KR100904707B1 - Underground electroic line of insulating pipe - Google Patents

Abstract

An insulating tube for an underground wire is provided to block the inflow of the underground water by filling a sealant between bodies. An underground wire is installed inside a pipe(10). A pressing unit(20) is protruded to the longitudinal direction in the front side of the pipe. A tip part of the pressing unit has a needle-shaped section. A first flange(30) is protrusively formed in an outer circumference of the tip art of the pipe. A sealant receiving unit(40) is formed in the rear tip part of the pipe. The sealant receiving unit includes an inserting groove, a receiving groove, an outflow hole, a filling hole, and a cover. The pressing unit is inserted into the inserting groove. The sealant is received in the receiving groove. One end of the outflow hole is connected to the receiving groove. The sealant is filled in the filling hole. The cover opens and closes the filling hole. A second flange(50) is protruded in an outer surface of the sealant receiving unit.

Description

Underground Electroic Line Of Insulating Pipe

The present invention relates to an underground distribution line-type insulated tube embedded in the ground and capable of protecting underground cables installed therein.

Conventionally, high-voltage power lines were installed on electric poles installed on the ground to supply power to dense residential buildings such as downtown. As such, when installing high voltage power lines in electric poles, electric poles and electric power lines are exposed to the outside, which causes a problem of surrounding landscape.In the case of power lines arranged in a row, short circuits are caused by contact with each other due to external interference. There was a problem.

Accordingly, in order to solve the problems as described above, in urban centers and dense places where residential buildings are concentrated, a pipeline type is required to be installed underground.

Briefly explaining the pipe formula, after the construction of the pipe (pipe route) using a pipe material, such as synthetic resin pipe, steel pipe, fume pipe, and the installation of the underground wire inside the installation is simple, buried in the ground Although it does not harm the surrounding landscape by being installed, the pipes are fastened to each other with bolts and nuts to form a pipeline. Groundwater and rainwater flow into the gaps, resulting in line failures causing short circuits and short circuits in underground cables, and enormous maintenance costs are incurred due to separate sealing treatments between the pipes to prevent such line failures. There was an uneconomical problem.

Accordingly, the present invention has been made to solve the above problems, it is possible to conveniently install the connection of the insulated pipe in the field, it can be always kept airtight by the sealing agent introduced between the installed insulated pipe and the insulated pipe It is to provide an underground insulated pipe.

The present invention for solving the problem to be solved,

In the normal insulated pipe installed in the ground and the underground wire is placed inside,

The insulated tube, the tube body is installed in the longitudinal direction and the underground wire is placed therein;

A pressing portion which protrudes in the longitudinal direction on the front surface of the tube and has a needle-shaped cross section;

A first flange formed to protrude outward from an outer circumferential surface of the distal end portion of the tubular body;

An insertion groove which is opened to the outside to insert the pressing portion, an accommodation groove which communicates with the insertion groove to receive the sealant, an outlet hole whose one end communicates with the accommodation groove and the other end is opened to the outside, and communicates with the accommodation groove to seal the inside Filling hole is formed to fill the agent, the first thin film is installed inside the insertion groove, the second thin film is installed inside the outlet hole, and the stopper is installed in the filling hole to open and close A sealant accommodating portion formed at the rear end portion of the tube;

It is achieved by the underground distribution line pull-out insulated tube, characterized in that consisting of a second flange formed to project on the outer surface of the sealant accommodating portion.

According to the present invention having the above configuration, the connection of the insulated tube can be conveniently installed in the field, and the airtight state can be maintained at all times by the sealing agent introduced between the insulated tube and the insulated tube installed, and the groundwater into the inside of the insulated tube. Not only can the back light be prevented from entering, but also the binding force between the insulated pipes can be strengthened.

Hereinafter, it will be described in detail based on the illustrated drawings.

1 is a perspective view of an underground insulated insulated tube according to the present invention, Figure 2 is a front sectional view of the underground insulated insulated tube according to the present invention, Figure 3 is a rear surface of the underground insulated insulated tube according to the present invention It is also.

The underground distribution line retractable insulated tube according to the present invention includes: a tubular body 10 installed in a longitudinal direction and having an underground wire L disposed therein; A pressing part 20 protruding in the longitudinal direction on the front surface of the tube body 10 and having a needle tip; A first flange 30 protruding outwardly of the tubular body 10; The insertion groove 41 is opened to the outside and the pressing portion 20 is inserted, the receiving groove 42 in communication with the insertion groove 41 to receive the sealant (S), one end is the receiving groove 42 and An outflow hole 43 communicating with the other end and opening to the outside and a filling hole 46 communicating with the receiving groove 42 to fill the sealant S therein are formed, and the insertion groove 41 is formed. And a sealant water formed at the rear of the tubular body having a first thin film 44, a second thin film 45, and a stopper 47 installed at the outlet hole 43 and the filling hole 46 to block outside air. Section 40; It consists of a second flange 50 formed to protrude on the outer surface of the sealant accommodating portion 40, which is shown as shown in Figs.

The tubular body 10, the inside is communicated in the longitudinal direction and is made of synthetic resin or concrete, the underground wire (L) is installed in the longitudinal direction.

The front surface of the tubular body 10 is protruded in the longitudinal direction and the front end portion is formed with a pressurized portion 20, the tip portion of the pressing portion 20 will be described in detail, the sealant accommodating portion 40 to be described later A circular doltero tip having the same thickness as the inner diameter of the insertion groove 41 of the) forms an inclined toward the center.

