KR101241318B1 - Holder for fixing in iron tower of special high-voltage electric wire - Google Patents

Abstract

PURPOSE: A holder for fixing a transmission and distribution extra high voltage line in a pylon is provided to facilitate an installation process by accurately checking the sag state of a transmission and distribution line in real time. CONSTITUTION: An actuator body(10) is fixed on the upper side of a pylon frame(100). A ball screw(20) is connected to a motor(11) embedded in the actuator body. A fixing plate(30) fixes a leading end of the ball screw by a bearing combination. A pair of guide rods(40) are parallel to the ball screw. A tension control unit(50) includes a movement block which axially moves by the rotation of the ball screw. A rotation angle sensor(70) senses a rotation angle of an operation unit(60).

Description

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

The present invention relates to a holder for fixing a steel tower of a transmission and distribution high-voltage cable, more specifically, a connection rod connected to the insulator when the change width is more than a predetermined range while allowing the tension change of the transmission distribution line that occurs naturally over time. It is related to the holder for fixing the tower of the transmission and distribution high-voltage cable to automatically maintain a constant and stable tension of the transmission and distribution line by advancing forward and backward coupled tension control.

Generally, a steel tower used as a support of a transmission and distribution line is different depending on power, voltage, deformity, etc., of the line, and may be 60 m in height.

The L-shaped steel is used to form a square shape while the foundation is fixed to the concrete structure.

Steel towers of transmission and distribution lines usually support three-phase, two-wire, or six wires with insulators, and the distance between the pylons is 20 to 30 m, and the minimum height from the surface of the wires installed on the tower is the electrical equipment technology. In the case of a track of 150,000 V, for example, it is 6 m.

Pylon for transmission and distribution line allows a plurality of transmission and distribution lines to be connected to each other, and these transmission and distribution lines are installed at high altitudes and are subject to a lot of climatic influences such as wind, snow and rain due to the characteristics of being installed at high altitudes. It is installed.

Transmission and distribution lines cause sag on the track after a certain time, and when strong winds such as typhoons blow, the lines shake violently up and down, causing friction between each other. It has also been the cause of large safety accidents.

To this end, by periodically performing maintenance work to adjust the tension of transmission and distribution lines, the company is coping with the occurrence of safety accidents due to sagging of transmission and distribution lines.

However, frequent maintenance work inconveniences electric power users and also troubles such as the laboring worker has to put in. In order to solve this problem, patent registration No. 978139 (2010.08.19, name: Tension maintenance device for transmission towers for transmission towers) It has been proposed.

In the tension holding device according to the prior art, the tension of the transmission line is automatically set to a static level by controlling the driving unit according to the tension state of the transmission line detected through the tension sensing module.

However, the wiring condition of the transmission and distribution line between the steel towers is not uniform, and the installation of the light emitted from the module box coupled to the body is reflected to the light reflection member connected to the transmission line, and the looseness of the transmission line due to the reflection state of the optical signal. Checking true status is a problem with very low accuracy.

In addition, there is a problem in that the efficiency of the pulley is very low because the amount of pulling is very small to make the spreading band open and the transmission line is pulled.

Patent Document Patent Registration No. 978139 (Aug. 19, 2010) Name: Line tension maintaining device for transmission and distribution steel tower

Accordingly, the present invention is to solve the above problems, the present invention is to accurately and stably detect the fall of the transmission line, while greatly simplifying the detection configuration to minimize the cost required for transmission and distribution The main object is to provide a holder for fixing the tower of the electric wire.

In addition, another object of the present invention is to provide a holder for fixing a tower of a transmission and distribution high-voltage cable to allow the tensioned transmission line to be pulled by a sufficient length so that the tension can be stably maintained.

According to an aspect of the present invention,

A box-shaped actuator body fixedly installed on an upper surface of the pylon frame; A ball screw connected to a motor embedded in the actuator body and rotating in conjunction with the motor driving while forming a predetermined length forward; Fixing plates connected to each other by the pylon frame and the fixing bar while the front end of the ball screw is fixed by the bearing coupling; A pair of guide rods provided in parallel with the ball screw while fixing both ends of the actuator body and the fixing plate on both sides of the ball screw; The moving block is screwed to the ball screw is provided to move linearly in the axial direction by the rotation of the ball screw, extending to both sides of the moving block so that the guide rods through the horizontal while the guide rod and the guide rod at the same time A tension block including a guide block for linearly moving along, a connection block for clamping the lower end of the moving block integrally by a predetermined height so that the front end of the connecting rod extending from the insulator does not escape to the insulator side; One end portion is rotatably fixed to the bottom of the pylon frame while the other end is provided on the side of the transmission line is fixed to the insulator in front of the rotary bar is provided in pairs in parallel to form a distance that passes through the transmission line, the rotation An operation period consisting of a roller rotatably axially supported between the tip of the bar and placed on an upper surface of a transmission line in front of the insulator; A rotation angle detection sensor provided at one end side fixed to the pylon frame between the operations to detect a rotation angle between the operations; The control unit for checking the rotation angle between the operation detected by the rotation angle detection sensor in the actuator body to control and drive the motor installed in the actuator body to maintain a constant tension of the transmission line It features a configuration that is made of a combination.

