KR101040166B1 - Plate of fixing for high voltage overhead electric line - Google Patents

Abstract

PURPOSE: A distribution plate for supporting the extra-high voltage overhead distribution line is provided to prevent the damage of a main body of an insulator caused by vibration, and is easy to shift location of the insulator and to perform additional installation of the insulator. CONSTITUTION: A distribution plate for supporting the extra-high voltage overhead distribution line comprises a main body(10), an insulator(20), a vibration damping device(30) and a wind generator(40). The main body forms a rectangular shape whose one side is open and is movably installed in an arm brace. The insulator has an installation recess(21) and is installed on the main body. The vibration damping device makes one end and the other end fixed at a wing piece of a pair of line restricting members and consists of the second buffer member(34) accommodating the overhead line. The wind generator has a rotary shaft and a hemisphere installed at the rotary shaft, generates an electromotive force by using the wind force put on the hemisphere, and transfers the electromotive force to a controller(50).

Description

Plate of Fixing For High voltage Overhead Electric Line

The present invention relates to a distribution plate for supporting a high-voltage overhead distribution line.

In general, insulator is an insulator that is fixed on a wrought iron fixed through a band to a pole and used to insulate the spiral portion of the overhead wire and simultaneously maintain or support it mechanically.

Such insulators merely have a function of fixing the overhead wires, and in order to install the overhead wires on the insulator, the insulator is often loosely connected so that the middle part sags downward because the worker manually pulls the connection wires.

Therefore, when the wind blows strongly, the overhead wire flows, and the load or vibration generated as the overhead wire flows is transmitted directly to the insulator, resulting in damage to the insulator, or severely falling off and falling on a solid iron. Accidents occurred frequently.

In addition, if there is a hole for insulator installation in the finished steel when the insulator is additionally installed or the position of the installed insulator is changed as necessary, the insulator can be easily installed. If not, there was an uncomfortable problem of forming a hole using a tool such as a worker drill, and installing the insulator in the formed hole.

The present invention has been made in order to solve the above problems, damage to the insulator body due to vibration by receiving (absorption) through the vibration damping device installed in the insulator body to the oscillation and vibration received by the processing wire by the wind The purpose of the present invention is to provide a distribution plate for supporting a special high-voltage overhead distribution line that can be prevented, easy to change the position of the insulator and additional installation.

The present invention for achieving the above object,

The plate body part, which is generally formed in a 'ㄷ' shape, and which is installed to be movable on a wrought iron:

Insulator installed on plate body part with mounting groove:

Guide parts formed along the longitudinal direction on both sides, a fastening part formed at the bottom center, and a fixing part formed on both ends based on the fastening part, and fastened to the installation groove of the insulator through the fastening part, A vibration damping device main body;

A first shock absorbing member for accommodating up and down vibration by pressing and fixing the processing wire through the wire fixing part formed at one end of the insulator installation groove, the other end penetrating the body of the vibration damping device, and formed at the upper end of the other end; ;

A pair of wire restraining members having a wing piece protruding outwardly and movably installed in the guide portion and pressurizing and fixing the outer surface of the processed wire;

Vibration damping device consisting of a second buffer member, one end and the other end is fixed to the wing piece of the pair of wire retaining member to accommodate the vibration of the processed wire stretched in the longitudinal direction:

Wind direction generator having a rotating shaft and a hemisphere installed on the rotating shaft to produce electromotive force through the rotating shaft rotated by the wind force applied to the hemisphere and transmit it to the controller:

Controller that turns on the operation of the switch unit when the electromotive force is received from the wind direction generator and exceeds the reference value:

Switch unit which is operated by the controller and turned on / off so that battery power can be supplied to the solenoid:

Battery powered:

The lifting unit is provided with a lifting unit, which is disposed on the same axis as the fixing unit, and the lifting unit is lifted by the power supplied from the battery, characterized in that it comprises a solenoid inserted into and fixed to the fixing unit.

