KR101344039B1 - Holder for fixing in iron tower of special high-voltage electric wire - Google Patents

Abstract

The present invention relates to a holder for fixing an extra-high voltage electric wire in a transmission pylon, which is capable of maintaining an electric contact stably and easily installing or separating the extra-high voltage electric wire in or from the transmission pylon, thereby preventing a short circuit, sparking, electric shock accident, and etc. The holder of the present invention comprises a main body, a cover, a compression member, a restoring spring, a clamping screw, and an insulator. In a state where the extra-high voltage electric wire is combined in an insertion space, the clamping screw is combined to a screw hole after passing through a screw opening so that the bottom end of the clamping screw is inserted into a guide hole, and clung to an inclined surface formed in the guide hole by fastening of the clamping screw. As the compression member moves, a blade contact portion of the compression member protrudes through an entrance hole formed at the main body toward the insertion space so that the compression member with first and second contact portions is clung to the extra-high voltage wire and connected thereto electrically. The insulator includes metal reinforcing pieces attached to the top and bottom ends, which is engaged in fastening bolts that are installed at a screw portion of the main body and a frame of the pylon.

Description

Holder for fixing in iron tower of special high-voltage electric wire}

The present invention relates to a holder for fixing a tower of a high-voltage power transmission wire, and more particularly, the coupling and disconnection of the high-voltage wire mounted on the steel tower is made easy, as well as the electrical contact is stably maintained, such as a short circuit, a short circuit, a spark, The present invention relates to a holder for fixing a pylon of a transmission high voltage wire to prevent occurrence of an electric shock accident.

In general, electricity generated at a voltage of about 20,000 V in a power plant including a thermal power plant, a hydro power plant, and a nuclear power plant is boosted to an ultra high voltage (154 KV or 345 KV) suitable for a power transmission, and is then transmitted to a primary substation through a line. do.

In the primary substation, the distributed ultra high voltage electricity is dropped to 22.9 KV, which is a special high voltage, and transmitted or distributed to each customer along the secondary substation or distribution line located near the large capacity customer.

The electricity distributed from the primary substation or the secondary substation is transmitted and distributed to the receiving facility of each customer through the transmission and distribution system consisting of overhead distribution line and underground distribution line. Used for industrial and home use.

As shown in FIG. 1, a holder A to which a special high voltage wire is installed is connected to a special high voltage wire D for transmission or distribution via an insulator C.

In the case of the holder (A), the metal bar (B) having a high strength is coupled to each other by a bolt in the form of a frame or fixed by welding to be able to withstand the load of the extra-high voltage wire (D) sufficiently.

These transmission and distribution steel towers have a plurality of lines connected to each other, each of the tracks due to the nature of being installed in high altitude due to climatic influences such as wind, snow, rain, etc. It can cause large safety accidents such as short circuit or power failure.

To this end, the maintenance work to adjust the tension of the wire is periodically performed to cope with the occurrence of safety accidents, but the frequent maintenance work not only causes inconvenience to the power users, but also hassle that the workforce must be put in.

In addition, in relation to the connection technology of the high-voltage wires as described above, Korean Patent No. 1105245 (registered on Jan. 05, 2012) discloses a holder for fixing a tower of a high-voltage transmission and distribution high voltage wire, but in the case of this technology, The practical utility was very low because it could only prevent birds from nesting by the operation of windmills.

In addition, Korean Patent No. 1241318 (registered March 4, 2013) discloses that the wire tension can be automatically and stably maintained by automatically responding to changes in tension of wires that occur naturally over time. Holder for fixing the tower of the high-voltage wire transmission and distribution, but it has a problem that the dismantling operation of the wire is very difficult because it only has a main purpose to compensate for the tension change of the wire.

On the other hand, Korean Patent No. 1161850 (registered on June 26, 2012) discloses a technology for "lead wire connector of a special high-voltage line for power distribution."

In this technology, the wire is easily coupled to the lead-in connector of the transformer to maintain a stable electrical contact and to be easily disconnected for maintenance or to be caught by the blade contact when the line is inserted into the connector. This is difficult, and part of the coating is peeled off as the track is inserted, and the inside of the track is exposed to the outside.

