KR20140140977A - System for removing insulation fluid in electric wire - Google Patents

Abstract

An apparatus for removing insulation fluid according to the embodiment of the present invention includes an insulation fluid suction tube which is connected to one end of an electric wire and a body which discharges the insulation fluid received in the electric wire from the electric wire through the insulation fluid suction tube by applying negative pressure in the insulation fluid suction tube, for preventing contamination due to the leakage of the insulation fluid in a process for removing the electric wire installed under the water or the ground.

Description

FIELD OF THE INVENTION [0001] The present invention relates to an insulation fluid eliminating device,

The present invention relates to a system for removing insulating fluid contained within an electrical wire.

Generally, electric wires accommodated in an insulated fluid are used as electric wires installed in the ground or in water.

In order to replace or maintain these wires due to aging, work is being carried out to remove wires from underground or underwater.

In order to remove the wire from underground or underwater, it is necessary to cut a part of the wire in the state where the wire is installed in the ground or underwater and to remove the part of the cut wire from underground or underwater, And removing it. However, in the process of removing the cut wire from underground or underwater, the insulating fluid accommodated in the electric wire may leak to the outside, and soil pollution or water pollution due to leakage of the insulating fluid is a problem.

SUMMARY OF THE INVENTION It is an object of the present invention to provide an insulated fluid removing device capable of easily removing an insulated fluid accommodated in an electric wire.

Another object of the present invention is to provide an insulation fluid removing device capable of preventing contamination due to leakage of an insulation fluid in the process of removing electric wires installed in the ground or water.

According to another aspect of the present invention, there is provided an insulation fluid removing apparatus including: an insulation fluid suction pipe connected to one end of a wire; and an insulation fluid inlet pipe connected to one end of the insulation pipe, And a body to be discharged from the electric wire through the insulation fluid suction pipe.

And a pressurized fluid supply pipe connected to the other end of the electric wire, and the main body can supply the pressurized fluid to the other end of the electric wire through the pressurized fluid supply pipe.

The main body may include a pressurized fluid supply unit for supplying pressurized fluid to the pressurized fluid supply pipe, and the pressurized fluid supply unit may include an air pump connected to the insulated fluid suction pipe.

The pressurized fluid supply unit may further include a compressed gas tank.

The compressed gas contained in the compressed gas tank may be nitrogen.

The compressed air discharged from the air pump and the compressed gas discharged from the compressed gas tank can be alternately supplied to the electric wire.

The compressed gas may be first supplied to the electric wire and then compressed air may be supplied.

The compressed air discharged from the air pump and the compressed gas discharged from the compressed gas tank can be supplied together as the electric wire.

The insulated fluid removing device according to the embodiment of the present invention can discharge and remove the insulated fluid inside the electric wire by using the suction force in the state where the electric wire is installed in the earth or underwater. Unlike the conventional case of discharging the insulating fluid inside the electric wire, problems such as soil contamination or water pollution due to leakage of the insulating fluid can be minimized.

The insulated fluid removing device according to an embodiment of the present invention supplies the insulated fluid to one end of the electric wire at the other end opposite to one end of the electric wire through which the insulated fluid is discharged by the suction force, It is possible to smoothly carry out the process for removing it from the apparatus.

The insulated fluid removing device according to the embodiment of the present invention can supply the insulated fluid in a very efficient manner to the factors such as the kind of the insulated fluid, the viscosity, and the temperature by supplying the compressed gas and the compressed air alternately to the inside of the electric wire So that it can be discharged more smoothly from the electric wire.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic illustration of an apparatus for removing an insulating fluid according to an embodiment of the present invention. FIG.
2 is a block diagram schematically illustrating the insulating fluid removal device of FIG.
3 is a cross-sectional view schematically showing a wire to which the insulating fluid removing device of FIG. 1 is applied.
4 is a cross-sectional view schematically illustrating an insulated fluid suction pipe and a suction pipe adapter of the insulated fluid removing device of FIG.
5 is a cross-sectional view schematically showing a pressurized fluid supply pipe and a supply pipe adapter of the insulated fluid removing device of FIG.
FIG. 6 is a schematic diagram illustrating an apparatus for removing an insulating fluid according to another embodiment of the present invention.

Hereinafter, an insulating fluid removing apparatus according to an embodiment of the present invention will be described with reference to the accompanying drawings.

1 to 5, an insulation fluid removing apparatus according to an embodiment of the present invention includes an insulation fluid suction pipe 40 (hereinafter, referred to as " insulation fluid suction pipe ") connected to one end of a ground 10 or an electric wire 20 installed in water, A pressurized fluid supply pipe 50 connected to the other end of the electric wire 20 for discharging the insulating fluid 24 accommodated in the electric wire 20 through the suction pipe 40 30).