According to an embodiment of the present invention, by receiving (absorbing) the vibration due to the fluctuation of the processing wire through the vibration damping device, it is possible to prevent the insulator body from being damaged by the vibration, and furthermore, the wind direction generator, controller, switch unit By supporting the vibration damping device, even if the strong wind blows through the configuration of the battery, the solenoid, etc., the insulator body can be prevented from being broken by the strong wind.

In addition, the present invention is very easy to use because it is only necessary to move to the desired position along the longitudinal direction of the complete iron by immediately releasing only the fastening state of the plate body part if you want to install the insulator additionally or change the position of the insulator installed There is a convenient advantage.

1 is a view showing an installation state of a distribution plate for supporting a special high-voltage overhead distribution line according to the present invention.
Figure 2 is an exploded perspective view of a distribution plate for supporting a special high-pressure overhead distribution line according to the present invention.
Figure 3 is a partial front cross-sectional view of the distribution plate for supporting the high-pressure overhead distribution line according to the present invention.
Figure 4 is a partial cross-sectional view of the distribution plate for supporting the high-pressure overhead distribution line according to the present invention.
Figure 5 is a block diagram showing the coupling relationship between the components in the distribution plate for supporting high-voltage overhead distribution line according to the present invention.
Figure 6 is a view showing an embodiment of a distribution plate for supporting a special high-voltage overhead distribution line according to the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail.

Referring to Figure 1, the distribution plate for supporting the extra-high voltage overhead distribution line according to the present invention, the plate body 10, insulator 20, vibration damping device 30, wind direction generator 40, controller 50 , Switch unit 60, the battery 70, the solenoid 80 is composed of, the components are installed on the wrought iron (2) connected to the pole 1 via the mounting table (3).

2 to 4, the plate body portion 10 is installed to be movable on the wrought iron (2), the overall 'c' shape. In this embodiment, holes are formed on both side surfaces of the plate body part 10, and the holes are made to coincide with the holes formed on the outer surface of the wrought iron 2. Therefore, the fastening member (bolt) is inserted through the hole is fastened to the hole of the cast iron (2) by which the plate body portion 10 is fixed to the cast iron (2). On the other hand, the plate body 10 is very useful when it is necessary to further install the insulator 20 because it can change the position as necessary, as shown in FIG.

The insulator 20 is an insulator used to insulate the spiral portion of the overhead wire L and simultaneously maintain or support it mechanically, and is fixed to the upper surface of the plate body part 10. In particular, the installation groove 21 is formed in the center of the upper surface of the insulator 20, the air cylinder 32a of the first buffer member 32 described later is inserted into the installation groove 21. In addition, a screw tab is formed on the inner circumferential surface of the installation groove 21 so that the fastening portion 31b of the vibration damping device 30 can be easily fastened.

The vibration damping device 30 is composed of a vibration damping device main body 31, the first shock absorbing member 32, the wire holding member 33 and the second shock absorbing member 34. The vibration attenuator 30 is severely swung left and right and up and down when the processing wire L receives wind pressure (wind power), and serves to attenuate the vibration caused by the slack to prevent the vibration from being transmitted to the insulator 20. Do it.

The vibration damping device main body 31 is formed as a U-shape as a whole, using an insulating material. Guide parts 31a are formed on both sides in the longitudinal direction, and a fastening part 31b having screw tabs formed on an outer circumferential surface thereof is formed at the center of the bottom so as to be mutually fastened to the installation groove 21 of the insulator 20. A fixing part 31c provided with a groove is integrally formed at both left and right ends of the coupling part 31b so that the lifting part 81 of the solenoid 80 may be inserted and fixed. In particular, the center of the fastening portion 31b penetrates up and down because the cylinder rod 32b of the first buffering member 32 is elevated.

The first shock absorbing member 32 is a known air spring consisting of an air cylinder 32a filled with air therein and a cylinder rod 32b which is installed to be liftable on the air cylinder 32a. It is a mechanism for receiving (absorbing) the vibration up and down of the processing wire (L) by the transmission wire to prevent the transfer to the insulator (20). In particular, the wire fixing part (32b-1) for fixing the processing wire (L) is installed on the upper surface of the cylinder rod (32b), the installation method is to force the processing wire (L) by pushing the fixed between the cut grooves do.

