KR100882185B1 - Under power line laying structure - Google Patents

Abstract

A structure for laying underground power line is provided to protect the power line from the external shock by forming the embossing projection in the inner circumference of the main pipe and the sub-pipe. The case body(100) has the predetermined internal space. The fixed groove is formed in the both side wall of the case body. The case cover(110) is connected to the one upper end of the case body by the hinge (H). The case cover opens and closes the inside of the case body. The main pipe(300) is arranged inside of the case body. The power line is inserted into the main pipe of hollow shape. One end of the fixed bar(500) is connected to the guide groove. The guide groove is formed in the circumference of the main pipe. The sub-pipe(400) is inserted into the other end of the fixed bar. The elastic body(900) elastically supports the fixed groove and the sub-pipe. The first elastic member is formed in the inside bottom surface of the case body. The first elastic member elastically supports the bottom of the main pipe. The second elastic member is formed in the inner side of the case cover. The second elastic member elastically supports the top of the main pipe.

Description

Underground power line embedding structure {UNDER POWER LINE LAYING STRUCTURE}

The present invention relates to an underground power line embedding structure, and more particularly, to support power lines of different sizes embedded in the ground, to form a separate storage space, and to prevent the power line from being twisted by an external impact. A power line buried structure.

In recent years, as industrialization and informatization accelerate, power consumption is increasing, and their supply is supplied from the production site to the consumer via cable.

These cables are installed in the ground in consideration of urban aesthetics and movement obstacles of people or vehicles, and are usually buried in the ground spaced from a sidewalk or the ground.

Conventionally, in embedding a power line in a tube, a plurality of different sizes of power lines are mixed and embedded.

However, in this case, there is a difficulty in selectively replacing the power lines, there is a problem that can not exclude the interference such as electromagnetic waves because the gap is not formed between the power lines.

In addition, there is a problem in that a tube supporting a power line is twisted when a shock is applied to the ground in a predetermined distance, and because it cannot provide a separate storage space, it is not possible to store parts necessary for future repair work. have.

The present invention has been made to solve the above problems, an object of the present invention is to support power lines of different sizes embedded in the ground, to form a separate storage space, the power line is twisted by an external impact An underground power line buried structure can be prevented.

Underground power line embedded structure of the present invention is a predetermined space is formed inside, the case body is formed with fixing grooves on both side walls; A case cover hinged to an upper end of the case body to open and close the inside of the case body; A main tube disposed inside the case body and having a hollow shape into which a power line is fitted; Fixing bars having one end connected to the guide grooves formed on the outer circumference of the main tube; Sub-tubes fitted to the other ends of the fixing bars; An elastic body that connects the fixing grooves and the sub tubes to elastically support the fixing grooves and the sub tubes; A first elastic part disposed on an inner bottom of the case body and elastically supporting the bottom of the main tube; And a second elastic part disposed on a lower surface of the case cover and elastically supporting an upper portion of the main tube, wherein the first elastic part includes a first pipe, a second pipe, a first elastic spring, and a first support. A plate is provided, wherein a lower end of the first pipe is disposed on an inner bottom surface of the case body, and a first locking protrusion is formed on an upper end of the first pipe, and the second pipe is fitted to the first pipe. A second locking protrusion is formed at a lower end of the second pipe, and the second locking protrusion is formed on the first locking protrusion, and the first elastic spring is disposed inside the first and second pipes, so that the inner bottom of the first pipe and the second pipe are separated. A lower surface is elastically supported, and the first support plate is installed on an upper end of the second pipe, and the second elastic portion is provided with a first 'pipe, a second' pipe, a first 'elastic spring, and a first' support. With plate The upper end of the first 'pipe is hinged to the inner bottom surface of the case cover, the lower end of the first' pipe is formed with a first locking projection, the second 'pipe is fitted into the first' pipe. And a second 'locking protrusion that is caught by the first' locking protrusion is formed at an upper end of the second 'pipe, and the first' elastic spring is disposed inside the first 'and 2' pipes so that the first 'pipe The inner upper surface and the upper surface of the second 'pipe of elastic support, the first' support plate is installed on the lower end of the second 'pipe, the outer layer of the main tube and the sub-pipe further comprises a layer of lead Is formed.
Here, the upper surface of the first support plate and the bottom surface of the first 'support plate is formed with a triangular pyramid-shaped fixing pin that can support the main tube by stabbing the outer periphery of the main tube, the sub-tube on the outer periphery Guide grooves are formed, and the elastic body includes: a first body fitted into the sub guide groove, a second body fitted into a fixing groove of the case body, and an elastic body elastically supporting the first body and the second body to each other. It is provided with a body, the inner circumference of the main tube and the sub tube is further formed with embossing projections.