The steel tower fixing holder of the transmission and distribution high-voltage cable according to the present invention can be easily and accurately installed in real time to check the state in which the transmission and distribution line is struck easily and accurately in real time, thereby facilitating installation.

In addition, the present invention is to ensure that the ball screw is provided with a sufficient length to ensure a stable tension to ensure that the length of the transmission line in the knocked state is sufficiently pulled.

1 is a perspective view showing a coupling configuration of the holder for fixing the tower of the transmission and distribution high-voltage wire according to the invention,
FIG. 2 is an exploded perspective view of FIG. 1,
3 is an enlarged perspective view illustrating a tension adjusting device according to the present invention;
4 is an enlarged perspective view illustrating a configuration between operations according to the present invention;
Figure 5 is a side view showing the configuration applied to the tower for fixing the tower holder of the transmission and distribution high-voltage wire according to the invention,
6 is a plan view of FIG. 5;
Figure 7 is an operating state diagram by the holder for fixing the tower of the transmission and distribution high-voltage wire according to the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment according to the present invention.

Before describing the present invention, the following specific structural or functional descriptions are 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.

1 is a perspective view showing a coupling configuration of the holder for fixing the tower of the transmission and distribution high-voltage wire according to the present invention, Figure 2 is an exploded perspective view of FIG.

As shown in the present invention, the actuator body 10, the ball screw 20, the fixed plate 30, the guide rod 40, the tension adjusting device 50 and the operation between the 60 and the rotation angle detection sensor ( 70 and the control unit 80.

In the above-described construction, the actuator body 10 has an inner hollow shape and is firmly fixed to the upper surface of the steel tower frame 100 to which the insulators are connected.

The motor body 11 is built in the actuator body 10, and a ball screw 20 having a predetermined length is connected to the drive shaft of the motor 11.

The ball screw 20 may be directly connected to the drive shaft of the motor 11 in the inside of the actuator body 10, or a separate connector may be used in the middle, but in view of the sagging length of a typical transmission and distribution line, It is a structure so that it may be provided as a length and connected forward.

The fixing plate 30 is installed to face the actuator body 10 at the tip of the ball screw 20 so that the tip of the ball screw 20 is rotatably bearing-coupled so that the ball screw 20 does not swing when rotated. It is a structure to be fixed stably.

At this time, the fixing plate 30 is connected to the lower end of the pylon frame 100 to which the actuator body 10 is fixed by mounting the lower end of the ball screw 20 so that both ends of the fixing plate 30 are firmly connected. To be supported.

Supporting the fixing plate 30 is such that both ends of the ball screw 20 and the fixing bar 31, as well as the actuator body 10 and the fixing plate 30, are fixed at both sides of the ball screw 20 in parallel. It is also supported by a pair of guide rods (40).

Guide rod 40 is configured so that both ends are fixed to the actuator body 10 and the fixing plate 30 so as to be provided in parallel with the ball screw 20 provided in the middle, fixing bar 31 is fixed If the guide rod 40 is provided to support the lower end of the plate 30 is provided to support both ends of the fixed plate 30 is configured to maintain firmly in front of the actuator body (10).

3 is an enlarged perspective view illustrating a tension adjusting device according to the present invention.

As shown, the tension adjusting device 50 of the present invention is a configuration in which the moving block 51, the guide block 52, and the connecting block 53 are largely integrally connected to each other.

The double moving block 51 is configured to be screwed to the ball screw 20 so that the ball screw 20 is linearly moved in the axial direction of the ball screw 20 during rotation by driving the motor 11.

The guide block 52 is configured to extend the moving block 51 to both sides so that the guide rods 40 are formed to penetrate horizontally.

Therefore, the guide block 52 serves to guide the moving block 51 so that the moving block 51 can move stably while linearly moving along the guide rod 40 in the axial direction simultaneously with the moving block 51.

On the other hand, the connection block 53 is a structure for clamping the distal end of the connecting rod extending from the insulator so that the distal end of the connecting rod 51 is prevented from being separated.

