KR101380308B1 - Connection type protecting apparatus for underground distribution line - Google Patents

Abstract

The present invention relates to a coupling type protecting apparatus of a underground wire for power distribution. The coupling type protecting apparatus of a underground wire for power distribution includes a bracket unit; a connector unit supported by the bracket unit to prevent mutual electrically connected underground wires for power distribution and are inserted and installed through both ends of the connector unit from being separated and to enable distortion according to rotation and horizontal movement; a temperature sensor provided at the bracket unit; a diameter change driver to provide a driving force for changing a size of an internal space formed by a pair of compression support rotating brackets of the bracket unit; a controller to control the diameter change driver based on a result sensed by the temperature sensor; a vibration damper; a vibration sensor; and a seismic isolation device. Accordingly, the present invention may provide the coupling type protecting apparatus of an underground wire for power distribution capable of preventing the underground wire for power distribution from being damaged due to an earthquake or vibration by using a seismic isolation structure to damp earthquake energy transferred to the electrically connected underground wires for power distribution when the earthquake occurs.

Description

Connection type protecting apparatus for underground distribution line

The present invention relates to a connection type protection mechanism of a distribution underground cable, and more particularly, a connection type protection mechanism of a distribution underground cable having improved structure for fixing a joint portion of a distribution cable installed inside the underground tunnel. It is about.

High-voltage electricity transmitted from power plants or substations is transformed to a constant voltage and then distributed to the consumption area. In general, the power distribution may be made through overhead wires or underground wires.

Distribution management is carried out through the wiring adjustment of overhead or underground cables, and underground wiring is widely used in metropolitan areas, which has improved space utilization efficiency and ease of wiring adjustment and management.

Such underground wire wiring method is usually made by embedding underground pipes, but due to the difficulty of management, in recent years, a method of installing underground cables for distribution using underground tunnels has been widely used.

On the other hand, the underground cable for power distribution passing through the underground tunnel is supported at a certain point through a separate support, it is interconnected at the corresponding point through a separate connection mechanism.

An example of the connection mechanism of the underground cable for power distribution is disclosed in Korean Patent Registration No. 10-1191752 (registered on October 10, 2012, hereinafter referred to as 'Patent Document 1').

However, according to the connection mechanism of a distribution underground cable according to the prior art, there is a problem that can easily be damaged by earthquake or vibration because there is no seismic isolation structure that attenuates the seismic energy delivered to the distribution underground cable when the earthquake occurs. .

Republic of Korea Patent Registration No. 10-1191752 (registered October 10, 2012)

SUMMARY OF THE INVENTION An object of the present invention is to provide a connection type protection mechanism for underground cables for distribution, which can attenuate the seismic energy transmitted to the underground cables for distribution after the earthquake occurs.

In order to achieve the above object, the connection type protection mechanism of the underground wire for distribution according to the present invention is:

Support support installed in the underground tunnel, and a pair of left and right rotatably provided to the support and provided in a curved shape facing each other provided with a crimping support rotation bracket provided to be spaced apart or accessible to each other, the pair of crimping support rotation bracket The male threaded rod provided to correspond to the male threaded rod on the other and the male threaded rod provided on the one of the ends of the pair of pressing support rotating brackets facing each other so as to vary the size of the inner space formed by Bracket unit consisting of;

Is installed in the inner space formed by the pair of pressing support rotation bracket, is formed to be divided into half on the front, the conductor of the distribution underground wire is inserted through both ends on the side cross-section, each ship is inserted It is provided in pairs to form a crimping ring of conductive material, which is coupled to the end of the conductor wire of the dedicated underground wire by a force fitting method, and a tubular shape that is symmetrical on the side cross-section, and guides that the crimping ring slides on an inner circumferential surface thereof. A sliding guide part is formed, and a plurality of fixing protrusions are formed on the outer circumferential surface thereof, and a latching hole for catching the crimping ring is formed at both ends of the sliding guide part to prevent separation and separation of the distribution underground cable inserted and inserted through both ends, while the torsion and the horizontal are prevented. A first support connector portion made of a conductive material and configured to allow movement; It is provided in a tubular shape so as to surround the first support connecting portion, the inner peripheral surface of the second support connecting portion of the conductive material formed with a fixing groove for engaging the fixing projections in the intervening manner, and the insulation surrounding the second support connecting portion and both ends A connector unit made of a coating part made of material;

A temperature sensor provided in the crimping support rotating bracket;

A variable diameter drive unit provided in the crimping support rotation bracket such that the male screw rod is moved forward or backward by a forward and reverse rotation drive;

A controller configured to control the variable diameter driving unit such that the pair of crimping support rotating brackets closely support the connector unit based on the result detected by the temperature sensor;

A vibration damping unit provided between the side portions of each of the pair of crimping support rotating brackets and an inner wall surface of the underground tunnel to attenuate the vibration transmitted to the bracket unit when an earthquake occurs;

A vibration sensor provided between the vibration damping unit and the crimping support rotation bracket; And

A seismic isolator provided under the support to buffer and transmit seismic energy applied to the bracket unit and the connector unit when an earthquake occurs;

And a control unit.

