KR20140045166A - Cable connection member for very low frequency diagnosis - Google Patents

Abstract

The present invention relates to a cable connection member for very low frequency diagnosis and more particularly to a cable connection member for very low frequency diagnosis for providing an easy access between a cable installed in the underground and diagnosis equipment performing a low frequency diagnosis on the cable and having no change in the cable length even when a connection member is detached from the cable after performing the low frequency diagnosis. For this, the present invention relates to a cable connection member installed at both ends of a cable to perform a low frequency diagnosis. A connection assembly installed at one end of the cable and connected with a lead wire of low frequency diagnosis equipment includes a housing-shaped insulating body including a first coupling groove at a lower part into which an end part of the cable is inserted, a second coupling groove connected to the first coupling groove and into which a conductive wire exposed to the outside at the end part of the cable is inserted, and a threaded hole at the outer surface connected to the second coupling groove; a fixing member provided at the second coupling groove and fixing the conductive wire to be conductive; and a tightening screw having one end coupled to the threaded hole to allow the fixing member to fix the conductive wire as it rotates and the other end having a connection head connected to the diagnosis equipment for performing a low frequency diagnosis.

Description

Cable connection member for low frequency diagnostics {CABLE CONNECTION MEMBER FOR VERY LOW FREQUENCY DIAGNOSIS}

The present invention relates to a low-frequency diagnostic cable connecting member, and more particularly, to facilitate connection between the diagnostic equipment for performing low-frequency diagnostics to the cable installed in the underground and the cable, and to remove the connecting member from the cable after performing low-frequency diagnostics. The present invention relates to a low frequency diagnostic cable connecting member having no length fluctuation of a cable.

In general, any abnormalities that may occur due to aging or breakage due to deterioration of the power cable are detected by the partial discharge test method of the non-destructive testing method.

The partial discharge test method is a method in which a partial discharge generated in an insulating material is measured to diagnose whether or not it is deteriorated. The judgment standard is normally determined to be good when a discharge amount of a predetermined size or less is measured at a specified voltage.

A typical partial discharge test method uses a metal electrode in which a thin metal plate is rolled up in a cylindrical shape as a sensor for detecting the presence or absence of a power cable. Such a metal electrode is attached on the outer half-conductor layer of the cable of the power cable A partial discharge generated from the cable insulator of the power cable is sensed.

The power cable includes a cable conductor located at the center of the cable, a cable insulator formed on the outer side of the cable conductor, a cable outer semiconductive layer formed on the outer side of the cable conductor, and a cable sheath formed on the outer side.

In addition, the metal electrode is connected to a coaxial cable to send the detected partial discharge signal to the outside, and is directly connected to a lead wire of a predetermined length embedded in the coaxial cable.

The grounding lead wire of the coaxial cable is connected to the cable sheath, and the grounding lead wire is connected to the cable sheath, thereby causing the grounding lead to be disconnected from the lead wire.

Here, the lead wire generates a predetermined distance difference between the metal electrode and the cable sheath by a normal sensing sensitivity calculation method that the sensing sensitivity of the metal electrode is determined according to the change of the resistance value, The length of the lead wire is increased by the grounding lead wire.

In the conventional sensor for detecting partial discharge, since the lead wire is relatively long in order to secure a constant resistance value, electromagnetic induction is generated in the lead wire, thereby affecting the sensing sensitivity, so that the sensing sensitivity for the partial discharge is not quantitative.

As prior art related to this, Korean Patent Laid-Open Publication No. 1996-0024411 (High frequency output voltage level control using low frequency signal and IFL cable continuity checking circuit and method, published on July 20, 1996) is available.

The present invention comprises a connection assembly installed at one end of the cable to facilitate the connection between the cable and the low frequency diagnostic equipment, and an insulation assembly installed at the other end of the cable to insulate the cable safely and easily. An object of the present invention is to provide a low frequency diagnostic cable connecting member.

Another object of the present invention is to provide a low-frequency diagnostic cable connecting member that is easy to detach and detach the connection assembly and the insulation assembly after performing low frequency diagnostics on the cable, and that can be reconnected to the direct connection member without extending the cable after detachment. have.

Still another object of the present invention is to provide a terminal for easily connecting wires of a cable coupled to the connection assembly, and to connect the low frequency diagnostic equipment at the same time as the fixing of the wires. To provide.

