KR101091116B1 - Protection pipe for insulation mounting an underground line - Google Patents

Abstract

PURPOSE: A protection pipe for loading and insulating an underground distribution line is provided to block contact between underground distribution lines by respectively arranging the underground distribution line inserted to an inner side. CONSTITUTION: A flange(111) is formed in the backend and front end of a protection pipe. A bonding groove(112) is formed along the longitudinal direction of the both side ends of the protection pipe. An upper and a lower panel(110, 110') are made of a metal material. The upper and lower panel are arranged to be mutually faced. A first pipe body(100) consists of the right and left plates(130, 130') of a rubber material.

Description

Protection Pipe For Insulation Mounting An Underground Line}

The present invention relates to a protective pipe for underground distribution line insulation mounting.

In general, in order to supply electricity to residential or industrial complexes, pipes are embedded in the ground and wires are wired inside them, which minimizes the exposure of underground lines and prevents damage to underground cables from external interference. There is such a thing to bury underground.

As described above, the underground wire is accommodated inside the tube and protected. When the covering of any one of the underground wires is peeled off, an electric short circuit and a fire caused by contact with other wires as well as a short circuit problem There was a very serious problem that could cause all underground distribution lines to burn out.

However, in the case of pipes buried underground and underground cables are housed inside, if the exterior surface is corroded by rain or sewage or its damage is caused by various external factors, it is buried for maintenance and repair. Repair work and replacement work are carried out through excavation work to expose the pipe to the outside.

On the other hand, the excavation operation can be quickly and easily withdraw the pipe buried in the ground using a conventional fork-lane, the mediation of the fork-rain bucket in the situation that the driver of the forkrain does not know the exact position of the pipe If you hit the outer surface of the tube housing the underground distribution line during the excavation, the pipe may be cracked or damaged by the impact, and the damage to the underground distribution line accommodated in the tube as well as to stop the electricity supply. There was a serious problem bringing.

The present invention has been made in order to solve the above problems, by individually accepting the underground distribution line through the insulation support to block the interference caused by the contact between the underground distribution line, the underground distribution line accommodated inside the pipe main body The purpose is to provide a protective pipe for underground distribution line insulation mounting that can be safely protected from.

The present invention for achieving the above object,

A metal upper and lower plate having flanges formed at the front and rear ends, and coupling grooves formed along the longitudinal direction of both ends, and having arc-shaped cross sections disposed to face each other; It has sealing protrusions and sealing grooves formed at the front and rear ends, and coupling protrusions formed along the longitudinal direction of the upper and lower ends, and is disposed between the pair of upper and lower plates so that the coupling protrusions can be attached to and detached from the coupling grooves. The first pipe body consisting of a left and right plate of rubber material having an arc-shaped cross section which is easily joined:

A body part installed on the lower plate; A support part installed on the body part so as to be lifted and lowered through a lifting bar; A plurality of shock absorbing support consisting of a spring built in the body portion to support the support in one direction:

A second pipe main body having a lattice structure therein and having an insulation support into which underground distribution lines are inserted, and installed on an upper surface of the support portion:

Settlement detection sensor which is built in the body part of the buffer support and detects the settlement of the second pipe body and outputs a detection signal:

It is electrically connected to the settlement sensor and the wire is installed on the ground, it characterized in that it comprises a transmitter for receiving the detection signal from the settlement sensor sent to the outside.

According to a preferred embodiment of the present invention, it is possible to install each of the underground distribution lines inserted inward through the insulating support provided inside the second pipe main body can not only block the contact between the underground distribution line, but also any one of the received underground distribution line Even if sheaths are removed from the underground distribution lines, they are accommodated through the insulation support, so that electric safety accidents caused by intermixing can be prevented in advance, and the underground distribution lines are accommodated in the insulation support to extend and maintain the underground distribution lines. It is very easy to identify the underground cable line at the time, which brings the convenience of work.

In addition, the first pipe main body, the buffer support and the second pipe main body, the settlement sensor and transmitter, when the external pipe, such as the bucket of the fork lane when the first pipe main body presses the first pipe body through the primary cushioning function It prevents damage by external force, and furthermore, when a larger external force acts as the first pipe body and the second pipe body, the settlement sensor detects it and delivers the detection signal to the manager through the transmitter, so that the administrator can respond quickly. There is an advantage that can prevent damage to the second pipe body through and protect the underground distribution line accommodated in the second pipe body.

1 is a perspective view showing the installation state of the protective pipe for underground distribution line insulation mounting according to the present invention.
Figure 2 is an exploded perspective view of the protective pipe for underground distribution line insulation mounting according to the present invention.
Figure 3 is a cross-sectional view of the protective pipe for underground distribution line insulation mounting according to the present invention.
Figure 4 is a view for explaining the action of the protective pipe for underground distribution line insulation mounting according to the present invention.

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

In describing the present invention, when it is determined that detailed descriptions of related known functions or configurations may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted.