According to the present invention, by providing a seismic isolation structure that attenuates the seismic energy delivered to the power distribution underground cable that is electrically connected to each other when an earthquake occurs, the distribution underground cable can be prevented from being damaged by earthquake or vibration It is possible to provide a connection protection mechanism of.

1 is an overall view showing that the connection type protection mechanism of the underground cable for distribution according to the present invention is installed in the underground tunnel,
Figure 2 is a perspective view showing a state in which the underground wire for power distribution is inserted into both ends of the connector unit of FIG.
3 is a side cross-sectional view showing a state in which a distribution ground wire is inserted into both ends of the connector unit of FIG. 2;
4 is an enlarged view of a region “A” of FIG. 1;
5 is a control block diagram of the connection type protection mechanism of the underground power distribution line according to the present invention.

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

Connection type protection mechanism 100 of the distribution line underground wire according to the present invention, as shown in Figures 1 to 5, the bracket unit 200 having a support 210 is installed in the underground tunnel (T), The connector unit 300, which is supported by the bracket unit 200, is installed with the conductor wire 1a of the underground electric wire 1 for distribution through both ends on the side cross section, the temperature sensor 400, and the variable diameter driving unit 500. And a control unit 600, a vibration damping unit 700, a vibration sensor 710, and a base isolation device 800.

Bracket unit 200, as shown in Figure 1, is provided with a pair of left and right rotatable on the support (210) is provided in a curved shape facing each other is provided with a crimping support rotation bracket provided to be spaced apart or accessible ( 220 and a pair of crimping support rotation brackets 220 are provided in any one of the ends facing each other to vary the size of the inner space formed by the pair of crimping support rotation brackets 220. The male threaded rod 230 and the other one includes a female threaded rod 240 provided to correspond to the male threaded rod 230.

Accordingly, the crimping support of the bracket unit 200 supports the connector unit 300 that connects and supports the underground cable 1 for distribution so that the underground cable 1 for distribution is electrically connected to each other in the underground tunnel T. Rotation bracket 220 may be wrapped and firmly supported tightly.

The connector biting groove 221 is formed on the inner surface of any one of the pair of crimping support rotating brackets 220 so that the bracket biting protrusion 341 of the connector unit 300 is engaged.

Accordingly, when the connector unit 300 is installed into the inner space formed by the pair of crimping support rotation brackets 220, the connector unit 300 may be installed at a predetermined position, and the connector unit 300 may be Even after being installed to be wrapped by a pair of crimping support rotating brackets 220, the distribution underground wire 1 that is rotated by an external force and supported by the connector unit 300 may be minimized.

As shown in FIG. 1, the connector unit 300 is installed in an inner space formed by a pair of crimping support rotating brackets 220, and as shown in FIG. 3, the side of the pressing ring 310 of the conductive material is coupled to the end of the conductor wire (1a) of each of the underground wire (1) for power distribution is inserted into each other in an interference fit manner It is provided in a pair to form a mutually symmetrical tubular shape in cross section, the inner circumferential surface is formed with a sliding guide portion 321 for guiding the sliding movement of the pressing ring 310 and a plurality of fixing protrusions 323 are formed on the outer circumferential surface At the end forming a locking hole 325 is applied to the crimping ring 310 is formed so as to allow the torsion and horizontal movement according to the rotation while preventing the separation of the underground wire (1) for power distribution installed inserted through both ends The first support connector 320 of the non-conductive material and the first support connector 320 is provided in a tubular shape so as to surround the fixing groove 331 is engaged with the fixing projections 323 in the interfering manner on the inner circumference The formed second support connector 330 of the conductive material and the second support connector 330 and the coating portion 340 of the insulating material surrounding the side of the conductive material exposed at both ends.

Accordingly, the connector unit 300 is provided to allow torsion and horizontal movement due to rotation while preventing separation and separation of the underground cable 1 for power distribution. Even if it is twisted, it is possible to provide the connection type protection mechanism 100 of the underground cable for distribution that can prevent damage of the underground cable 1 for distribution.

As shown in FIG. 3, the underground cable for power distribution being inserted and supported at both ends of the connector unit 300 according to the present invention includes a conductor wire 1a extending along an inner center thereof and exposed at an end portion thereof. And a sheath 1b surrounding and insulated the conductive wire 1a.

