KR100895896B1 - The high voltage underground electroic line of frame - Google Patents

Abstract

The present invention relates to a concrete structure, comprising: a shelf (100) having one end fixed to a side wall of a concrete structure (110) made of a concrete material and the other end formed with an outward inclination and an extra high pressure underground electric wire (L) The main body 210 is installed on the shelf 100 and has an upper portion opened and a space portion formed therein. The main body portion 210 is formed with lateral grooves on both sides of the space portion. And is exposed to the upper part of the shelf 100 to cover the outer surface of the extra high voltage underground wire L to detect the induced current generated from the special underground underground wire L and to be arranged in a pair (S and S ') provided on the main body 210 and supporting the clamp members 220 and 220' in one direction so that the clamp members 220 and 220 'and the pair of clamp members 220 and 220' And a connection terminal 230 which is exposed on the bottom surface of the main body 210 and outputs an induction current of the special high voltage ground wire L attached to the clamp members 220 and 220 ' And the special high voltage ground wire placed on the shelf is clamped It is possible to prevent twisting between special high-voltage underground wires because it is possible to prevent them from being mixed with each other even when super high-voltage underground wires are stacked by detecting them individually through the detector, The operator can connect the connection port of the terminal to the connection terminal of the clamp type current detection unit disposed at a predetermined interval and grasp the current state through the display formed on the terminal Therefore, it is possible to reduce the time required for the inspection of the special high-voltage underground wire and to minimize the waste of manpower and the inspection cost.

shelf. Clamp type current detection device. Connection terminal. terminal.

Description

The high-voltage underground electro-lined line frame

The present invention relates to a distribution line frame of an extra high voltage underground wire which can safely protect an extra high voltage underground wire embedded in the ground from the outside and can easily manage by an operator.

Generally, electric power lines are installed in electric poles or underground in order to supply electric power. Ground and air installation methods are much more economical than the method of buried in the ground considering the construction work, However, it is disadvantageous in that it is difficult to install it in a place where buildings are very close to each other such as a downtown area. Therefore, when the current is required in the city center or high pressure, it is installed in a manner buried in the ground .

In the case of buried underground, there are two main categories. One is to place a tunnel of concrete material in the ground and install a shelf on the inner side wall of the tunnel so that special high voltage underground wire can be placed. Another way to store underground cables is to install a protective pipe made of concrete or synthetic resin in the ground, and to store the special underground cable in a buried protective pipe.

The method of laying the special high-voltage underground wire on the shelf inside the tunnel is to store the high-tension underground wire in the multi-stage shelf, and it is easy to install and to manage it through the operator. However, In the case of stacking and storing, there is no separate fixing means over time, and when the laminated portion collapses, there arises a problem that the special high-voltage underground wires are twisted and intertwined with each other. As a result, There is a problem that the high voltage ground wire can not be clearly grasped and the cost and the operation time are long.

The method of laying the special high-voltage underground wire inside the protective pipe is a method in which the operator does not have a way of checking the current state of the special high-voltage underground wire at normal times and a problem that the unbundled under- There is a problem that it takes a long time for replacement work because it is not easy to find special high voltage underground wires.

Accordingly, it is an object of the present invention to solve the above-mentioned problems, and it is an object of the present invention to provide a method and apparatus for preventing overloading of super high voltage underground wires stacked together, , And to provide a distribution line frame of a special high-voltage underground wire that enables an operator to easily grasp the presence of current through the terminal.

According to an aspect of the present invention,

A shelf having one end fixed to the side wall of the structure made of concrete and the other end formed with an outward inclination and the special high voltage underground wire being seated on the upper side;

A main body part which is fixed to the shelf and has an upper part opened and a space part provided inside and a groove part formed in a longitudinal direction on both sides of the space part; A clamp member which is exposed and exposed to an outer surface of the special high-voltage underground wire to detect an induced current generated from the special under-ground underground wire, a pair of clamp members arranged opposite to each other, and a pair of clamp members, And a clamp type current detection device having a spring for elastically supporting the clamp member in one direction and a connection terminal for being exposed on the bottom surface of the main body portion and outputting an induced current of a special high voltage ground wire wound around the clamp member This is accomplished by a distribution line frame of special high voltage underground wiring.

According to the present invention constructed as described above, the special high-voltage underground wires laid on the shelves can be separately detained through the clamp-type current detectors, and it is possible to prevent them from being mixed with each other even when the special under- It is possible to prevent twisting of high-voltage underground wires.

Since the position of the special high-voltage underground wire can be clearly grasped during the disconnection, the time required for the replacement work and the replacement work can be shortened, and the operator can connect the connection port of the terminal to the connection terminal of the clamp- It is possible to reduce the time required for the inspection of the special high-voltage underground wire, thereby minimizing the labor cost and inspection cost.