The wire retaining member 33 is a mechanism that is movable to the guide portion 31a. In particular, both sides of the wire retaining member 33 is formed with a wing piece (33a) protruding outward so that it can be movable to the guide portion (31a). The wire holding member 33 can also easily fix the processing wire (L) through a cut formed in the center.

The second shock absorbing member 34 is the same air spring as the first shock absorbing member 32. If the first shock absorbing member 32 is a device for receiving (absorbing) up and down vibrations, the second shock absorbing member 34 may be used. Is a device that receives (absorbs) vibrations in the horizontal direction (length direction) from side to side. The configuration is also composed of the air cylinder 34a and the cylinder rod 34b in the same manner as the first buffer member 32. The second shock absorbing member 34 is fixed between the air cylinder 34a and the end of the cylinder rod 34b between the blade pieces 33a of the pair of wire retaining members 33 via pins.

Since the vibration damping device 30 is a device for supporting the processing wire L through which electricity flows, it is preferable to manufacture the insulating material.

The correlation between the wind direction generator 40, the controller 50, the switch unit 60, the battery 70, and the solenoid 80 will be described with reference to FIG. 5.

The wind generator 40 has a rotation shaft 41 and a hemisphere 42 installed on the rotation shaft 41 to produce electromotive force through the rotation shaft 41 that is rotated by the wind force applied to the hemisphere 42. To the controller 50. Since technical matters of the wind direction generator 40 are already known, a detailed description thereof will be omitted.

The controller 50 receives the electromotive force from the wind direction generator 40 to turn on the operation of the switch unit 60 when it exceeds the reference value.

The battery 70 is a vehicle battery, and the battery 70 needs only to have power enough to operate the solenoid 80.

The solenoid 80 is a device for operating the vibration damping device 30 is operated by the power supplied from the battery 70. The solenoid 80 is provided with an elevating portion 81 that is elevated by power, and the elevating portion 81 is inserted into the groove of the fixing portion 31c disposed on the bottom surface of the vibration damping device 30 as the elevating portion 81 is shot. It is firmly fixed and supported.

According to an exemplary embodiment of the present invention, when the strong wind blows the processing wire L, the insulator 20 alone may not support the vibration damping device 30 alone, and may be severely broken. In this case, by auxiliaryly fixing and supporting the vibration damping device 30 through the aforementioned wind direction generator 40, controller 50, switch unit 60, battery 70, solenoid 80, It is possible to prevent the insulator 20 from being damaged.

Referring to the operation of the present invention made of the configuration as described above are as follows.

When the insulator according to the present invention is blown with a weak wind in the installed state as shown in Figure 1, the movement of the processing wire (L) is weakly swayed left and right (length direction) and up and down.

In this case, as shown in Figures 3 and 4, the vibration transmitted up and down is accommodated (absorbed) by the first buffer member 32 of the vibration damping device 30, the vibration transmitted in the longitudinal direction is the second buffer The member 34 is accommodated (absorbed).

In more detail, when the first shock absorbing member 32 vibrates up and down, the cylinder rod 32b is lowered to the air cylinder 32a together with the up and down of the processing wire L. And it is possible to accommodate (absorb) vibration by compressing and relaxing the air therein while repeating the lifting and lowering.

In addition, in the case of the second buffer member 34, a pair of wire holding members 33 holding the processing wire L move along the length direction due to the oscillation in the left and right (length directions). The air cylinder 34a and the cylinder rod 34b of the two-buffer member 34 receive (absorb) vibration in the longitudinal direction while repeating compression and relaxation.

On the other hand, when the typhoon blows the processed wire L severely, the insulator 20 cannot be tolerated by the vibration damping device 30 alone. At this time, the wind direction generator 40, the controller 50, and the switch unit 60 The battery 70 and the solenoid 80 can be prevented from shaking.

In more detail, when the hemisphere 42 of the wind direction generator 40 hits the wind, the rotating shaft 41 connected to the hemisphere 42 rotates, thereby generating an electromotive force, and the generated electromotive force is It is delivered to the controller 50.