Therefore, since the tip portion of the pressing portion 20 is inclined toward the center, the first thin film formed inside the insertion groove 41 when loaded into the insertion groove 41 of the sealant accommodating portion 40. It is easy to destroy (44) and enter inside.

The front outer circumferential surface of the tubular body 10 is formed with a first flange 30 protruding outwardly with a predetermined thickness and provided with a plurality of mounting holes (not specifically shown), in particular the first flange 30. ) Is connected to the second flange 50, which will be described later, is connected to the mounting hole (not specifically shown) through the bolt and fastened with a nut and installed and fixed.

The sealant accommodating part 40 formed at the rear of the tubular body 10 is open to the outside and is inserted into the insertion groove 41 into which the pressing part 20 is inserted, and the insertion groove 41 is in communication with the sealing agent (S). ) And the receiving groove 42 for accommodating, the outlet hole 43 having one end communicating with the receiving groove 42 and the other end opened outwardly, and communicating with the receiving groove 42 to seal the sealant S therein. Filling hole 46 is formed to be filled, the first thin film 44 and the second thin film is installed in the insertion groove 41, the outlet hole 43 and the filling hole 46, respectively, to block outside air ( 45) and a stopper 47.

The first thin film 44 and the second thin film 45 block the outside air so that the sealing agent S filled in the insertion groove 41, the accommodation groove 42, and the outlet hole 43 is sealed with the outside air. It is formed of a thin synthetic resin (ie, vinyl) material so as to prevent contact and hardening and at the same time be easily destroyed by the pressing unit 20.

In the case of the sealant (S) filled in the receiving groove 42 to strongly bind each other between the tubular body 10 which are installed in succession to each other and at the same time to prevent the part bound by the impact on the outside to be separated. It should be able to, and it is desirable to form a silicon material that can maintain the airtight by preventing the leakage of water to the bound portion.

A second flange 50 having the same diameter as the first flange 30 is formed on the outer surface of the sealant accommodating portion 40.

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

Figure 4 is a state diagram used in the underground distribution line pull-out insulated tube according to the present invention.

As shown in Figure 4 in the state in which the main body 10 of the insulated tube installed in the longitudinal direction in the ground with the insertion groove 41 formed in the sealant accommodating portion 40 of the insulated tube ( 20 ') allows the second flange 50 and the first flange 30' formed on the main bodies 10 and 10 'of each insulation tube to be connected to each other.

As described above, the sealing agent S filled in the insertion groove 41 by the pressing portion 20 'inserted into the insertion groove 41 is pushed by the pressing force of the pressing portion 20'. The two thin films 45 are torn and drawn out through the outlet hole 43.

The sealant S drawn as described above is introduced between the second flange 50 and the first flange 30 'which are connected to each other, and when a predetermined time elapses, the sealing agent S is hardened and bonded to each other.

Therefore, the sealing agent S drawn by the pressurizing portion 20 'flows between the second flange 50 and the first flange 30' of each of the main bodies 10, which are continuously installed, thereby leaking inside. Can not only block the inflow of the source, but also strengthen the binding force between the main body 10 and the main body 10 ', and can keep the confidential state at all times to safely protect the underground wire L installed therein. Will be.

After installing the insulated tube as described above, the bolts are loaded with mounting holes (not specifically shown) formed in the second flange 50 and the first flange 30 'and fixed with a nut to securely fix them. What is necessary is just to carry out construction continuously as mentioned above.

Although the present invention has been described in detail only with respect to the specific embodiments described, it will be obvious to those skilled in the art that various modifications and changes can be made within the technical scope of the present invention, and such modifications and modifications belong to the appended claims.

1 is a perspective view of the underground distribution line pull-out insulated tube according to the present invention.

Figure 2 is a front sectional view of the underground distribution line pull-out insulated tube according to the present invention.

Figure 3 is a rear view of the underground distribution line pull-out insulated tube according to the present invention.

Figure 4 is a state of use of the underground distribution line pull-out insulated tube according to the present invention.

* Description of the symbols for the main parts of the drawings *

DESCRIPTION OF SYMBOLS 10 Tubular body 20 Pressurization part 30 First flange

40: sealant receiving portion 41: insertion groove 42: receiving portion

43: outflow hole 44: first thin film 45: second thin film

46: filling 47: plug 50: the second flange

S: Sealant L: Underground Wire

Claims (1)

In the normal insulated pipe installed in the ground and the underground wire is placed inside, The insulated tube, the tube body 10 is installed in the longitudinal direction and the underground wire (L) is placed therein; A pressing part 20 protruding in the longitudinal direction on the front surface of the tube body 10 and having a needle-shaped cross section; A first flange 30 formed to protrude outward from an outer circumferential surface of the distal end of the tubular body 10; The insertion groove 41 is opened to the outside and the pressing portion 20 is inserted, the receiving groove 42 in communication with the insertion groove 41 to receive the sealant (S), one end is the receiving groove 42 and An outflow hole 43 communicating with the other end and opening to the outside and a filling hole 46 communicating with the receiving groove 42 to fill the sealant S therein are formed, and the insertion groove 41 is formed. The first thin film 44 is installed inside, the second thin film 45 is installed inside the outlet hole 43, and the stopper 47 is provided in the filling hole 46 to be opened and closed In addition, the sealant accommodating portion 40 is formed on the rear end portion of the tube body 10; Underground insulated wire-type insulating tube, characterized in that consisting of a second flange (50) protruding on the outer surface of the sealant accommodating portion (40).

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