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The present invention has the effect of supporting power lines of different sizes embedded in the ground, forming a separate storage space, and preventing the power lines from twisting due to external impact.

Hereinafter, with reference to the accompanying drawings, it will be described the underground power line buried structure of the present invention.

1 is a view showing the underground power line buried structure of the present invention. 2A through 2D are diagrams illustrating the underground power line embedding structure of FIG. 1. 3 is a view showing another embodiment of the underground power line buried structure of the present invention.

1 to 3, the underground power line buried structure of the present invention has a predetermined space therein, the case body 100 is formed with fixing grooves 120 on both side walls, the case body 100 Hinge (H) is connected to the upper end of the case cover 110 for opening and closing the inside of the case body 100, and the inside of the case body 100, the main line made of a hollow shape to which the power line is fitted Tube 300, fixing bars 500, one end of which is connected to guide grooves 320 formed on the outer circumference of the main tube 300, and the sub-pipes 400 that are fitted to the other end of the fixing bars 500 And an elastic body 900 which elastically supports the fixing grooves 120 and the sub-pipes 400 by connecting the fixing grooves 120 and the sub-pipes 400 to each other, and the case body 100. Is disposed on the inner bottom, the first elastic portion for elastically supporting the bottom of the main tube 300, It disposed on the lower surface of the group case cover 110 and includes a second elastic portion for elastically supporting an upper portion of the main pipe 300.

The first elastic part includes a first pipe 710, a second pipe 720, a first elastic spring 730, and a first support plate 740, wherein a lower end of the first pipe 710 is provided. Is disposed on an inner bottom surface of the case body 100, and a first catching protrusion 711 is formed at an upper end of the first pipe 710, and the second pipe 720 is fitted to the first pipe 710. At the bottom of the second pipe 720, a second catching protrusion 721 that is caught by the first catching protrusion 711 is formed, and the first elastic spring 730 is the first and second pipes 711. And an inner surface of the first pipe 711 and a lower surface of the second pipe 721 to elastically support the first pipe 711, and the first support plate 740 may be formed of the second pipe 720. It is installed on the top.

The second elastic portion includes a first 'pipe 810, a second' pipe 820, a first 'elastic spring 830, and a first' support plate 840, wherein the first ' An upper end of the pipe 810 is hinged 850 to an inner bottom surface of the case cover 110, and a first 'engaging protrusion 811 is formed at a lower end of the first' pipe 810, and the second ' The pipe 820 is fitted to the first 'pipe 810, the second' engaging projection 821 is formed on the upper end of the second 'pipe 820 is caught by the first' engaging projection 811, The first 'elastic spring 830 is disposed in the first' and 2 'pipes 810 and 820 to form an upper surface of the first' pipe 810 and the second 'pipe 820. The upper surface is elastically supported, and the first 'support plate 840 is installed at the lower end of the second' pipe 820.

Triangular pyramid-shaped fixing pins capable of supporting the main tube 300 by puncturing an outer circumference of the main tube 300 on an upper surface of the first support plate 740 and a bottom surface of the first 'support plate 810. 741, 841 are formed.