When the electromotive force exceeding the received electromotive force is compared with the reference value and the electromotive force is output, the controller 50 operates the switch 50 immediately so that the power of the battery 70 is transmitted to the solenoid 80.

Then, the solenoid 80 is energized to cause the lifting unit 81 to be shot, and the tip of the shot lifting unit 81 is a groove of the fixing unit 31c disposed on the bottom of the vibration damping device 30. Since it is inserted into and firmly fixed and supported, the insulator 20 to which the vibration damping device 30 and the vibration damping device 30 are connected by the strong wind can be prevented from being broken and damaged.

On the other hand, when the wind is quieted to some extent and the electromotive force output from the wind direction generator 40 is less than the reference value, the switch 50 is operated again to release the connection state, thereby raising and lowering the lifted solenoid 80. 81 loses its function and is lowered to release the fixed state.

Furthermore, since the vibration damping device 30 is operated accordingly when the processing wire L is relaxed or contracted in summer and winter, it is possible to prevent damage to the processing wire L due to changes in weather. It also has advantages.

And, as shown in Figure 6, when the insulator 20 needs to be further provided on the upper surface of the wrought iron 2 or when the distance between the processing wire (L) is narrow and there is a possibility of mutual reciprocation by the wind (2) ) And the plate body 10 may be reinstalled by properly adjusting the length direction of the wrought iron 2 in a state in which the fastening member (bolt) which fastens the plate body portion 10 to each other is released.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention as defined by the appended claims.

10: plate body 20: insulator body 21: mounting groove
30: vibration damping device 31: vibration damping device body 31a: the guide portion
31b: fastening portion 31c: fixing portion 32: first buffer member
32a: air cylinder 32b: cylinder rod 33: wire holding member
33a: wing piece 34: second buffer member 34a: air cylinder
34b: cylinder rod 40: wind direction generator 41: rotating shaft
42: hemisphere 50: controller 60: switch
70: battery 80: solenoid

Claims (1)

Plate body part 10 is formed in a 'c' shape as a whole, movably installed on the wrought iron (2):
Insulator 20 having installation groove 21, which is installed on plate body portion 10:
The fastening part is provided with the guide part 31a formed along the longitudinal direction in both sides, the fastening part 31b formed in the center of a bottom face, and the fixing part 31c formed in both ends with respect to the fastening part 31b, A vibration damping device body 31 made of an insulating material, which is fastened to the installation groove 21 of the insulator 20 via a medium 31b;
One end is accommodated in the installation groove 21 of the insulator 20, the other end penetrates through the vibration damping device main body 31, and the processing wire (L) through the wire fixing part 32b-1 formed at the upper end of the other end. And a first buffer member 32 for receiving the vibration up and down by pressing and fixing).
A pair of wire retaining members 33 having a wing piece 33a protruding outwardly and movably installed in the guide part 31a and pressurizing and fixing the outer surface of the processed wire L;
Vibration damping device consisting of a second buffer member 34, one end and the other end of which is fixed to the wing piece 33a of the pair of wire retaining members 33 to receive the vibration of the processed wire L, which is stretched in the longitudinal direction. 30:
Equipped with a rotating shaft 41 and a hemisphere 42 installed on the rotating shaft 41, the electromotive force is produced via the rotating shaft 41 rotated by the wind force applied to the hemisphere 42, and transmitted to the controller 50. Wind direction generator 40:
Receiving electromotive force from the wind direction generator 40, the controller 50 to turn on the operation of the switch unit 60 when the reference value or more:
The switch unit 60, which is operated by the controller 50 and turned ON / OFF so that the power of the battery 70 can be supplied to the solenoid 80:
Powered Battery (70):
The elevating portion 81 is provided on the same axis as the fixing portion 31c, and the elevating portion 81 is elevated by the power supplied from the battery 70 and inserted into the fixing portion 31c. Distribution plate for supporting a special high-voltage overhead distribution line, characterized in that it comprises a fixed solenoid (80).

Images