. In addition, since the gas 165 discharged from the gas filling unit 160 is lighter than air, the gas 165 is provided toward the powder 135 discharged from the powder filling unit 130 through the vents 155. Therefore, the powder 135 may be blown upward by the gas 165, and the powder 135 may be exhausted to the outside of the protective device 100 through the holes 105 formed in the cover 110.

In this embodiment, even if the external force 200 acts on the frame part 150, since some space remains between the gas filling part 160 and the powder filling part 130 by the frame part 150, the gas filling part ( The process of moving the gas 165 discharged from the upper side to the upper side may be performed more easily.

When the powder 135 is blown out of the protective device 100 by the gas 165 on the principle described above, the operator can recognize the blowing powder 135, so that the operator can see the excavator ( 100). Thus, the worker can take measures such as stopping the longitudinal excavation work on the ground, thereby preventing the underground cable embedded in the lower portion of the protection device 100 from being damaged due to the excavation work.

5 is an exploded perspective view of the protection device 101 according to another embodiment of the present invention. In FIG. 5, components described above with reference to FIG. 2 are denoted by reference numerals, and redundant descriptions of the components are omitted.

Referring to FIG. 5, the protection device 101 includes a storage container 180, a powder filling part 130-1, and a gas filling part 160-1.

In the embodiment described above with reference to FIG. 2, the powder filling part 130 of FIG. 2 includes sub powder filling parts divided into a plurality. However, in the embodiment shown in FIG. 5, the powder filling part 130-1 is divided into a plurality of parts. It may have a one-piece shape rather than a divided structure.

In addition, in the embodiment described with reference to FIG. 2, the gas filling unit 160 of FIG. 2 includes a plurality of divided sub gas filling units, but in the embodiment illustrated in FIG. 5, the gas filling unit 160-1 may include: Rather than being divided into a plurality of structures, it may have one integral shape.

In addition, the frame part 150 of FIG. 2 described with reference to FIG. 2 may be omitted as a component of the protection device 101 according to this embodiment. In this case, in another embodiment, the powder filling unit 130-1 and the gas filling unit 160-1 may have an integrated shape. Therefore, the powder filling unit 130-1 and the gas filling unit 160-1 may be integrally formed to reduce the manufacturing cost, and the powder filling unit 130-1 and the gas filling unit 160-1 may be generated. ) Is manufactured in an integrated shape, an effect of easy handling of the powder filling part 130-1 and the gas filling part 160-1 may occur.

Although a preferred embodiment according to the present invention has been described above, modifications can be made in various forms, and those skilled in the art may make various modifications and modifications without departing from the claims of the present invention. It is understood that it may be practiced.

100: underground cable protection device 10: underground
50: underground cable 180: storage container
105: hole 160: gas charging part
150: frame portion 130: powder filling portion

Claims (12)

In underground cable protection device which is buried underground and protects underground cable,
A storage container in which holes are defined;
A gas charging part accommodated in the storage container and filled with gas lighter than air; And
And a powder filling part accommodated in the storage container and disposed on the gas filling part, and filled with powder. The method of claim 1, wherein the storage container,
Bottom;
A side wall portion connected to the bottom portion; And
A cover part coupled to the side wall part to cover the gas filling part and the powder filling part,
Underground cable protection device characterized in that the hole is defined in the shape passing through the cover. The method of claim 2,
Further comprising a frame portion disposed between the powder filling portion and the gas filling portion,
The frame portion includes frames connected to each other,
Underground cable protection device characterized in that the vents are defined between the adjacent frames of the frame. The method of claim 3, wherein the storage container,
Further comprising a frame support coupled to the inner side of the side wall,
And the frame portion is seated on the frame support. The method of claim 2, wherein the storage container,
A first coupling part disposed at a portion of the cover part that is in contact with the side wall part; And
A second coupling part disposed on an upper end of the sidewall part and coupled to the first coupling part;
And the first coupling portion and the second coupling portion are coupled to each other in such a manner that one receives the other. The underground cable protection device according to claim 2, wherein the cover part is thinner than the bottom part. The underground cable protection device according to claim 2, wherein the cover part is formed of a brittle substrate. The method of claim 1, wherein the gas filling unit,
A plurality of sub gas charging parts connected to each other; And
And a shielding part interposed between two sub gas filling parts adjacent to each other among the plurality of sub gas filling parts. The method of claim 1, wherein the powder filling unit,
A plurality of sub powder filling parts connected to each other; And
And a shielding part interposed between two sub powder filling parts adjacent to each other among the plurality of sub powder filling parts. The underground cable protection device of claim 1, wherein the gas comprises helium gas. The underground cable protective device according to claim 1, wherein the powder is a colored powder. 12. The underground cable protective device according to claim 11, wherein the powder is a red powder.

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