KR20120047476A - Extension bar and device for silicon unit - Google Patents

Abstract

PURPOSE: An extending bar and an extending device of a silicon unit are provided to easily execute a connection process of a super-high voltage power cable by inserting a spiral core inside the silicon unit. CONSTITUTION: An insertion beginning part(121) has a first external diameter. The insertion beginning part is firstly inserted into the inside diameter of a silicon unit. An extension part(123) comprises a core insertion part having a second external diameter which is bigger than the first external diameter. The extension part is inserted while expanding the inside diameter of the silicon unit. A declined part(122) has a predetermined slope which is formed between the insertion beginning part and the extension part. A female tap connected to a rod bar is formed on the leading end of the insertion beginning part.

Description

EXTENSION BAR AND DEVICE FOR SILICON UNIT}

The present invention relates to an extension bar and an expansion device of a silicon unit for connecting a power cable, and more particularly, an extension bar and an extension for inserting a spiral core into a silicon unit used as an insulation reinforcement for an intermediate junction box of an ultra high voltage underground cable. Relates to a device.

In the intermediate connection method of the ultra-high voltage power cable, various methods are developed and implemented according to the cable type and specification.

In recent years, the XLPE ultra-high voltage cable connection method is using a room temperature shrink silicon unit, which is mainly used as a high-voltage cable connection method because of the shortening of the connection time and excellent electrical characteristics.

Conventionally, the through-hole is formed in the longitudinal direction of the rubber silicon unit to insert and fix the cable. If the diameter of the cable inserted into the through-hole of the silicon unit is larger than the diameter of the through-hole, it is inserted directly into the through-hole. It is difficult to do so make sure the silicon unit is in the expanded position before inserting the cable.

The expansion member for expanding the silicon unit is inserted into the through hole of the silicon unit in advance to expand the diameter, and the diameter of the expansion member is formed to be somewhat larger than the diameter of the silicon unit through hole, and the through hole is formed therein.

When the expansion member is inserted into the through-hole of the silicon unit and expanded, the cable is inserted into the through-hole of the expansion member and then the expansion member is removed.

However, it is not an easy process to insert an expansion member having an outer diameter larger than the inner diameter of the silicon unit into the silicon unit, and thus, it remains a difficult task to provide a silicon unit in which the expansion member is inserted.

In order to solve this problem, the Republic of Korea Patent Publication No. 10-2010-0092693 discloses a connection structure that can be easily connected to the power cable in the connection sleeve.

An expansion member 10 is used for the connecting structure disclosed in Korean Patent Laid-Open Publication No. 10-2010-0092693, and the expansion member 10 is configured to be expanded by elastic force when both ends thereof are separated in an elastic force. The inner diameter of the sleeve 1 made of silicon is thereby expanded.

However, since the shrinkage force of the sleeve 1 formed of silicon is so great that the inner diameter of the sleeve 1 is expanded together by the elastic enlargement force of the expansion member 10, it is more difficult to implement the material itself.

KR 10-2010-0092692 A (2010.08.23)

SUMMARY OF THE INVENTION The present invention has been made to solve the above-described problems, and is intended to provide an extension bar for a silicon unit for inserting a spiral core 23 therein by extending an inner diameter of a silicon unit used for connecting an ultra-high voltage power cable. .

In addition, the purpose is to simplify the connection process of the ultra-high voltage power cable and improve the electrical characteristics by connecting the ultra-high voltage power cable smoothly and quickly by using the silicon unit inserted into the spiral core.

An extension bar of the silicon unit according to the present invention for solving the above problems is a cylindrical rod-type insertion start end portion having a first outer diameter and is primarily inserted into the silicon unit inner diameter, and a larger than the first outer diameter. A core insert having an inner diameter of a predetermined size having a second diameter and having a spiral core inserted therein is formed, and a cylindrical rod-type expansion portion inserted to expand the inner diameter of the silicon unit, between the insertion start end portion and the expansion portion. It comprises a slope having a predetermined slope formed in.

Here, the insertion end, the inclined portion and the expansion portion may be integrally formed or connected to each other.

Here, a female thread tab connected to the rod bar may be formed at the front end surface of the insertion end portion.

In addition, the expansion unit of the silicon unit includes a rod-type insertion start end having a first outer diameter, a rod-type expansion part having a second outer diameter and a predetermined size larger than the first outer diameter, the insertion start end and the An extension bar including an inclined portion having a predetermined slope formed between the extension portions; One end is connected to the insertion end of the extension bar, the other end may be made of a rod bar for pulling the extension bar horizontally and connected to the pressure unit, and a silicon unit fixture for fixing the silicon unit formed of silicon.