On the other hand, as shown in Figure 3, the crimp ring 310 is provided in a pair, each of the underground cable (1) for each distribution before the underground cable (1) for distribution is installed in the connector unit 300 The wedge portion 311 which is inserted into the end portion of the conductor wire 1a of the distribution underground cable 1 so as to be integral with the conductor wire 1a of the wedge portion, and is forcibly crimped and contacted with the conductor wire 1a. ) Is formed.

The first support connector 320 according to the present invention may be provided in a pair symmetrically on the side cross-section to simplify the assembly and construction of the connector unit 300.

To this end, a fitting flange 327 is provided at an end of each of the first support connecting members 320, which are provided in a pair to be symmetric with each other and abut each other, and protrude in an annular shape, and is fitted to the second supporting connecting members 330. The flange receiving groove 333 to which the flange 327 is formed is recessed in the inner circumferential surface.

Considering that the connector unit 300 according to the present invention is formed to be split in half on the front side for ease of assembly and construction, the first support connector 320 may be split up and down in the longitudinal direction on the side cross-section. It is provided with a combination of four parts to form a single tubular shape, the second support connector 330 is a tubular shape by combining a total of two parts.

On the other hand, as shown in Figure 2, the cover portion 340 is also formed to be divided in half on the front for ease of assembly and construction of the connector unit 300, a pair of pressing support rotating bracket 220 When installed in the internal space formed by the respective parts are abutted, the portion corresponding to the split joint 301 of the connector unit 300 of the outer peripheral surface of the cover portion 340 so as to fit in the connector biting groove 221 There is a bracket staple 341 is formed to protrude along the longitudinal direction symmetrically in a pair on the side to each divided.

Accordingly, as shown in FIG. 1, the bracket biting protrusion 341 is inserted into the connector biting groove 221 so that the connector unit 300 is supported by the pair of crimping support rotating brackets 220. By doing so, the connector unit 300, which is formed to be split in half on the front side, may be firmly supported by a pair of crimping support rotating brackets 220 without being separated from each other.

As an embodiment of the present invention, the connector unit 300 is formed to be split in half on the front side but provided to abut each other, it will be described as being firmly supported by a pair of crimping support rotating brackets 220, but the present invention As another embodiment of the present invention, any one part of the connector unit 300, which is divided into half on the front side, is rotatably open or closed in a structure such as a hinge with respect to the other part, and both sides of the bracket bite 341 which are in contact with each other. The parts may be fixedly coupled by various coupling means such as insulating screws, insulating bolts, insulating clips or insulating tapes.

On the other hand, the temperature sensor 400, as shown in Figure 1, is provided in the crimping support rotation bracket 220, as shown in Figure 5, the controller 600 is variable diameter drive unit 500 in accordance with the temperature change ) To detect the temperature inside the underground tunnel (T) so that the pair of crimping support rotation bracket 220 can closely support the connector unit 300 according to the temperature change, and transmits it to the control unit 600.

As an embodiment of the present invention, as shown in Figure 1, the temperature sensor 400 is provided in the crimping support rotation bracket 220 is provided with a variable diameter drive unit 500 of the pair of crimping support rotation bracket 220 Is preferred.

The variable diameter drive unit 500, as shown in FIG. 1, is provided with a motor to allow the male screw rod 230 to move forward or backward in the interior of the female screw rod 240 by rotation by forward and reverse rotation driving. 230 is provided on the crimped support rotation bracket 220 is provided.

Accordingly, a driving force for varying the size of the inner space formed by the pair of compression support rotating brackets 220 may be provided by the variable diameter driving unit 500.

As shown in FIG. 5, the control unit 600 includes a variable diameter drive unit such that the pair of crimping support rotation brackets 220 closely support the connector unit 300 based on the result detected by the temperature sensor 400. 500).

As an embodiment of the present invention, the control unit 600, as shown in Figure 5, the interior formed by a pair of crimping support rotation bracket 220 to be varied for each temperature section inside the underground tunnel (T) It is preferable to include an input unit 610 for receiving information about the size of the space in advance and a storage unit 620 for storing the information received from the input unit 610.

Accordingly, the size of the inner space formed by the pair of crimping support rotation brackets 220 is provided in a structure in which the size of the inner space is variable according to temperature change, so that the pair of crimping support rotation brackets 220 closely contact the connector unit 300. It is possible to provide a connection type protection mechanism 100 for underground cable for power distribution that can support and stably connect and support the underground power cable for power distribution 1.

Meanwhile, as illustrated in FIG. 1, the vibration damping unit 700 is provided as a spring type between each side of each of the pair of crimping support rotating brackets 220 and an inner wall surface of the underground tunnel T, so that the earthquake-resistant bracket Attenuate vibrations transmitted to the unit 200.