In order to solve the above problems,

The present invention relates to a cable connecting member for performing low frequency diagnosis by installing at both ends of a cable, the connection assembly is installed at one end of the cable is connected to the lead wire of the low frequency diagnostic equipment, the end of the cable is inserted below A first coupling groove is formed, and a second coupling groove is formed to be connected to the first coupling groove to insert a conductor exposed to the outside from the end of the cable, and an outer surface is formed with a screw hole connected to the second defect groove. A fixing member provided in the housing-shaped insulating body and the second coupling groove so that the conductive wires can be energized, and one end thereof is fastened to the screw hole so that the fixing member fixes the conductive wires according to rotation. And a fastening screw in which a connection head is connected to the diagnostic apparatus for performing low frequency diagnosis.

The cable connection member, which is installed at the other end of the cable, is provided with a pair of insulating covers coupled to face each other and surrounding the other end of the cable, and a coupling member for coupling the pair of insulating covers to each other. It is further provided with an insulating assembly for insulating.

The fixing member is disposed to face the screw hole in the second coupling groove so that the support portion is seated and the front surface of the second coupling groove faces the support portion, and an insertion groove corresponding to the screw hole is formed on the rear surface of the fixing member. It is composed of a pressing portion is formed.

The insertion groove may be freely rotatable with respect to the outer ring, and further includes a bearing having an inner ring for supporting one end of the tightening screw and a fixing pin inserted between the inner circumferential surface of the insertion groove and the outer ring to fix the bearing.

The inner ring of the bearing has a front surface protruding forward of the outer ring to contact the bottom surface of the insertion groove, and a rear surface protruding rear of the outer ring to be fixed to one end of the tightening screw.

The tightening screw is formed with a guide groove recessed along the outer diameter of the connection head.

The pair of insulating covers are formed with recesses recessed along the longitudinal direction of the insulating cover at portions where the insulating covers abut each other.

The insulation assembly may further include a cover portion coupled to an upper portion of the insulation cover to open and close the seating groove.

According to the solution of the above problems,

The present invention facilitates the connection of the low frequency diagnostic equipment and the cable to perform low frequency diagnostics, and after low frequency diagnostics, there is no need for a separate cable extension work to connect the cable to the linear connection member, thereby improving work efficiency. .

In addition, during the low frequency diagnosis, the other end of the cable may be equipped with an insulation assembly to perform a safe low frequency diagnosis.

1 is a view schematically showing a low-frequency diagnostic cable connecting member according to the present invention.
Fig. 2 is a side view showing a cross section of the connection assembly of the present invention.
FIG. 3 is an enlarged view of part A of FIG. 2.
4 is a perspective view showing a fixing member embedded in the connection assembly of the present invention.
5 is a perspective view schematically showing the insulation assembly of the present invention.
FIG. 6 shows an embodiment of the insulation assembly according to FIG. 5. FIG.
Fig. 7 is a side view showing the cross section of Fig. 6.
FIG. 8 is a bottom view schematically showing the connection assembly of FIG. 4. FIG.

Hereinafter, a low frequency diagnostic cable connecting member according to the present invention will be described with reference to the accompanying drawings.

1 is a view schematically showing a low-frequency diagnostic cable connecting member according to the present invention, FIG. 2 is a side view showing a cross section of the connection assembly of the present invention, and FIG. 3 is an enlarged view showing part A of FIG. 4 is a perspective view showing a fixing member embedded in the connection assembly of the present invention, FIG. 5 is a perspective view schematically showing the insulating assembly of the present invention, and FIG. 6 is an insulating assembly according to FIG. 7 is a side view showing the cross section of FIG. 6, and FIG. 8 is a bottom view schematically showing the connection assembly of FIG. 4.

The low frequency diagnostic cable 10 connection member according to the present invention is installed at one end or both ends of the cable 10 used in the ground to perform low frequency diagnosis using low frequency diagnostic equipment, see FIG. 1. The low frequency diagnostic cable 10 connection member according to the present invention will be described as follows.

