KR101439765B1 - Termial lug for emitting residue gas of xlpe cable - Google Patents

Abstract

The present invention relates to a terminal lug of a cross-linked polyethylene cable and, more specifically, to a terminal lug for residue gas emission of a cross-linked polyethylene cable, the terminal lug having a one-way valve to discharge residue gas. The terminal lug for residue gas emission of the cross-linked polyethylene cable according to the present invention comprises a terminal unit which has a terminal hole to be coupled to a terminal of the other cable and is formed in a plate shape; a semi-cylindrical gas emission unit which is formed on the lower end of the terminal unit and has a space for emitting residue gas of the cross-linked polyethylene cable; and a cylindrical cable compression unit which is extended from the end of the terminal unit and is compressed by inserting a conductor of the cross-linked polyethylene cable.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a terminal lug for releasing residual gas of a crosslinked polyethylene cable,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a terminal lug of a crosslinked polyethylene cable, and more particularly, to a terminal lug for discharging a residue gas in which a one-way valve is formed to discharge residual gas of a crosslinked polyethylene cable.

Cross-linked polyethylene cable (XLPE cable) is a cable in which an organic emulsifier is mixed with polyethylene and a polyethylene is cross-linked so that the polyethylene structure is made to be in a bonded state.

The crosslinked polyethylene cable is problematic in that it generates residual gas during crosslinking.

Methane gas is produced as a by-product by performing cross-linking reaction with polyethylene dioxy peroxide (DCP), and volatile byproducts include acetophenone, cumyl alcohol and alpha-methylstyrene.

In order to minimize such residue gas, a heat treatment and a discharge method by vacuum decompression are used, but there is a problem of merely reducing the remaining amount of gas.

In addition, a cable is installed in the line, and the crosslinked polyethylene is decomposed due to the rise of the temperature of the conductor and the electric arc during operation to generate gas such as methane and hydrogen.

In order to solve such a problem, Korean Patent Laid-Open Publication No. 2003-0017137 discloses an apparatus for discharging residual gas of a crosslinked polyethylene cable.

The apparatus for discharging residual gas of a crosslinked polyethylene cable disclosed in Korean Patent Publication No. 2003-0017137 is installed on the side of a connecting portion when a cable is connected, and when the crosslinked polyethylene cable 10 is inserted A discharge hole 22 formed in one side of the pipe member 21 and a gas discharging means 30 provided in the discharge hole 22 and connected to the outer jacket 14 ) Is detached from the crosslinked polyethylene cable 10, and is then sealed with the sealing means 40 so as to discharge the residual gas of the cable.

However, the residue gas discharging device of the crosslinked polyethylene cable disclosed in Korean Patent Publication No. 2003-0017137 requires a separate connecting process for discharging the residual gas, and there is a problem that a discharging device for gas discharging must be separately manufactured.

Korean Patent Publication No. 2003-0017137

A problem to be solved by the present invention is to provide a terminal lug for discharging residual gas of a crosslinked polyethylene cable capable of continuously discharging residual gas remaining after cable drying by forming a one-way valve in a terminal lug connected to a conventional cable end .

In addition, there is no need to separately fabricate a cable residual gas exhaust device and connect it to a cable by a separate process, and the residual gas can be discharged only by mounting the same terminal lug as the existing one, And to provide a terminal lug for discharging residual gas of a crosslinked polyethylene cable.

The terminal lug for discharging the residue gas of the crosslinked polyethylene cable according to the present invention for solving the above-mentioned problems comprises a terminal part having a plate shape and having a terminal hole to be fastened to another cable terminal terminal, And a cylindrical cable crimping portion extending from an end of the terminal portion and having a conductor of the cross-linked polyethylene cable inserted therein to be compressed, As shown in FIG.

The terminal lug for discharging the residual gas of the crosslinked polyethylene cable according to the present invention comprises a terminal portion connected to the other terminal terminal, a gas discharging portion for inserting the valve body and the valve flap to discharge the residual gas, Wherein the valve body has a semi-cylindrical shape and includes a head portion, a body portion having an outer diameter smaller than that of the head portion, and at least one gas discharge hole formed at a predetermined position of the body portion, Wherein the valve flap is made of a rubber material elastically contractible by a gas pressure and has a semicylindrical shape and is inserted into the gas discharging portion by being superimposed on the body portion of the valve body.