According to the configuration of the present invention described above, by providing an extension bar for the silicon unit for extending the inner diameter of the silicon unit used for connecting the ultra-high voltage power cable and inserting a spiral core therein, the connection process of the ultra-high voltage power cable is simplified. And contribute to improving electrical properties.

Figure 1 shows a front view of the expansion bar and the expansion device of the silicon unit according to the present invention.
Figure 2 shows a plan view of the expansion bar and the expansion device of the silicon unit according to the present invention.
3 is a perspective view of an extension bar of the silicon unit according to the present invention.
4 to 8 illustrate a process of expanding a silicon unit and inserting a spiral core by the expansion bar and the expansion device of the silicon unit according to the present invention.

Hereinafter, with reference to the accompanying drawings will be described the structure, process sequence and the effects of the expansion bar and the expansion device of the silicon unit according to the present invention.

Figure 1 shows a front view of the expansion bar and the expansion device of the silicon unit according to the present invention, Figure 2 shows a plan view of the expansion bar and the expansion device of the silicon unit according to the present invention.

The silicon unit 22 of the present invention is used as an insulation reinforcement in the state where the cable conductor is connected when the XLPE ultra-high voltage cable is connected, and is a connection material of a molded article made of silicone material.

In general, the silicon unit 22 has excellent elasticity, so that the silicon unit 22 is completely in close contact with the exposed cable conductors and insulators in the middle of the cable connection. It is necessary to solve the problem of expanding the inner diameter of the silicon unit 22 in order to insert a large outer diameter into a small inner diameter since the design can realize a completely close structure at the time of connection.

In addition, in order to insert the expanded silicon unit 22 into the cable and close to the cable, a process of shrinking the inner diameter of the silicon unit 22 is required again, and a spiral core 23 as a connection member necessary for the shrinking process is required. Will be used. The spiral core 23 is a connecting member having a structure in which the synthetic resin wires are spirally coupled to each other to form a cylindrical shape, and are loosened by pulling the synthetic resin wires at the front end portion.

Expansion of the inner diameter of the silicon unit 22 and insertion of the helical core 23 to re-shrink the expanded silicon unit 22 is made by the expansion device shown in FIGS. 1 and 2 and the extension bar shown in FIG. The expansion and insertion process of the spiral core 23 can be made by the FIGS. 4 to 8.

1 and 2, in the expansion device of the silicon unit 22 according to the present invention, a rectangular frame 11 constituting a top, a bottom and a side forms a basic base.

On the top of the square frame 11, the cradle 13 on which the extension bar 12 is mounted, the cradle 14 on which the silicon unit 22 is mounted, and the silicon unit 22 are disposed so that the silicon unit 22 is not pushed. The jig 19 and the jig 19 is attached to the silicon unit holder 15 is attached to the opposite side, the pressure support 16 to enable the reciprocating movement by pressure, and formed on one side of the pressure support 16 It comprises a cylinder 21 and a rod bar 20 reciprocating into the cylinder 21, the rod bar 20 is connected to a pressure adding device not shown. The pressure adding device may be a pneumatic device or a hydraulic device.

3 is a perspective view of an extension bar of the silicon unit 22 according to the invention.

The extension bar 12 shown in FIGS. 1 and 2 is embodied in structure through FIG. 3.

The extension bar 12 may be made of a metal material or a synthetic resin material, and preferably may be made of a general structural rolled steel material (SS400).

The extension bar 12 has a first outer diameter and has a cylindrical rod-type insertion start end 121 which is primarily inserted into the silicon unit 22 inner diameter, and has a second outer diameter larger than the first outer diameter, and has a spiral core. A core insertion part 125 having an inner diameter of a predetermined size into which the 23 is inserted is formed, and a cylindrical rod-type expansion part 123 inserted to expand the inner diameter of the silicon unit 22 and an insertion start end part ( An inclined portion 122 having a predetermined slope formed between the 121 and the expansion portion 123.

The core insertion portion 125 may have an inner diameter into which the spiral core 23 may be inserted, and may have a length proportional to the length of the spiral core 23.

A female thread tab 124 may be formed on the distal end surface of the insertion end 121 to fasten the eye bolt 17 that may be connected to the rod bar 20.

4 to 9 illustrate a process of expanding a silicon unit and inserting a spiral core by the expansion bar and the expansion device of the silicon unit according to the present invention.