And a cable 10 connecting member installed at both ends of the cable 10 to perform low frequency diagnosis, wherein a lead wire (not shown) of the low frequency diagnostic equipment (not shown) is installed at one end of the cable 10. The connection assembly 100 to be connected has a first coupling groove 111 into which an end of the cable 10 is inserted, and is connected to the first coupling groove 111 to be connected to the end of the cable 10. The second coupling groove 112 is inserted into which the conductive wire 11 exposed to the outside is formed, the outer surface of the housing body 110 is formed with a screw hole 113 is connected to the second defect groove 112 ) And a fixing member 120 provided at the second coupling groove 112 to securely conduct the conductive wire 11 and one end thereof are fastened to the screw hole 113 to rotate the fixing member 120. ) Is fixed to the wire 11, the other end is connected to the diagnostic equipment for performing the low frequency diagnosis Head 131 includes a tightening screw 130 is formed.

The low frequency diagnostic cable connection member according to the present invention is installed on the other end of the cable 10, is coupled to face each other and a pair of insulating covers 210 and the other end of the cable 10, the pair of A coupling member 220 for coupling the insulation cover 210 to each other is provided to further insulate the insulation assembly 200 to insulate the cable 10.

The insulating body 110 is inserted into one end of the cable 10 in a state in which the conductive wire 11 is exposed at an end thereof, and as shown in FIG. 2, it is recessed upward from the lower surface of the insulating body 110. The first coupling groove 111 is formed, and the second coupling groove 112 recessed upward from the upper surface of the first coupling groove 111 is formed in multiple stages.

The second coupling groove 112 is a place where the conductive wire 11 exposed to the outside is inserted, and the first coupling groove 111 is a portion into which an end portion of the cable 10 coated with an insulating material is inserted.

The side of the second defect groove is formed with a screw hole 113 connected to the outer surface of the insulating body (110).

The insulating body 110 is molded using an insulating material such as vulcanized rubber.

The second defect groove is provided with a fixing member 120 for fixing the conductive wire 11 so that the conductive wire 11 can be energized. Referring to FIG. 4, the fixing member 120 has a second coupling groove 112. The front surface facing the support portion 121 in the support portion 121 and the second coupling groove 112 in which the conductive wire 11 is seated so as to face the screw hole 113 within the back side and the back Consists of the pressing portion 122 is formed with the insertion groove 123 corresponding to the screw hole 113.

The support part 121 has a cross-section cut in a horizontal shape as a "C" shape, and the conductive wire 11 of the cable 10 is seated therein.

The pressing part 122 is located at the cut portion of the support part 121 and moved to the inside of the support part 121 according to the manipulation of the tightening screw 130 to press the conductive wire 11, or the second It moves to the inner wall side of the engaging groove 112, and loosens the clamping force which pressurized the conductor wire 11.

The insertion groove 123 may be freely rotated with respect to the outer ring 126, and the bearing 124 and the inner circumferential surface of the insertion groove 123 is provided with an inner ring 125, one end of the tightening screw 130 is supported; A fixing pin 127 is inserted between the outer ring 126 to fix the bearing 124.

That is, the outer ring 126 of the bearing 124 is fixed to the insertion groove 123 by the fixing pin 127, the inner ring 125 with respect to the outer ring 126 can be freely rotated.

One end of the tightening screw 130 fastened through the screw hole 113 is supported by the inner ring 125 to rotate the tightening screw 130 to move the pressing part 122 to the conductive wire 11. When the pressing unit 122 is moved forward or backward, the pressing unit 122 is prevented from interlocking by the rotational force of the tightening screw 130.

As shown in FIG. 3, the inner ring 125 of the bearing 124 has a length of the inner ring 125 longer than that of the outer ring 126, so that the front surface protrudes forward of the outer ring 126 to insert the groove. The bottom surface of the contact 123, the rear surface is projected to the rear of the outer ring 126 is fixed to one end of the tightening screw 130 so that one end of the tightening screw 130 is supported only on the inner ring 125 do.

The tightening screw 130 is fastened to the screw hole 113 to move the pressing portion 122 in the direction of the conductive wire 11 in accordance with the rotation to fix the conductive wire 11, or the pressing portion 122. To loosen the holding force of the pressing unit 122 to facilitate the detachment of the connection assembly 100 to the cable 10 (see FIG. 8).

Here, in order to loosen the clamping force of the pressing portion 122 by rotating the tightening screw 130 in the opposite direction and at the same time so that the pressing portion 122 is reversed by one end of the tightening screw 130, the tightening screw ( One end of the 130 and the inner ring 125 of the bearing 124 may be coupled to each other or may be attached by magnetic force.

A connection head 131 is formed in the tightening screw 130 to simplify electrical connection with a diagnostic device for performing low frequency diagnosis. For this purpose, the connection head 131 is recessed along the outer surface of the diagnostic device. Guide grooves 132 are formed to facilitate the connection between the lead wires and the connection head 131.