The sub-pipes 400 adjacent to each other among the sub-pipes 400 are supported by the auxiliary support bar 600, and the auxiliary support bar 600, the fixing bars 500, and the main pipe 300 are separated from each other. A storage space (a) surrounded by an outer circumference is formed.

A first hinge portion H1 is provided on an outer circumference of the main tube 300, and a second hinge portion H2 is provided outside the sub tube 400, and the first hinge portion H1 and the The second hinge portion H2 may be hinged to each other by the auxiliary fixing bar 400 '.

In addition, a layer (L) made of lead may be further formed on the outer circumference of the main tube 300 and the sub tubes 400.

In addition, sub guide grooves 410 are formed on an outer circumference of the sub pipe 400, and the elastic body 900 includes a first body 910 fitted to the sub guide groove 410, and a case body 100. The second body 920 to be fitted into the fixing groove 120 of the) and the elastic body 930 to elastically support the first body 910 and the second body 920 to each other.

In addition, embossing protrusions 310 are formed on the inner circumferences of the main tube 300 and the sub tube 400. Therefore, since a predetermined space is spaced apart from the outer circumference of the power line and the inner circumference of the pipes fitted to the main pipe 300 and the sub pipe 400, a constant buffer space is formed. The embossing protrusion 310 may protect the power line from an external impact.

1 is a view showing the underground power line buried structure of the present invention.

2A through 2D are diagrams illustrating the underground power line embedding structure of FIG. 1.

3 is a view showing another embodiment of the underground power line buried structure of the present invention.

Claims (3)

A case body having a predetermined space formed therein and fixing grooves formed at both side walls thereof; A case cover hinged to an upper end of the case body to open and close the inside of the case body; A main tube disposed inside the case body and having a hollow shape into which a power line is fitted; Fixing bars having one end connected to the guide grooves formed on the outer circumference of the main tube; Sub-tubes fitted to the other ends of the fixing bars; An elastic body that connects the fixing grooves and the sub tubes to elastically support the fixing grooves and the sub tubes; A first elastic part disposed on an inner bottom of the case body and elastically supporting the bottom of the main tube; And Is disposed on the lower surface of the case cover, including a second elastic portion for elastically supporting the upper portion of the main tube, The first elastic portion is provided with a first pipe, a second pipe, a first elastic spring, and a first support plate, The lower end of the first pipe is disposed on the inner bottom surface of the case body and the first locking projection is formed on the upper end of the first pipe, Wherein the second pipe is fitted to the first pipe, the lower end of the second pipe is formed with a second locking projection that is caught by the first locking projections, The first elastic spring is disposed inside the first and second pipes to elastically support the inner bottom surface of the first pipe and the bottom surface of the second pipe, The first support plate is installed on the top of the second pipe, The second elastic portion includes a first 'pipe, a second' pipe, a first 'elastic spring, and a first' support plate, An upper end of the first 'pipe is hinged to an inner bottom surface of the case cover, and a first' hanging protrusion is formed at a lower end of the first 'pipe. The second 'pipe is inserted into the first' pipe, the second 'engaging projection is formed on the upper end of the second' pipe projection projection, The first 'elastic spring is disposed in the first', 2 'pipe to elastically support the upper surface of the inner surface of the first' pipe and the second 'pipe, The first 'support plate is installed at the lower end of the second' pipe, Underground power line buried structure, characterized in that the outer periphery of the main tube and the sub-tube further comprises a layer made of lead. delete The method of claim 1, Triangular pyramid-shaped fixing pins are formed on an upper surface of the first support plate and a bottom surface of the first 'support plate to support the main tube by puncturing the outer circumference of the main tube. Sub guide grooves are formed on the outer circumference of the sub pipe, The elastic body includes a first body fitted into the sub guide groove, a second body fitted into the fixing groove of the case body, and an elastic body elastically supporting the first body and the second body. Underground power line embedding structure, characterized in that the inner circumference of the main tube and sub tube is further formed embossing projections.

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