1 and 2, the insulation tube for protecting the underground distribution line according to the present invention, the first pipe main body 100, the buffer support 200, the second pipe main body 300, the settlement detection sensor 400, the transmitter It consists of 500, and serves to protect the underground distribution line (1) inserted therein from the outside.

The first pipe body 100 is composed of a pair of upper and lower plates (110,110 ') having an arc-shaped cross section of a metal material, and a pair of left and right plates (130, 130') having an arc-shaped cross section of a rubber material. To protect the second pipe main body 300 embedded in the ground and inserted into the external force.

In the present embodiment, when the pair of upper and lower plates 110 and 110 'and the left and right plates 130 and 130' are assembled (combined) with each other, a single circular tube is formed.

At the front and rear ends of the upper and lower plates 110 and 110 ′, the flange 111 may be connected to the first pipe main body 100 and the other first pipe main body 100 by fastening means (for example, bolt nuts). Is integrally formed, and coupling grooves 112 are formed along the longitudinal direction at both ends of the longitudinal direction.

The coupling groove 112 is detachably provided with a coupling protrusion 133 formed on the upper and lower surfaces of the left and right plates 130 and 130 '.

In the present embodiment, as one preferred embodiment, the material of the upper and lower plates 110 and 110 'is specified as a metal, but this is only one embodiment, and various known materials may be applied as necessary. .

Sealing protrusions 131 and sealing grooves 132 are integrally formed at the front and rear ends of the left and right plates 130 and 130 ', respectively, and coupling protrusions 133 formed along the longitudinal direction are integrally formed on the upper and lower surfaces thereof. do.

Here, the sealing protrusion 131 and the sealing groove 132 are coupled to each other when the first pipe main body 100 and the other first pipe main body 100 are coupled to each other, so that the first pipe main body 100 and the first pipe different from each other. The main body 100 serves to block the inflow of soil and infiltration water that can be introduced through the portion (boundary line) in contact with each other.

2 and 3, the buffer support 200 is composed of a body portion 210, a support portion 220, and a spring 230, and is built in the first pipe main body 100 so that the first pipe main body ( The second pipe body 300 inserted into the interior of the function to support the shot.

The body portion 210 is a known cylinder having a space provided therein, and is fixed to the lower plate 110 ′ through a fastening means (for example, a screw bolt).

In the present embodiment, the inner bottom surface of the body portion 210 is integrally formed with a circular dolme (not shown) protruding upward, wherein the dolte (not shown) is fixed to the spring 230 to be described later Function.

Inside the body 210, a spring 230 and a settlement detection sensor 400 are respectively installed.

The support part 220 is a well-known cylinder that has a lifting bar 221 protruding downward, and is installed to be liftable on the body part 210 to support the second pipe body 300.

In particular, the bottom of the elevating bar 221 is formed integrally with the same dolte (not shown) of the above-mentioned dolte (not shown) of the body portion 210, the function is also the same as the dolte (not shown) mentioned above Do.

The spring 230 is built in the body portion 210 to support the support portion 220 is shot upward.

As mentioned above, the spring 230 has one end and the other end fixed to a bolster (not shown) of the body 210 and the support 220, respectively.

The second pipe main body 300 is a known synthetic resin tube, and an insulating support 310 having a lattice structure is installed therein.

Here, the insulating support 310 is composed of a synthetic resin material, and serves to prevent the underground distribution line 1 inserted into the inner contact with each other and to reinforce the second pipe body 300.

In the present embodiment, the second pipe body 300 is installed and supported on the buffer support 200.

The settlement detection sensor 400 is installed in the body portion 210 of the buffer support 200, and functions to detect the settlement of the second pipe main body 300 to output a detection signal.

In the present embodiment, the sinking detection sensor 400 is located inside the spring 230, and when the lifting bar 221 descends, a protrusion (not shown) protruding upward is pressed to detect a wire (not shown). It is transmitted to the transmitter 500 through the.

The settlement detection sensor 400 is any one of a known switch or a proximity sensor, and various detection means known in the art may be applied as necessary.

The transmitter 500 is electrically connected to the settlement sensor 400 through a wire and installed on the ground, and receives the detection signal from the settlement sensor 400 and transmits it to the outside.

Since the transmitter 500 is already well known in the art, a detailed description thereof will be omitted.

On the other hand, in the case of the present embodiment, although not shown in detail, it is preferable that the settlement sensor 400 or the transmitter 500 is provided with a power supply.

Referring to the operation of the present invention made of the above configuration as follows.

First, the assembly sequence of the insulated tube according to the present invention will be described. In the state where the lower plate 110 'is disposed on the floor, the buffer support 200 is disposed at predetermined intervals along the inner surface longitudinal direction of the lower plate 110'. Then install and fix it by means of fastening members (screw bolts).

As described above, in the state in which the buffer support 200 is installed on the lower plate 110 ', the coupling protrusion 133 of the left and right plates 130 and 130' is fixed to the coupling groove 112 of the lower plate 110 ', The second pipe main body 300 is seated on the upper surface of the buffer support 200 and then fixed.