The tightening screw 130, the support part 121, and the pressing part 122 may be made of metal so as to be electrically energized with the conductive wire 11 of the cable 10.

As shown in FIG. 5, the insulating assembly 200 includes a pair of insulating covers 210 and a coupling member 220 coupling the insulating covers 210 to each other.

The pair of insulating covers 210 are provided with seating grooves 211 recessed along the longitudinal direction of the insulating cover 210 at portions where the insulating covers 210 abut each other.

The insulating cover 210 and the coupling member 220 is preferably made of an insulating material to insulate the other end of the cable 10.

Although the coupling member 220 uses a bolt and a nut in the present invention, any one that can firmly couple the pair of insulating covers 210 may be used.

On the other hand, the insulation assembly 200 may be further provided with a cover portion 230 coupled to the upper portion of the insulation cover 210 to open and close the seating groove 211 from the outside (see FIGS. 6 and 7). ).

That is, when the insulation assembly 200 is coupled to the other end of the cable 10, when the upper portion of the insulation assembly 200 is viewed, the conductor 11 of the other end of the cable 10 is inserted into the seating groove 211. Although exposed, the external conductor is prevented from contacting the conductive wire 11 inside the seating groove 211.

Hereinafter, an example of using the low-frequency diagnostic cable 10 connection member according to the present invention will be described.

In the present invention, the cable 10 is installed in the ground, one end is connected to the ground switch, the other end is drawn into the ground, in the ground the cable 10 is continuously connected by a straight connector, the manhole It is formed so that the worker can enter the ground and perform the installation and maintenance of the cable, and the like.

First, as a method for low frequency diagnosis on the cable 10 of the manhole section in the switch, the lead wire of the low frequency diagnostic equipment is connected to the switch to which one end of the cable 10 is connected.

Then, the other end of the cable 10 is detached from the linear connecting member, and the other end of the cable 10 is positioned in the seating groove 211 of the pair of insulating covers 210 and the coupling member 220 is used. After the pair of insulating covers 210 are coupled to each other, the cover assembly 230 is coupled to the opposite side from which the cable 10 is inserted in the insulating assembly 200 to insulate the other end of the cable 10 and then diagnose the low frequency. Low frequency diagnosis of the cable 10 is performed using equipment.

Next, when performing low frequency diagnosis on the cable 10 of the manhole and the manhole section, the connection assembly 100 is coupled to one end of the cable 10 to lead the low frequency diagnostic equipment to the connection assembly 100. And insulate the other end of the cable 10 by using the insulation assembly 200.

The method for performing low frequency diagnosis on the manhole and the cable 10 of the manhole section will be described in more detail. Since the cables 10 of each section are connected to each other by a linear connecting member, the cable 10 to perform low frequency diagnosis is provided. The other end of the coupling member is separated from the straight connection material, and the conductive wire 11 exposed to the other end of the cable 10 is positioned in each seating groove 211 formed in the pair of insulating covers 210, and then the coupling member The pair of insulating covers 210 are coupled to each other using a 220.

The insulation cover 210 is firmly fixed to the other end of the cable 10 and by using the cover portion 230 to prevent the outer conductor from contacting the conductor 11 in the seating groove 211 the cable ( Insulate the other end of 10) completely.

The first coupling groove 111 of the insulating body 110 is connected to the one end of the cable 10 and a straight line connecting member 11 exposed to one end of the cable 10 and one end of the cable 10. Couple to each other and inserted into the second coupling groove (112).

The conductive wire 11 exposed to one end of the cable 10 is seated on the support part 121 in the second coupling groove 112, and when the tightening screw 130 is tightened, the pressing part 122 supports the support part ( One end of the cable 10 may be fixed in the insulating body 110 by pressing the conductive wire 11 by advancing toward the conductive wire 11 seated on 121.

Thereafter, the lead wire of the low frequency diagnostic equipment is connected to the guide groove 132 formed in the connection head 131 of the tightening screw 130, and thus, between the lead wire of the low frequency diagnostic equipment and the lead wire 11 of the cable 10. The join operation can be done easily.