Hereinafter, the case where the electric wire 10 installed on the ground 10 is removed or maintained from the ground 10 will be described as an example. However, the present invention is not limited to these embodiments, and can be applied to various cases such as removal or maintenance of electric wires installed in the water, removal or maintenance of electric wires exposed to the ground, and the like.

A manhole 11 is formed in the ground 10 for replacement or maintenance of the electric wire 20 installed in the ground 10 and the suction pipe 40 and the supply pipe 50 Can be connected to both ends of the wire 20.

For example, as shown in Fig. 3, the electric wire 20, in which the insulating fluid 24 is accommodated, is electrically connected to the electric wire 21 by a predetermined distance from the outer peripheral surface of the electric wire 21 A support pipe 22 having an inner circumferential surface for maintaining the outer shape of the electric wire 20 and a cover member 23 of an electrically insulating material formed on the outer circumferential surface of the support pipe 22. The support tube 22 may be made of a material having a high rigidity, for example, a metal such as aluminum or a reinforced plastic. The insulating fluid 24 may be received between the outer circumferential surface of the lead wire 21 and the inner circumferential surface of the support tube 22.

The suction pipe 40 is for discharging the insulating fluid 24 accommodated in the electric wire 20 by using a suction force and can be connected to the electric wire 20 through the suction pipe adapter 60.

The supply pipe 50 is provided to supply the pressurized fluid to the inside of the electric wire 20 to assist the discharging operation of the insulating fluid 24 through the suction pipe 40 and is connected to the electric wire 20 through the outlet pipe adapter 70 .

The suction pipe adapter 60 and the discharge pipe adapter 70 may be connected to the electric wire 20 by fastening means such as a clamp.

The main body 30 includes an air pump 32 connected to the suction pipe 40 to form a negative pressure inside the suction pipe 40 and an air pump 32 connected to the supply pipe 50 to supply the fluid into the supply pipe 50. [ A filter 36 for filtering and / or storing the insulated fluid 24 sucked through the suction pipe 40; and an air pump 32, a pressurized fluid supply unit 31, And a control unit 33 for controlling the operation of the control unit 32.

On the other hand, for movement of the main body 30, the main body 30 can be mounted with a wheel.

Although the air pump 32 and the pressurized fluid supply units 31 and 32 may be provided separately from each other, the air pump 32 and the pressurized fluid supply unit 31, 24 and the operation of supplying the pressurized fluid to the insulating fluid 24 accommodated in the interior of the electric wire 20 can be performed together.

The pressurized fluid supply units 31 and 32 may further include a compressed gas tank 31 for supplying compressed gas to the insulating fluid 24 accommodated inside the electric wire 20 in addition to the air pump 32 .

In the interior of the compressed gas tank 31, for example, high-pressure liquefied nitrogen can be accommodated. However, in addition to high-pressure liquefied nitrogen, various compressed gases can be accommodated in the compressed gas tank 31. The compressed gas from the compressed gas tank 31 and the compressed air from the air pump 32 are supplied together into the electric wire 20 to discharge the insulating fluid 24 contained in the electric wire 20, Gas and compressed air can be alternately supplied to the inside of the electric wire 20.

Generally, since the compressed gas has a higher pressure than the compressed air, it is advantageous in comparison with the compressed air for discharging the insulating fluid 24, but it is disadvantageous in cost from the compressed air. Therefore, it is preferable that the compressed gas and the compressed air are alternately supplied, considering both the aspect ratio and the cost aspect of the supply pressure for the insulating fluid 24.

At this time, it is preferable that the compressed gas is first supplied to the electric wire 20 from the compressed gas tank 31, and then the compressed air is supplied from the air pump 32. That is, by supplying the high-pressure compressed gas to the electric wire 20 first, the flow of the insulating fluid 24 inside the electric wire 20 can be activated.

When the compressed gas tank 31 and the air pump 32 are provided together as the pressurized fluid supply units 31 and 32, a switching valve 34 for switching between the compressed gas tank 31 and the air pump 32 may be provided. The operation of the switching valve 34 can be controlled by the control section 33. [

The air pump 32 is provided with a discharge valve 35 for discharging the compressed air to the atmosphere in consideration of the case of performing only the operation of sucking the insulating fluid 24 without supplying the compressed air to the insulating fluid 24 Can be connected.

4, the suction pipe adapter 60 is installed in close contact with one end of the electric wire 20 to connect one end of the electric wire 20 to the suction pipe 40. As shown in FIG.

5, the supply pipe adapter 70 is disposed in close contact with the other end of the electric wire 20, and connects the other end of the electric wire 20 to the supply pipe 50. As shown in FIG.