In addition, in order to separate the connector from the track, insert a tool such as a screwdriver into the separation groove and force the connector to be separated from the transmission and distribution line. Since the blade contact portion is holding the track, the cover of the track is separated from the connector. A problem arises that the coating is damaged by scratching the blade contact portion.

Republic of Korea Patent Registration No. 1105245 (2012.01.05. Registered) Name of the invention: Holder for fixing the tower of high-voltage wire transmission and distribution. Republic of Korea Patent No. 1221318 (registered March 4, 2013) Name of the invention: Holder for fixing the tower of the high-voltage wires of power distribution. Republic of Korea Patent No. 1161850 (registered on June 26, 2012) Name of the invention: Lead-in connector of the special high-voltage line for transmission and distribution.

The present invention has been made to solve the above-described problems of the prior art, the object of the present invention is to ensure that the electrical contact state is stable as it can bind to the steel tower via a holder having an insulator body on the extra-high voltage wire It is to provide a holder for fixing the tower of the transmission high-voltage wire that can be maintained as well as maintenance is very easy.

The present invention for achieving the above object, the first contact portion of the conical shape is formed at the bottom of the insertion space is assembled to the high-voltage wire, the insertion hole and the guide groove having an access hole toward the insertion space on both sides is formed A main body having a screw hole penetrating through the insertion hole at an upper surface thereof; A cover coupled to an upper side of the main body and having a screw hole corresponding to the screw hole and a second contact portion having an inverse conical shape formed on a bottom surface thereof; It is assembled in the guide groove of the insertion hole formed in the main body having a moving portion and a blade contact portion formed on one end of the moving portion, and is elastically inserted or protruded by a coil spring mounted in the coupling hole formed on both sides of the other end A pressing member having a guide hole having an inclined surface such that one side of the region is open toward the top, including a separation preventing part to be separated; Restoring spring mounted in the insertion hole of the main body so that elasticity is applied to the pressing member; A fixing screw which fixes the cover to the main body and has a lower end in an inverted cone shape; And the insulators assembled to the fastening bolts fixed to the screws of the lower end of the main body and the frame of the steel tower, respectively, in the state where the extra high voltage wire is assembled in the insertion space, through the fixing holes through the screw holes in the screw holes. The lower end of the fixing screw is inserted into the guide hole of the moving part by being coupled, and is in close contact with the inclined surface formed in the guide hole by the fastening of the fixing screw, while the pressing member moves to open and close the entrance hole formed in the main body. Compression members including the first and second contact portions are electrically connected to the high-voltage wires by being protruded into the insertion space, and are electrically connected to the upper and lower ends of the insulator through a metal reinforcing piece and a screw part and a steel tower. Characterized in that configured to be screwed to each of the fastening bolts fixedly fixed to the frame.

According to the holder for fixing the tower of the high-voltage power transmission wire according to the present invention, as well as preventing the damage of the high-voltage wire, as well as easy connection or disconnection of the wire, easy maintenance, electrical contact is made stable, short circuit or short circuit It will have the effect of preventing sparks, electric shock, etc.

1 is a view illustrating a holder for fixing a tower of a conventional power transmission high voltage wire,
Figure 2 is a perspective view schematically showing the installation state of the holder for fixing the tower of the transmission high voltage wire according to the present invention,
3 is an exploded perspective view for explaining the configuration of the holder shown in FIG.
4 is a perspective view showing the assembled state of the holder,
5 is a view showing a flat cross section of the pressing member mounted to the holder;
Figure 6a is a view showing a cut line VI-VI of Figure 4 without fastening the fixing screw to the cover,
Figure 6b is a view showing a cut line VI-VI of Figure 4 in a state that the fixing screw is fastened to the cover,
7 is a cross-sectional view taken along line VV of FIG. 6A;
And
FIG. 8 is a cross-sectional view taken along the line VI-VI of FIG. 6B.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Prior to the description of the present invention, the following specific structure or functional description is merely illustrative for the purpose of describing an embodiment according to the concept of the present invention, and embodiments according to the concept of the present invention may be embodied in various forms , And should not be construed as limited to the embodiments described herein.