Thus, the tension adjusting device 50 of the present invention forms a guide block 52 on both sides with respect to the moving block 51, and the connection block 53 is formed integrally extending to the lower side of the ball screw 20 ) To move forward and backward in the axial direction at the same time.

4 is an enlarged perspective view illustrating a configuration between operations according to the present invention.

Between the operation 60 of the present invention is configured to rotate the rotary bar 61 is fixed to the pylon frame 100 according to the degree of deflection of the transmission line, the operation 60 is one end of the bottom of the pylon frame 100 While the other end is fixed to the rotatable shaft is configured to be provided on the side of the transmission line connected to the insulator.

The operation section 60 is provided with a rotary bar 61 for allowing a pair of the rotary bars 61 to be spaced apart from each other by an interval enough for the transmission and distribution lines to pass therethrough, And the rollers 62 at this time are placed on the upper surface of the transmission / distribution line.

In other words, the roller 62 is axially fixed to the tip of the rotary bar 61, one end of which is rotatably fixed to the pylon frame 100 so that the roller 62 is always distributed by self-weight on the upper surface of the power distribution line. In order to be in contact with the line, the end portion of the roller 62 side moves at the same time according to the extent of the transmission line is struck.

At this time, the operation 60 prevents the transmission distribution line from swinging greatly to both sides by a pair of rotating bars 61 so that the sagging of the transmission distribution line can be further reduced.

If one end of the rotary bar 61 on the pylon frame 100 side is constantly rotated by the operation of the transmission line 60, the rotation angle detection sensor 70 may check the rotation angle of the rotary bar 61. )to be.

The rotation angle detection sensor 70 is provided at an end fixed to the pylon frame 100 of the operation 60 so that the rotation bar 61 of the operation 60 changes depending on the degree of the transmission line being struck. It is a structure which makes it possible to detect the rotation angle change value.

The rotation angle detection sensor 70 detects the rotation angle of the operation 60 in real time so that the detected signal is transmitted to the control unit 80 installed inside the actuator body 10.

The controller 80 checks the rotation value of the operation 60 detected by the rotation angle detection sensor 70, extracts the change value based on the angle value set at the beginning, and when the change value becomes a predetermined value or more, the actuator The motor 11 installed in the main body 10 is driven.

However, the transmission and distribution line is not only drooping, but when the temperature becomes too cold, the state of the drooping becomes constricted, and on the contrary, the angle of the operation 60 is moved upward, and when such an angle change is checked by the controller 80, the motor ( 11) should be able to rotate as opposed to when the transmission line is struck.

In this way, the control unit 80 controls the rotation of the motor 11 by controlling the rotation angle of the inter-actuation unit 60 so that the transmission / distribution line can always maintain a constant tension.

Looking at the action by the holder for fixing the tower of the transmission and distribution high-voltage wire of the present invention according to the above configuration as follows.

In the present invention, the control unit 80 checks the rotation angle of the operation unit 60 in real time from the moment when the operation unit 60 is placed on the transmission and distribution line during the initial installation.

The control unit 80 has already set the angle value at the time of starting the motor 11 and sets the driving amount of the motor 11 to the angle change so that the moving direction and the moving amount of the tension adjusting member 50 .

FIG. 5 is a side view illustrating a configuration in which a holder for fixing a tower of a transmission and distribution high voltage cable according to the present invention is applied to a tower, and FIG. 6 is a plan view of FIG. 5.

As shown, the holder for fixing the tower of the transmission and distribution high-voltage wire of the present invention is connected between the pylon frame 100 and the connecting rod 300 connected to the rear end of the insulator 200 while maintaining the tension of the transmission and distribution line (L). To keep it constant.

That is, from the actuator body 10 fixedly installed on the upper portion of the pylon frame 100, the guide rod 40 along with the ball screw 20 is provided with a predetermined length forward, these ball screw 20 and the guide The tip of the rod 40 is fixed to the fixing plate 30, but the ball screw 20 is axially fixed via the bearing 21 so as to be rotatable in the actuator body 10 and the guide rod 40, respectively.

However, the guide rods 40 on both sides are to be firmly coupled to the end portion of the actuator body 10 and the end of the fixing plate 30 so as to be reinforced against the load shock applied to the ball screw 20.

The fixing plate 30 provided to fix the tip ends of the ball screw 20 and the guide rod 40 is firmly supported by the fixing bar 31 on both sides of the fixing plate 30. [

The ball screw 20 is screwed into a shape surrounding the outer circumferential surface of the moving block 51 of the tension adjusting device 50 to extend a predetermined length to both sides of the moving block 51 so that the front end of the guide rod 40 The shaft is supported in a shape surrounding the outer circumferential surface of the).