When the low frequency diagnosis is completed as described above, the lead wire of the low frequency diagnostic equipment is disconnected from the connection head 131, and the pressing screw 130 is released to pressurize the wire 11 in the second coupling groove 112. By reversing the unit 122, the connection assembly 100 is easily separated from one end of the cable 10, and the coupling member 220 is released to separate the insulation cover 210 from the other end of the cable 10. In addition, the insulation assembly 200 may be easily separated.

When the separation of the cable 10 connection member according to the present invention is completed, one end and the other end of the cable 10 is recombined to each linear connection material that is originally coupled to complete the low frequency diagnosis operation.

As such, by using the low frequency diagnostic cable 10 connection member according to the present invention, the operation of connecting the insulation of the cable 10 and the lead wire of the low frequency diagnostic equipment to the cable 10 can be easily performed, thereby improving work efficiency. There is an effect to be improved.

In addition, there is an advantage that the removal operation of the low-frequency diagnostic cable 10 connection member can be easily performed.

Particularly, in order to perform the conventional low frequency diagnosis, a low frequency diagnosis is performed by pressing an elbow connecting member at one end of the cable 10. After completing the low frequency diagnosis, a part of the cable 10 must be cut to separate the elbow connecting material. In order to reconnect the cable 10 to the linear connection material, the cable 10 should be extended as much as the cable 10 is cut, whereas the low frequency diagnostic cable 10 connecting member according to the present invention is In this case, after the low frequency diagnosis operation is completed, the both ends of the cable 10 need only be reconnected to the respective linear connecting members which were originally connected, thereby enabling reconnection without cutting the cable 10, thereby reducing the work time. It is effective to reduce the cost of low frequency diagnosis.

It will be understood by those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention as defined by the appended claims. It is self-evident.

10 cable 11 wire
100: connection assembly 110: insulated body
111: first coupling groove 112: second coupling groove
113: screw hole 120: fixing member
121: support portion 122: pressing portion
123: insertion groove 124: bearing
125: inner ring 126: outer ring
127: fixing pin 130: captive screw
131: connection head 132: guide groove
200: insulation assembly 210: insulation cover
211: mounting groove 220: coupling member
230: cover part

Claims (8)

A cable connection member for performing low frequency diagnosis by installing at both ends of a cable, wherein the connection assembly provided at one end of the cable and connected to a lead wire of a low frequency diagnosis device includes:
The first coupling groove is formed in the lower portion is inserted into the end of the cable, the second coupling groove is connected to the first coupling groove is inserted into the conductor exposed to the outside from the end of the cable is formed, the outer surface An insulating body of a housing shape having a screw hole connected to the second defect groove;
A fixing member provided in the second coupling groove to securely conduct the conductive wire; And
One end is fastened to the screw hole so that the fixing member is fixed to the wire in accordance with the rotation, the other end is a fastening screw is formed a connection head is connected to the diagnostic equipment for performing the low frequency diagnostics; Diagnostic cable connection member. The method according to claim 1,
The cable connecting member,
As installed on the other end of the cable, a pair of insulating covers coupled to face each other and surrounding the other end of the cable and a coupling member for coupling the pair of insulating covers are provided with an insulation assembly for insulating the cable Low frequency diagnostic cable connection member characterized in that it is further provided. The method according to claim 1,
Wherein:
A support part disposed to face the screw hole in the second coupling groove to seat the conductive wire; And
Low pressure diagnostic cable connection member, characterized in that the front surface facing the support in the second coupling groove, the pressing portion is formed in the insertion groove corresponding to the screw hole on the back. The method of claim 3,
In the insertion groove,
A bearing freely rotatable with respect to the outer ring and having an inner ring on which one end of the tightening screw is supported; And
And a fixing pin inserted between an inner circumferential surface of the insertion groove and an outer ring to fix the bearing. The method of claim 4,
The inner ring of the bearing,
And a front surface protruding forward of the outer ring to contact the bottom surface of the insertion groove, and a rear surface protruding toward the rear of the outer ring to be fixed to one end of the tightening screw. The method according to claim 1,
The tightening screw,
And a guide groove recessed along the outer diameter of the connection head. The method according to claim 1,
The pair of insulating covers,
The cable connection member for low-frequency diagnostics, characterized in that the recessed groove is formed in each of the insulating cover in contact with each other recessed along the longitudinal direction of the insulating cover. The method according to claim 2,
The insulation assembly,
The cover portion coupled to the upper portion of the insulating cover for opening and closing the seating groove; Low frequency diagnostic cable connecting member further comprising.

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