In addition, since the embodiments according to the concept of the present invention can make various changes and have various forms, specific embodiments are illustrated in the drawings and described in detail herein. However, it should be understood that the embodiments according to the concept of the present invention are not intended to limit the present invention to specific modes of operation, but include all modifications, equivalents and alternatives falling within the spirit and scope of the present invention.

Figure 2 is a perspective view schematically showing the installation state of the holder for fixing the tower of the transmission high voltage wire according to the present invention, Figure 3 is an exploded perspective view for explaining the configuration of the holder shown in Figure 1, Figure 4 is an assembled state of the holder 5 is a view showing a flat cross-section of the pressing member mounted to the holder, Figure 6a is a view showing a cut line VI-VI of Figure 4 without fastening the fixing screw to the cover, Figure 6b is a cover 4 is a cross-sectional view taken along the line VI-VI of FIG. 4 in a state where the fixing screw is fastened to FIG. 4, FIG. 7 is a cross-sectional view taken along the line VV of FIG. 6A, and FIG. 8 is a cross-sectional view taken along the line VI-VI of FIG. 6B.

Referring to these drawings, in the case of the holder for fixing the tower of the power transmission high voltage wire according to the embodiment of the present invention, the main body 1 and the cover 2 and the pressing member 3, the restoring spring 4, fixed The screw 5, the insulator 6, and the metal reinforcing pieces 7A and 7B are comprised.

They can be mounted using a fastening bolt 10 welded on the frame 9 fixed to the steel tower 8 in a state of mutual assembly, and an extra-high voltage wire between the main body 1 and the cover 2. 100 is excreted.

The main body 1 has an upper portion formed in a substantially rectangular parallelepiped, and a lower portion is formed in a cylindrical shape, and an insertion space 11 formed at an upper side, a rear side, and an upper end thereof is formed in the upper portion so that the transmission line 100 is inserted therein. Two screw holes 16 are formed on both sides of the upper surface of the space 11, respectively.

In addition, two insertion holes 13 are formed on both sides of the upper portion of the main body 1 toward the insertion space 11, and at the same time, guide grooves 15 are formed on the side surfaces of the insertion holes 13. Cylindrical entrance holes 14 to which the insertion space 11 and the insertion hole 13 are connected are formed, respectively. At this time, the screw hole 16 is formed through the insertion hole (13).

In addition, a threaded portion 17 is formed on the circumferential surface of the lower end of the main body 1, and a plurality of first contact portions 12 having a substantially conical shape protrudes from the bottom of the insertion space 11, and the electricity is generally applied. The conductive metal is made of conductive material.

The cover 2 is formed by penetrating four threaded holes 21 corresponding to the screw holes 16 in a substantially rectangular pad shape.

The pressing member 3 is configured to include a moving part 31, the blade contact portion 32, the separation prevention part 35.

The moving part 31 is a substantially rectangular parallelepiped having two spring holes 34 into which a restoring spring 4 is inserted into one surface thereof, and coupling holes 36 into which the separation preventing part 35 is inserted at both sides thereof. Are formed respectively, and guide holes 33 penetrating to the upper and lower ends are formed.

The upper opening of the guide hole 33 is formed in the form of a long hole toward one surface of the moving part 31, and at the same time, the lower end is formed in a cylindrical shape, and is inserted into the insertion hole 13 of the main body 1 and slides.

At this time, the guide hole 33 is formed to be open toward the upper portion, it is formed to open only toward one surface of the moving part 31, the inclined surface 33a is formed in one region of the guide hole 33.

The blade contact portion 32 protrudes on one surface of the moving portion 31 in a conical shape and is assembled with the insertion hole 13 together with the moving portion 31, so that the moving portion 31 moves, and the blade contact portion ( 32 also moves together, and when the moving part 31 moves toward the insertion space 11, the blade contact part 32 protrudes through the entrance hole 14.

The separation prevention part 35 is formed in a substantially hat-shaped hat and is inserted into the coupling hole 36 of the moving part 31 and the end thereof is caught by the coupling hole 36.