Hereinafter, a detailed description will be given based on the drawings.

1A and 1B are a front view and a side sectional view of a distribution line frame of an extra high voltage underground cable according to the present invention.

The power distribution line frame of the special high-voltage underground electric wire according to the present invention is characterized in that one end is fixed to a sidewall of a structure 110 made of a concrete material and the other end is sloped outwardly and a shelf 100 )and; (L) installed at predetermined intervals on the shelf (100) and attached to the outer surface of the special high-voltage underground electric wire (L) which is seated in the longitudinal direction, and is capable of detecting an induced current generated from the special high-voltage underground electric wire And a clamp type current detection device 200.

The structure 110 is embedded in the ground with a concrete material, and the inside is communicated in a longitudinal direction so that an operator can move.

A shelf 100 is fixedly installed on both side walls of the structure 110. The shelf 100 is rectangular and has one end fixed to the side wall of the structure 110 and the other end sloping outward, Thereby preventing the underground wire L from being released to the outside.

In particular, it is preferable that the shelf 100 is formed of a metal material, and the outer surface of the shelf 100 is coated with a rubber material or a synthetic resin material so that an induction current generated from a special high-voltage underground wire can not flow through the shelf 100.

The outer surface of the extra high voltage underground electric wire L installed at a predetermined interval on the shelf 100 and secured in the longitudinal direction is attached and detained and at the same time an induction current generated from the special high voltage underground electric wire L can be detected The clamped current detecting device 200 is installed and fixed to the shelf 100 and has an upper portion opened and a space portion formed therein. The body portion 210 has grooves formed in parallel on both sides of the space portion, And is connected to the main body 210 so as to be reciprocatable in the horizontal direction and is exposed to the upper part of the shelf 100 and attached to the outer surface of the special high voltage underground wire L so that the induced current generated from the special high voltage underground wire L The clamp members 220 and 220 'are installed on the main body 210 so that the pair of clamp members 220 and 220' may be misaligned. The clamp members 220 and 220 ' (S, S ') for supporting the spring And a connection terminal 230 which is exposed on the bottom surface of the clamp member 210 and outputs an induced current of the special high-voltage underground electric wire L attached to the clamp members 220 and 220 ' Respectively.

The body 210 includes a body 211 for supporting the clamp members 220 and 220 'so that the clamp members 220 and 220' can be loaded and slid, respectively; And a flange 212 fixed to the bottom surface of the shelf 100 by fixing means.

The body portion 211 which supports the clamp members 220 and 220 'so that each of the clamp members 220 and 220' can be slidably loaded is formed such that the entire shape of the body is opened in a rectangular shape and the support portions 222 and 222 ' (211a, 211a ') provided with a space inside thereof; Grooves are formed in both side walls of the mounting grooves 211a and 211a 'to have a predetermined depth and the blade pieces 222a and 222a' are loaded into the grooves so that the blade pieces 222a and 222a ' Guiding grooves 211b and 211b 'for guiding them; 211b and the claws 211c and 211c which are protruded inwardly forwardly and rearwardly of the anchor grooves 211a and 211a 'so as to receive one end of the springs S and S' ').

The flange 212 is fixed to the bottom surface of the shelf 100 by a fixing means and protrudes outward with a predetermined thickness on the central side surface of the body portion 211 and is connected to the bottom surface of the shelf 100, A screw bolt (not specifically shown) is mounted on the coupling hole 212a formed in the rack 100 and fastened and fixed to the shelf 100. [

The body part 211 is a rectangular insulator, and a current transformer called a current transformer (CT) is installed therein to detect an induced current from the special high-voltage underground wire L. In general, A transformer is a kind of transformer that winds a secondary coil for current detection in a formed cylindrical core (core) or a permanent magnet, passes through a wire through the circular hole, and converts the current flowing through the wire into a small current on the secondary side through magnetic conversion. Since the configuration is a well-known technology, a detailed description of the configuration will be omitted.

A pair of clamp members 220 and 220 'protruding from the upper part of the shelf 100 and detecting an induced current generated from the special high-voltage underground wire L protrude upward from the shelf 100 in a semicircular shape, (221, 221 ') attached to an outer surface of a special high voltage ground wire (L) slidably mounted in the longitudinal direction and capable of detecting an induced current generated from the special high voltage ground wire (L) And are provided integrally on the bottom surface of the workpieces 221 and 221 'and protrude outward with a predetermined thickness on both sides thereof, and are installed inside the seat grooves 211a and 211a' of the body portion 211, The pair of blade pieces 222a and 222a 'and the supporting portions 222 and 222' formed with grooves having a predetermined depth on the back surface and including loading grooves 222b and 222b 'in which springs S and S' .