FIG. 4 illustrates a starting process as a process of inserting the insertion end 121 of the extension bar 12 into the silicon unit 22.

The cylinder 21 is connected to the pressure adding device (not shown) by the pressure hose, and the silicon unit 22 is inserted into the expansion bar 12 at the beginning end 121 of the expansion unit 12 while being fixed to the silicon unit holder 15. Inserted into the silicon unit 22, the tip of the inserted extension bar 12 is connected by a hook 18 and an eye bolt 17 to the rod bar 20, which is extended by the pressure-adding device.

5 shows a state in which the spiral core 23 is inserted into the core insertion portion 125 of the extension bar 12 when the inclined portion 122 of the extension bar 12 is positioned at the beginning of the silicon unit 22. The process is shown.

In the state of FIG. 4, the inclined portion 122 of the extension bar 12 is positioned at the beginning of the silicon unit 22 in the state in which the extension bar 12 is moved in the right horizontal direction as shown by the rod bar 20. If the spiral core 23 is inserted.

At this time, the spiral core 23 is located in a state in which a part of the tip portion is exposed (see FIG. 5) without being fully inserted into the extension bar 12.

FIG. 6 illustrates a process of connecting the rod bar 20 to the extension bar 12 and pulling it horizontally in the direction of the rod bar 20.

After the process of FIG. 5, the rod bar 20 is pulled horizontally in the right direction shown by the pressure unit and inserted into the extension bar 12 and the extension bar 12 connected to the rod bar 20. The spiral core 23 also moves in the horizontal direction to the right. In this process, the insertion start end 121, the inclination part 122, and the expansion part 123 of the extension bar 12 are continuously inserted into the silicon unit 22, and the silicon unit 22 includes the expansion part ( The inner diameter is extended by the outer diameter of 123).

The spiral core 23 having the tip portion is inserted behind the extension 123 inserted into the silicon unit 22, and the spiral core 23 is loaded in the silicon unit 22 and is not fixed. The expansion part 123 exits from the silicon unit 22 and is recontracted, and the recontraction contracts the spiral core 23 to be in close contact with the spiral core 23.

At the point when the silicon unit 22 is in close contact with the spiral core 23, the spiral core 23 is seated inside the silicon unit 22.

FIG. 7 shows the process with the extension bar 12 completely removed from the silicon unit 22 and the helical core 23 fully seated in the inner diameter of the silicon unit 22.

6, the tip of the extension bar 12 is completely removed from the silicon unit 22, and the spiral core 23 is seated inside the silicon unit 22 by reconstruction of the silicon unit 22. It will remain intact.

8 shows a process in which the spiral core 23 is inserted to extend the inner diameter of the silicon unit 22.

After the process of FIG. 7 is completed, when the silicon unit 22 is removed from the expansion device, the inner diameter thereof is expanded, and the finished silicon unit 22 having the spiral core 23 inserted therein can be produced. The unit 22 is used for the connection process of the ultrahigh voltage power cable in this state.

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.

11: frame 12: extension bar
13, 14: holder 15: silicon unit holder
16: load bar pressure support 17: eye bolt
18: hook 19: jig
20: rod bar 21: cylinder
22 silicon unit 23 spiral core
121: insertion end 122: inclined portion
123: extension 124: female thread tab
125: core insertion part

Claims (4)

A cylindrical rod-type insertion start end having a first outer diameter and primarily inserted into the silicon unit inner diameter;
A cylindrical rod-type expansion part having a second outer diameter larger than the first outer diameter and having an inner diameter of a predetermined size into which a spiral core is inserted, extending the inner diameter of the silicon unit;
And an inclined portion having a predetermined slope formed between the insertion end portion and the expansion portion. The method of claim 1,
The insertion end, the inclined portion and the expansion portion integrally formed or connected to each other, the expansion bar of the silicon unit. The method of claim 1,
An extension bar of the silicon unit, the female end tab is connected to the rod bar at the distal end of the insertion end. A rod-type insertion start end portion having a first outer diameter, a rod-type expansion portion having a second outer diameter larger than the first outer diameter and an inner diameter of a predetermined size, and a predetermined portion formed between the insertion start end portion and the expansion portion. An extension bar comprising a slope having a slope;
A rod bar, one end of which is connected to the insertion end of the extension bar and the other end of which is connected to the pressure unit to draw the extension bar horizontally;
And a silicon unit holder for fixing a silicon unit molded of silicon.

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