The terminal lug for discharging the residual gas of the crosslinked polyethylene cable according to the present invention comprises a terminal portion connected to the other terminal terminal, a gas discharging portion for inserting the valve body and the valve flap to discharge the residual gas, Wherein the valve body has a semi-cylindrical shape and includes a head portion, a body portion having an outer diameter smaller than that of the head portion, and at least one gas discharge hole formed at a predetermined position of the body portion, Wherein the valve flap is made of a rubber material elastically contractible by a gas pressure and has a semicylindrical shape and at least one notch is formed at the opposite end of the head portion, And the gas discharge port is inserted into the gas discharge port.

The gas discharge unit may have a semicylindrical shape and may have a residual gas discharge passage connected to the outside at one end thereof.

Preferably, one end of the valve flap is formed with a tapered portion having a predetermined inclination angle.

According to the structure of the present invention described above, the one-way valve is formed in the terminal lug connected to the cable end used in the past, so that the residual gas remaining after the cable drying can be continuously discharged. It is possible to provide a terminal lug for discharging residual gas of a crosslinked polyethylene cable which has no structure and no separate connection step is required and the residue gas can be discharged only by mounting the same terminal lug as the conventional one .

1 is a perspective view of a terminal lug for discharging residual gas of a crosslinked polyethylene cable according to the present invention.
2 is an exploded perspective view of a terminal lug for discharging residual gas of a crosslinked polyethylene cable according to the present invention.
3 is another example of a valve body and a valve bell of a terminal lug for discharging residue gas of a crosslinked polyethylene cable according to the present invention.
4 is a cross-sectional view of a terminal lug for discharging residue gas of a crosslinked polyethylene cable according to the present invention.
5 shows the discharge path of the residual gas of the crosslinked polyethylene cable according to the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other objects, features and advantages of the present invention will be more apparent from the following detailed description taken in conjunction with the accompanying drawings, in which: FIG.

FIG. 1 is a perspective view of a terminal lug for discharging residue gas of a crosslinked polyethylene cable according to the present invention, and FIG. 2 is an exploded perspective view of a terminal lug for discharging residue gas of a crosslinked polyethylene cable according to the present invention.

1 and 2, a terminal lug 10 (hereinafter, referred to as a 'terminal lug') body 11, a valve body 12 and a valve flap Flap, 13).

The main body 11 is made of a metal and has a terminal portion 21 connected to other terminal terminals and a discharge passage 24 for residual gas of the cable as a space into which the valve body 12 and the valve flap 13 are inserted A gas discharge portion 22 provided on one side surface, and a cable crimping portion 23 into which a conductor portion of the cable is inserted and pressed.

The terminal portion 21 has at least one through hole into which the fastening bolt is inserted and has a plate shape. The gas discharge portion 22 has a semi-cylindrical shape. The cable pressing portion 23 has a cylindrical shape.

The valve body 12 is made of a metal and has a semi-cylindrical shape and includes a head portion 25, a body portion 26 having an outer diameter smaller than that of the head portion 25, And one or more gas discharge holes 27 formed therein.

The valve flap 13 is made of a rubber material which can be elastically contracted by the gas pressure and has a semi-cylindrical shape and is superimposed on the body portion 26 of the valve body 12, 22). A tapered portion 28 having a predetermined inclination angle is formed at the side of the valve flap 13 and the tapered portion 28 serves to assist in forming the gas passage while the valve flap 13 is contracted by the gas pressure .

3 is another example of a valve body and a valve bell of a terminal lug for discharging residue gas of a crosslinked polyethylene cable according to the present invention.

3, the valve body 32 and the valve flap 33 have the same shape and coupling structure as the valve body 12 and the valve flap 13 shown in FIG. 2, but in the XLPE cable In order to further facilitate the opening of the valve by the generated residual gas pressure, two or more gas discharge holes 37 formed in the valve body 32 are formed, and one end of the valve flap 33 is provided with a tapered portion 38 And the notched portion 34 is formed.