Hereinafter, the operation of the insulating fluid removing device constructed as described above will be described.

First, both ends of the electric wire 20 are cut through the manhole 11 or the hole drilled separately before removing the electric wire 20 from the ground. Generally, the distance between both ends of the electric wire 20 can be 300 m to 400 m.

Both ends of the electric wire 20 are connected to the suction pipe 40 and the supply pipe 50 through the suction pipe adapter 60 and the supply pipe adapter 70.

As the air pump 32 is operated under the control of the control unit 33 of the main body 30, the negative pressure is applied to the inside of the suction pipe 40 and the insulating fluid 24 contained in the electric wire 20 And then flows to the air pump 32 through the suction pipe 40 after being discharged from the electric wire 20. The insulating fluid 24 flowing through the suction pipe 40 is filtered and / or stored by the filter 36 and then discharged to the outside.

The pressurized fluid is supplied from the compressed gas tank 31 or the air pump 32 to the inside of the electric wire 20 through the supply pipe 50 either before or simultaneously with such operation or sequentially after such operation And the insulating fluid 24 inside the wire 20 flows to one end of the wire 20 by the pressurized fluid. Therefore, the insulating fluid 24 can be discharged more smoothly from the electric wire 20 by the flow of the insulating fluid 24 inside the electric wire 20 by the pressurized fluid.

At this time, as described above, the compressed gas discharged from the compressed gas tank 31 and the compressed air discharged from the air pump 32 can be supplied to the inside of the electric wire 20 alternately or together.

On the other hand, after the insulating fluid 24 is completely removed from the inside of the electric wire 20 by the above-described operation, subsequent operations such as removing the electric wire 20 from underground or underwater can be sequentially performed .

6, the main body 30 of the insulation fluid removing device includes an insulation fluid 24 connected to the suction pipe 40 and housed inside the electric wire 20, And a second main body 30a connected to the supply pipe 50 and supplying compressed air or compressed gas to the inside of the electric wire 20. [ In this way, when the main body 30 is divided into the first main body 30b and the second main body 30a, there is an advantage that each operation can be performed individually.

The insulation fluid removing device according to the embodiment of the present invention as described above can discharge and discharge the insulation fluid 24 inside the electric wire 20 by using the suction force in a state where the electric wire 20 is installed in the ground or underwater, Unlike the conventional case where the electric wire 20 is removed from the ground or water and then the insulating fluid 24 inside the electric wire 20 is discharged, the soil contamination due to the leakage of the insulating fluid 24 or the water quality The problems such as contamination can be minimized.

The insulation fluid removing device according to the embodiment of the present invention is characterized in that the insulation fluid 24 is connected to one end of the electric wire 20 at the other end opposite to one end of the electric wire 20 through which the insulation fluid 24 is discharged by the suction force By supplying the fluid for flowing, the process for removing the insulating fluid 24 from the electric wire 20 can be performed more smoothly.

The insulation fluid eliminating apparatus according to the embodiment of the present invention can supply the compressed gas and the compressed air alternately to the inside of the electric wire 20 so that the insulation fluid 24 can be efficiently and efficiently applied to the insulation fluid 24, So that the insulating fluid 24 can be discharged more smoothly from the electric wire 20.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the invention.

20: wire 30:
31: Compressed gas tank 32: Air pump
40: Insulation fluid suction pipe 50: Pressurized fluid supply pipe
60: Suction pipe adapter 70: Supply pipe adapter

Claims (8)

An insulation fluid suction pipe connected to one end of the electric wire; And
And a body for discharging the insulating fluid accommodated in the electric wire through the insulating fluid suction pipe by applying a negative pressure to the insulating fluid suction pipe. The method according to claim 1,
And a pressurized fluid supply pipe connected to the other end of the electric wire,
Wherein the main body supplies pressurized fluid to the other end of the electric wire through the pressurized fluid supply pipe. The method of claim 2,
Wherein the main body includes a pressurized fluid supply unit for supplying pressurized fluid to the pressurized fluid supply pipe,
Wherein the pressurized fluid supply unit includes an air pump connected to the insulation fluid suction pipe. The method of claim 3,
Wherein the pressurized fluid supply unit further comprises a compressed gas tank. The method of claim 4,
Wherein the compressed gas contained in the compressed gas tank is nitrogen. The method of claim 4,
Wherein the compressed air discharged from the air pump and the compressed gas discharged from the compressed gas tank are alternately supplied to the electric wire. The method of claim 6,
Wherein the compressed gas is first supplied to the electric wire and then compressed air is supplied to the electric wire. The method of claim 4,
Wherein the compressed air discharged from the air pump and the compressed gas discharged from the compressed gas tank are supplied together as the electric wire.

Images