A connection terminal 230 is formed on the bottom surface of the main body 210 to output an induction current of the special high voltage ground wire L which is exposed and attached to the clamp members 220 and 220 '.

A connection port 310 connected to the terminal 300 is mounted on the connection terminal 230. A current output from the connection terminal 230 is transmitted to the terminal 300 through a cable C The operator can visually confirm whether or not the current is energized.

Springs S and S 'are respectively installed between the detent protrusions 211c and 211c' and the loading grooves 222b and 222b 'to elastically support the clamp members 220 and 220' in one direction, S '), the clamp members 220 and 220' are able to securely receive the extra-high voltage underground electric wire L as shown in FIGS. 3A and 3B.

Hereinafter, the operation of the present invention will be described.

FIGS. 4A and 4B are explanatory diagrams showing operating states of a frame of a power line of an extra high voltage underground wire according to the present invention. FIG.

As shown in FIG. 4A, a shelf 100 provided with a clamp type current detection device 200 is installed at sidewalls of a concrete structure 110 made of a concrete material at predetermined intervals.

A special high-voltage underground wire (L) is connected to the upper side of the installed clamp-type current detecting device (200) and is pushed down strongly to fix the clamping type current detecting device (200) .

The mounting process will be described in more detail. The special high-pressure underground wire L is connected between the guiding portions 221a and 221a 'integrally formed on the upper parts of the clamp members 220 and 220' and formed outwardly inclined, When the underground wire L is pressed by hand from the upper side to the lower side, the retaining pieces 221 and 221 'which are formed in a circle are gradually separated from each other and the inner guide grooves 211b The spring members 222a and 222a 'mounted on the guide grooves 211b and 211b' are extended in the left and right directions along the guide grooves 211b and 211b 'to press the springs S and S' respectively installed therein.

When a force is applied to the retaining pieces 221 and 221 'that are spaced apart at the predetermined intervals, the special high-voltage underground wire L is loaded between the retaining pieces 221 and 221'. At this time, the springs S and S 'Are pressed against the supporting portions 222 and 222' which are integrally formed on the bottom of the fastening pieces 221 and 221 'while being strongly inwardly flaring due to the restoring force. As a result, the high pressure underground wires L Is securely retained by the elastic force of the springs S, S '.

4B, the operator connects the connection port 310 of the terminal 300 to the connection terminal 230 and connects the current output from the connection terminal 230 to the cable C, (Not shown) formed on the terminal 300 by the terminal 300 through the terminal 300 and visually confirm whether or not the current is energized.

In this way, the operator can connect the terminal 300 to the clamp type current detection device 200 arranged at predetermined intervals to determine whether the power is on or off. Therefore, the time required for the inspection of the special high voltage underground wire L can be reduced It is possible to minimize the labor cost and the inspection cost incurred in the inspection.

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 invention as defined by the appended claims and their equivalents. .

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a front view and a side cross-sectional view of a distribution line frame of an extra high voltage underground cable according to the present invention. FIG.

FIG. 2A and FIG. 2B are a combined perspective view and an exploded perspective view showing a clamp type current detecting device taken separately from a power distribution line frame of an extra high voltage underground wire according to the present invention. FIG.

FIGS. 3A and 3B are a front sectional view and a flat sectional view of a clamp type current detection device in a distribution line frame of an extra high voltage underground wire according to the present invention; FIG.

FIGS. 4A and 4B are explanatory diagrams showing operating states of a frame of a power line of an extra high voltage underground wire according to the present invention. FIG.

Description of the Related Art [0002]

100: shelf 110: structure 200: clamped current detection device

210: body portion 211: body portion 212: flange

220,220 ': Clamp S, S': Spring C: Cable

230 connection terminal 300 terminal 310 connection port

Claims (1)

A shelf 100 having one end fixed to a side wall of a concrete structure 110 made of a concrete material and the other end formed with an outward inclination and an extra high voltage underground wire L mounted on the top; The main body 210 is installed on the shelf 100 and has an upper portion opened and a space portion formed therein. The main body portion 210 is formed with lateral grooves on both sides of the space portion. And is exposed to the upper part of the shelf 100 to cover the outer surface of the extra high voltage underground wire L to detect the induced current generated from the special underground underground wire L and to be arranged in a pair (S and S ') provided on the main body 210 and supporting the clamp members 220 and 220' in one direction so that the clamp members 220 and 220 'and the pair of clamp members 220 and 220' And a connection terminal 230 which is exposed on the bottom surface of the main body 210 and outputs an induction current of the special high voltage ground wire L attached to the clamp members 220 and 220 ' Wherein the frame is formed of a flexible cable.

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