At this time, the coil spring 37 is installed between the coupling hole 36 of the moving part 31 and the separation preventing part 35 so that the separation preventing part 35 protrudes to the outside of the moving part 31. Accordingly, the departure prevention part 35 may maintain a state protruding from both sides of the moving part 31.

In this case, when the moving part 31 is assembled into the insertion hole 13 while the release preventing part 35 is pressed, the leaving part 35 is inserted into and constrained in the guide groove 15, thereby moving the part 31. Does not escape from the insertion hole (13).

The restoring springs 4 are fitted into the spring holes 34 of the moving part 31, respectively, and are assembled into the insertion holes 13 together with the moving part 31. As a result, the restoring spring 4 pushes the moving part 31 so that the moving part 31 can be disposed outside the main body 1.

The fixing screw 5 is formed in the shape of an inverted cone having a lower end, and is screwed into the screw hole 16 of the main body 1 through the screw hole 21 of the cover 2.

Accordingly, when the fixing screw 5 is tightened while the cover 2 is covered with the main body 1, the lower end of the fixing screw 5 is inserted into the guide hole 33 while pushing the inclined surface 33a to move the moving part. As the 31 moves, the blade contact portion 32 protrudes from the entrance hole 14, and when the fixing screw 5 is released, the fixing screw 5 is separated from the guide hole 33 by the restoring spring 4. The blade contact portion 32 is inserted into the protruding hole.

In addition, insertion holes 6a and 6b are formed in the upper and lower centers of the insulator 6, respectively, and metal reinforcing pieces 7A and 7B are integrally embedded in the insertion holes 6a and 6b, respectively. .

The metal reinforcing piece 7A embedded in the upper end of the insulator 6 is assembled with a screw portion 17 formed at the bottom of the main body 1, and the lower metal reinforcing piece 7B is fixed to the steel tower 8 with a frame ( 9) is screwed into the fastening bolt 10 is welded on.

Next, the state of use of the holder for fixing the tower of the power transmission high voltage wire according to the embodiment of the present invention will be described in detail.

First, the screw 17 of the main body 1 constituting the holder is assembled to the metal reinforcing piece 7A at the upper end of the insulator 6, and then the metal reinforcing piece 7B at the lower end of the insulator 6 is attached to the steel tower 8 By assembling the fastening bolt 10 fixed on the frame 9, the holder can be arranged at a predetermined position of the frame 9 to bind the extra high voltage wire 100.

That is, the cover 2 is disposed so that the special high voltage wire 100 can be inserted into the insertion space 11 of the main body 1 in a state in which the cover 2 is separated from the main body 1. On top of the).

When the cover 2 is disposed on the upper end of the main body 1, the fixing screw 5 is inserted into the screw hole 21 of the cover 2, and then the fixing screw 5 is tightened.

At this time, when the fixing screw 5 is tightened, the lower end of the fixing screw 5 is inserted into the guide hole 33 of the moving part 31, and the lower end of the fixing screw 5 is inclined surface 33a of the guide hole 33. Close to)

Thus, if the lower end of the fixing screw 5 is in close contact with the inclined surface 33a of the guide hole 33 and the fixing screw 5 is still tightened, the lower end of the fixing screw 5 pushes out the inclined surface 33a. As a result, the moving part 31 moves toward the insertion space 11.

Therefore, the blade contact portion 32 formed on the moving part 31 abuts against the extra-high voltage wire 100 while gradually protruding from the entrance hole 14, and the end of the blade contact portion 32 is the extra-high voltage wire 100. It is penetrated and connected electrically.

At this time, if the extra-high voltage wire 100 has a sheath (not shown), the blade contact portion 32 penetrates the sheath and the edge of the blade contact portion 32 is lodged in the extra-high voltage wire 100 to be electrically connected. .

In addition, while the cover 2 is in close contact with the main body 1, the end of the second contact portion 22 and the end of the first contact portion 12 penetrate through the extra high voltage wire 100 and get stuck into the extra high voltage wire 100. Is electrically connected).

As such, the first contact part 12, the second contact part 22, and the crimping member 3 are electrically connected to the extra-high voltage wire 100 so that the electrical contact is stably maintained. The pressing member 3 including the second contact portions 12 and 22 can be prevented from flowing as the extra high pressure wire 100 is restrained.