4 is a cross-sectional view of a terminal lug for discharging residue gas of a crosslinked polyethylene cable according to the present invention.

4, the terminal lug 10 of the present invention is inserted and fixed in the gas discharge portion 22 with the valve body 12 and the valve flap 13 engaged with each other, and the cable crimping portion 23 by the crimping tool and the portion of the conductor 42 of the crosslinked polyethylene cable 41 to be completely sealed.

5 shows the discharge path of the residual gas of the crosslinked polyethylene cable according to the present invention.

4, the crosslinked polyethylene cable causes a crosslinking reaction, whereby methane gas is produced as a by-product, volatile byproducts include acetophenone, cumyl alcohol, alpha-methylstyrene and the like, And the crosslinked polyethylene is decomposed by the electric arc of the electric conductor during the operation and the gas such as methane and hydrogen is generated during operation.

The residue gas of such a crosslinked polyethylene cable can be always discharged to the outside by the terminal lug 10 of the present invention.

5, the residual gas generated in the crosslinked polyethylene cable 41 flows through the inside of the conductor 42 into the space 51 in the gas discharging portion 22, and the residual residual gas flows back and forth The gas pressure is increased and the pressure is increased.

The gas pressure in the space 51 is further increased by the residual gas continuously discharged and the gas pressure is applied to the surface of the valve flap 13 by the gas discharge hole 27 and the valve flap 13 is made of the elastic rubber material So that the shrinkage space A is formed by contracting downward from the pressure-receiving portion.

The residual gas is discharged through the shrinkage space A formed by the pressure and finally the residual gas is completely discharged to the outside through the discharge passage 24 formed on the one end side of the gas discharge portion 22 of the main body 11. [

As described above, the terminal lug 10 for discharging the residual gas of the crosslinked polyethylene cable of the present invention basically functions as a one-way valve capable of internally discharging the residual gas of the crosslinked polyethylene Together.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, As will be understood by those skilled in the art. Therefore, it should be understood that the above-described embodiments are to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than the foregoing description, It is intended that all changes and modifications derived from the equivalent concept be included within the scope of the present invention.

10: Terminal lug 11: Body
12, 32: valve body 13, 33: valve flap
21: terminal part 22: gas discharge part
23: cable crimping portion 24:
25, 35: head part 26, 36:
27, 37: gas discharge holes 28, 38: tapered portion
34: cutaway 41: cross-linked polyethylene cable
42: conductors 51: space

Claims (5)

And a cable crimping portion into which a conductor portion of the cable is inserted and pressed, wherein the terminal portion is connected to another terminal terminal, a gas discharge portion into which the valve body and the valve flap are inserted to discharge the residual gas,
Wherein the valve body has a semi-cylindrical shape and includes a head portion, a body portion having an outer diameter smaller than that of the head portion, and at least one gas discharge hole formed at a predetermined position of the body portion,
Wherein the valve flap is made of a rubber material elastically contractible by gas pressure and has a semicylindrical shape and is inserted into the gas discharge portion by overlapping with the body portion of the valve body, rug. And a cable crimping portion into which a conductor portion of the cable is inserted and pressed, wherein the terminal portion is connected to another terminal terminal, a gas discharge portion into which the valve body and the valve flap are inserted to discharge the residual gas,
Wherein the valve body has a semi-cylindrical shape and includes a head portion, a body portion having an outer diameter smaller than that of the head portion, and at least one gas discharge hole formed at a predetermined position of the body portion,
Wherein the valve flap is made of a rubber material which can be elastically contracted by gas pressure and has a semicylindrical shape and at least one notched portion is formed at an opposite end of the head portion to overlap the body portion of the valve body, A terminal lug for releasing a residual gas of a crosslinked polyethylene cable. 3. The method according to claim 1 or 2,
Wherein the gas discharging portion has a semicylindrical shape and is provided with a residual gas discharge passage connected to the outside at one end thereof, for discharging residue gas from the crosslinked polyethylene cable. 3. The method according to claim 1 or 2,
Wherein a tapered portion having a predetermined inclination angle is formed at one end of the valve flap. delete

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