The moving block 51 forms a connection block 53 by extending a predetermined height to the lower side as well as both sides, but the spherical end of the connecting rod 300 connected to the insulator 200 is prevented from being separated from the connection block 53. To be combined.

One end of the rotating bar 61 of the operation 60 is axially rotatably supported by the bracket 63 at the bottom intermediate position where the actuator body 10 of the pylon frame 100 is fixed, and the rotating bar ( 61 is configured so that the pair is formed side by side to be spaced apart at regular intervals so that the pair of rotary bars 61 are axially supported by the bracket 63 at the same time in the pylon frame 100.

So that the rollers 62 are mounted on the transmission and distribution lines connected to the insulator 200 while the rollers 62 are rotatably fixed to the respective ends of the pair of the rotation bars 61.

7 is an operation state diagram by the holder for fixing the tower of the transmission and distribution high-voltage wire according to the present invention.

As shown in the figure, every time the roller 62 of the operation unit 60 is placed on the transmission / distribution line L, the rotation of the rotary bar 61 ) Is rotated.

However, since the operation 60 allows the transmission and distribution line L to pass between the pair of rotation bars 61, these rotation bars 61 serve to simultaneously limit the lateral fluctuations of the transmission and distribution line L. .

Therefore, even if the wind is badly blown or the transmission line (L) caused severe fluctuations due to the typhoon, the fluctuations are suppressed by the operation 60, so the transmission and distribution line (L) due to the severe fluctuation is more stretched. It can be prevented.

The most prominent feature of the present invention is that it is possible to check in real time the tension state of the transmission and distribution line (L), through which a change in the tension of the transmission and distribution line (L) over the drive of the motor 11 By the tension adjusting device 50 is to maintain a constant and stable tension of the transmission and distribution line (L) while advancing a predetermined distance in the axial direction along the ball screw 20.

In particular, the present invention is to limit the fluctuation to the side by the operation interval 60 to be mounted on the upper portion of the transmission line (L) to prevent the physical change of the transmission line (L) as possible at the same time the transmission line (L) In order to minimize the damage of the insulator 200 for fixing the.

10: actuator body 11: motor
20 ball screw 30 fixed plate
31: fixed bar 40: guide rod
50: tension control port 51: moving block
52: guide block 53: connection block
60: During operation 61: Rotary bar
62: roller 70: rotation angle detection sensor
80: control unit 100: pylon frame
200: insulator

Claims (1)

A box-shaped actuator body 10 fixedly mounted on a top surface of the steel tower frame 100;
A ball screw 20 connected to the motor 11 embedded in the actuator body 10 and rotating in conjunction with driving of the motor 11 while forming a predetermined length forward;
Fixing plate 30 is connected to each other by the pylon frame 100 and the fixing bar 31 while the front end of the ball screw 20 is fixed by the bearing coupling;
A pair of guide rods 40 provided parallel to the ball screw 20 while both ends of the ball screw 20 are fixed to both ends of the actuator body 10 and the fixing plate 30;
The moving block 51 is screwed to the ball screw 20 is provided to linearly move in the axial direction by the rotation of the ball screw 20, extending to both sides of the moving block 51 and the guide rod 40 ) Are horizontally penetrating, while the guide block 52 linearly moving along the guide rod 40 at the same time as the moving block 51, the lower portion of the moving block 51 is integrally extended by a predetermined height. A tension adjusting device 50 formed of a coupling of the connection block 53 for clamping the tip of the connecting rod 300 extending from the 200 so as not to be separated to the insulator 200 side;
One end portion is rotatably fixed to the bottom surface of the pylon frame 100 while the other end is provided on the transmission line (L) side fixed to the insulator 200 in front of the interval to the extent that the transmission line (L) passes through Rollers that are axially rotatably supported between the ends of the rotary bar 61 and the front end of the rotary bar 61 so as to be formed in parallel to form the upper surface of the transmission and distribution line L in front of the insulator 200 ( An operation section 60 consisting of 62);
A rotation angle detection sensor 70 provided at one end side fixed to the pylon frame 100 of the operation section 60 to detect a rotation angle of the operation section 60;
In the actuator main body 10, the rotation angle of the operation interval 60 detected by the rotation angle detection sensor 70 is checked to drive the motor 11 installed in the actuator main body 10. A control unit (80) for maintaining a constant tension of the transmission and distribution line (L) while controlling and controlling;
Holder for fixing tower of transmission and distribution high voltage cable.

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