On the other hand, when the fixing screw 5 is released to separate the holder from the extra-high voltage wire 100, the fixing screw 5 leaves the guide hole 33 and at the same time, the pressing member 3 is removed by the restoring spring 4. Moves outwards. At this time, the blade contact portion 32 embedded in the extra-high voltage wire 100 is separated from the extra-high voltage wire 100.

After removing the fixing screw 5, the cover 2 may be opened to separate the cover 2 and the main body 1 from the extra-high voltage wire 100. This is because the first contact portion 12 and the second contact portion 22 are arranged on the same line as the separation direction of the cover 2 and the main body 1, so that the cover 2 and the main body 1 can be easily separated. It can be.

If the blade contact portion 32 of the crimping member 3 is embedded in the extra-high voltage wire 100, the main body 1 is difficult to be separated from the extra-high voltage wire 100 by the blade contact portion 32. In the case of the present invention, since the blade contact portion 32 is completely separated from the extra-high voltage wire 100, the separation can be easily performed.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be taken by way of limitation, It shall not be understood to be.

Therefore, it should be understood by those skilled in the art that the present invention may be embodied in many other specific forms without departing from the spirit or scope of the invention. The present invention is not limited thereto.

One; Body 2; cover
3; Pressing member 4; Restoration Spring
5; Fixing screw 6; Insulator
6a, 6b; Insertion holes 7A, 7B; Metal reinforcement
8; Pylon 9; frame
10; Fastening bolt 11; Insertion space
12; A first contact portion 13; Insert ball
14; Access hole 15; Guide groove
16; Screw hole 17; Thread
21; Screw hole 22; 2nd contact point
31; Moving part 32; Blade contact
33; Guide hole 33a; incline
34; Spring hole 35; Departure prevention part
36; Coupling hole 37; Coil spring
100; Extra High Voltage Wire

Claims (1)

A conical first contact portion 12 is formed at the bottom of the insertion space 11 into which the extra-high voltage wire 100 is assembled, and an insertion hole having an entrance hole 14 at both sides toward the insertion space 11. 13 and a guide groove 15 is formed, the main body (1) having a screw hole (16) penetrating through the insertion hole (13) on the upper surface;
A cover (2) coupled to the upper side of the main body (1) and having a screw hole (21) corresponding to the screw hole (16) and a second contact portion (22) having an inverted conical shape on a bottom surface thereof;
It is provided with a moving part 31 assembled in the guide groove 15 of the insertion hole 13 formed in the main body 1 and the blade contact portion 32 formed at one end of the moving part 31, The inclined surface 33a includes a separation prevention part 35 that is elastically inserted or protruded by the coil spring 37 mounted in the coupling hole 36 formed at both sides of the other end so that one region is opened upward. A pressing member 3 having a guide hole 33 having;
Restoring spring (4) mounted in the insertion hole (13) of the main body (1) so that elasticity is applied to the pressing member (3);
A fixing screw 5 which fixes the cover 2 to the main body 1 and has a lower end in an inverted cone shape;
It includes a screw portion 17 formed on the lower end of the main body 1 and the insulators 6 are assembled to the fastening bolt 10 is fixed to the frame 9 of the steel tower 8, respectively,
The lower end of the fixing screw 5 is coupled to the screw hole 16 through the screw hole 21 in the state where the extra high voltage wire 100 is assembled in the insertion space 11. It is inserted into the guide hole 33 of the moving part 31, is in close contact with the inclined surface (33a) formed in the guide hole 33 by the fastening of the fixing screw (5), while the pressing member (3) is moved Compression member 3 including the first and second contact portions 12, 22 by the blade contact portion 32 protruding into the insertion space 11 through the access hole 14 formed in the main body 1. ) Is in close contact with the extra-high voltage wire 100 and electrically connected,
The upper and lower ends of the insulator 6 are provided on the fastening bolt 10 fixed to the screw part 17 formed on the main body 1 and the frame 9 of the steel tower 8 via metal reinforcing pieces 7A and 7B. Holder for fixing the tower of the power transmission high-voltage electric wire, characterized in that configured to screw each.

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