In addition, when the coupling groove 112 of the upper plate 110 is fixed to the coupling protrusion 133 of the left and right plates 130 and 130 ', the insulating tube according to the present invention can be completed.

The insulating tube completed through the assembly process, as shown in Figure 3, it may be buried in the ground (E), wherein the settlement sensor 400 and the transmitter 500 is to be interconnected via a wire desirable.

As described above, when the assembly is completed, the underground distribution line 1 may be installed on the insulating support 310 of the second pipe main body 300, respectively.

Since the dismantling procedure of the insulation tube according to the present invention may be performed in the reverse order to the above-mentioned method, description thereof will be omitted.

As shown in FIG. 4, when the insulated tube according to the present invention is pressed by the bucket B of the fork-lane, the upper plate 110 is pressed downward by the bucket B, and the upper plate 110 is lowered. The left and right plates 130 and 130 'of the rubber material being supported are gradually bent.

As described above, when the bucket B of the fork lane presses the upper plate 110 even more, the inner surface of the upper plate 110 contacts with the outer surface of the second pipe main body 300 in which the underground distribution line 1 is received and descends together. As the second pipe main body 300 descends, the lifting bar 221 of the buffer support 200 which is supporting it is gradually lowered, and the spring 230 supporting the lifting bar 221 is compressed. do.

Then, when the lifting bar 221 descends and comes in contact with the settlement detection sensor 400 protruding upward, the settlement detection sensor 400 outputs a detection signal, and the output detection signal is grounded via a wire. Is transmitted to the exposed transmitter 500.

Transmitter 500 received the detection signal from the settlement detection sensor 400 is transmitted to the central control room (not shown) where the manager resides, the manager who received this can immediately move to the site to take action quickly Will be.

On the other hand, if the bucket (b) of the fork-lane that was pressing the upper plate 110 is removed in the reverse order of the above-mentioned order.

According to a preferred embodiment of the present invention, it is possible to install each of the underground distribution line (1) inserted inward through the insulating support 310 installed inside the second pipe body 300 can not only block the contact between the underground distribution line In addition, even if the cover is removed from any one of the underground distribution line (1) accommodated, there is an advantage that can prevent the electrical safety accident due to the contact because it is accommodated through the insulation support, respectively.

In addition, the first pipe main body 100, the buffer support 200 and the second pipe main body 300, the settlement sensor 400 and the transmitter 500, the external force such as the bucket (B) of the fork crane When the pipe main body 100 is pressurized, the second pipe main body 300 is prevented from being damaged by an external force through a primary shock absorbing function, and further greater external force is applied to the first pipe main body 100 and the second pipe main body. When acting as (300), the sedimentation detection sensor 400 detects this and delivers a detection signal to the manager through the transmitter 500, thereby preventing and removing damage to the second pipe main body 300 through prompt response of the manager. There is an advantage that can protect the underground distribution line (1) accommodated in the two-pipe body (300).

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention as defined by the appended claims.

100: first pipe body 110: top plate 110 ': bottom plate
111: flange 112: coupling groove 130: seat plate
130 ': right plate 131: sealing protrusion 132: sealing groove
133: engaging projection 200: buffer support 210: body portion
220: support portion 230: spring 300: second pipe body
310: insulation support 400: settlement detection sensor 500: transmitter
1: underground distribution line E: underground B: bucket

Claims (1)

Upper and lower plates 110 and 110 'of metal having an arc-shaped cross section disposed opposite to each other, having flanges 111 formed at the front and rear ends and coupling grooves 112 formed along the longitudinal direction of both ends. and; A sealing protrusion 131 and a sealing groove 132 formed at the front and rear ends, respectively, and a coupling protrusion 133 formed along the longitudinal direction of the upper and lower ends, and between the pair of upper and lower plates 110 and 110 '. The first pipe body (100) consisting of a rubber material left and right plates (130, 130 ') having an arc-shaped cross section disposed on the coupling protrusion (133) detachably coupled to the coupling groove (112) via:
A body portion 210 installed on the lower plate 110 ′; A support part 220 installed on the body part 210 so as to be lifted and lowered through the lifting bar 221; A plurality of buffer support (200) built in the body portion 210 is composed of a spring 230 for supporting the support portion 220 in a one shot shot:
A second pipe main body 300 having a lattice structure therein and having an insulation support 310 into which the underground distribution lines 1 are inserted, respectively, which is installed on the upper surface of the support part 220:
Subsidence detection sensor 400 which is installed in the body portion 210 of the buffer support 200 and detects the settlement of the second pipe body 300 and outputs a detection signal:
It is installed on the ground electrically connected to the settlement detection sensor 400 and the wires, the underground cable insulation, characterized in that it comprises a transmitter 500 for receiving the detection signal from the settlement detection sensor 400 and sends it to the outside Protective pipe for mounting.

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