1 and 5, the vibration sensor 710 is provided as a piezoelectric element between the vibration damping unit 700 and the crimping support rotation bracket 220 to detect the vibration in a piezoelectric acceleration method to control the control unit ( 600).

In this case, as shown in FIG. 5, the controller 600 detects an earthquake generation through an alarm unit 630 and a vibration sensor 710 informing the outside when the vibration due to the earthquake exceeds the allowable vibration. And an output unit 640 for outputting it to the outside, the input unit 610 is previously inputted with information on allowable vibration, etc., and the storage unit 620 is information and a control unit transmitted from the vibration sensor 710 when an earthquake occurs. The earthquake data calculated at 600 is also stored.

As illustrated in FIG. 4, the seismic isolator 800 is provided below the support 210 to buffer and transmit seismic energy applied to the bracket unit 200 and the connector unit 300 when an earthquake occurs.

Accordingly, by providing a seismic isolation structure that attenuates the seismic energy delivered to the distribution underground cable 1 electrically connected to each other when an earthquake occurs, it is possible to prevent the distribution underground cable 1 from being damaged due to an earthquake or vibration. The connection type protection mechanism 100 of underground cables for power distribution can be provided.

As an embodiment of the present invention, the seismic isolator 800, as shown in Figure 1 and 4, the upper plate 810 is provided to be fixed to the lower portion of the support 210 to support the support 210, and It is installed between the lower plate 820 and the upper plate 810 and the lower plate 820 fixedly installed on the bottom surface of the underground tunnel (T) to support the vertical load of the connector unit 300 and the bracket unit 200 and the upper plate 810 and the lower plate 820 is installed between the vertical load supporting portion 830 to allow horizontal movement between each other, the vertical load supporting portion 830 and the lower plate 820 of the connector unit 300 and the bracket unit 200 Horizontally generated between the lower plate 820 and the upper plate 810 by elastically connecting the buffer rubber plate 840 and the lower plate 820 and the upper plate 810 for buffering the vertical load to transfer to the underground tunnel (T) To include a restoring unit 850 provided with a rubber mass spring or a steel sheet-rubber lamination spring, etc. to provide a restoring force of movement desirable.

On the other hand, the lower surface of the upper plate 810 is provided with an upper friction plate 811 made of stainless steel, and the upper friction plate 831 is provided with an upper friction plate 831 made of a polymer compound or a fluorine resin on the upper portion of the vertical load supporting part 830. The lower friction plate 831 allows sliding contact movement of the upper friction plate 811 when the horizontal shear force is generated, and the lower friction plate 831 makes a surface contact with each other, and the bottom of the underground tunnel T is below the lower plate 820. A plurality of foundation bolts 821 are inserted into the surface and fixed to the lower plate 820.

Accordingly, the earthquake connection of the power distribution line is provided by buffering and supporting the vertical loads applied to the connector unit 300 and the bracket unit 200 by the seismic isolation device 800 according to the present invention during the earthquake, and resisting the horizontal loads. It is possible to effectively prevent the underground cable 1 for distribution, which is electrically connected and supported by the type protection mechanism 100, to be damaged by an earthquake.

With this configuration, the process of inserting and supporting the underground cable 1 for distribution by the connection type protection mechanism 100 of the underground cable for distribution according to the present invention will be described with reference to FIGS. 1 to 3 as follows. same.

First, the pressing ring 310 is inserted into the conductive wire 1a of each underground cable 1 for power distribution to be inserted through both ends of the connector unit 300, and is forcibly pressed by a circular press or the like.

Next, the half of the pair of first support connector parts 320 is symmetrical with respect to the side cross-section by the half of the second support connector part 330 so as to form each part of the connector unit 300 divided into half on the front side. Alignment flanges 327 and fixing protrusions of the first support connector 320 to the flange receiving groove 333 and the fixing groove 331 of the second support connector 330 to be wrapped in the coupled state inside Each of the pairs of the first support connector part 320 is coupled to the inside of the second half of the second support connector part 330 by fitting the corresponding 323 to each other.

The other half of the second support connector 330 is coupled to the other half of the pair of first support connector 320 in the same manner as described above.

A half of the coating portion 340 made of an insulating material surrounds the side surface of the conductive material exposed at both ends and the outside of the second half of the second support connector 330 coupled to the inside of the first support connector 320. The other half of the first support connector 320 is surrounded by the other side of the second half of the second support connector 330 coupled to the outside and the side surface of the conductive material exposed to both ends so that the other half of the coating 340.

Insert and install the conductive wire (1a) of the underground cable (1) for power distribution, the compression ring 310 is integrally coupled to the sliding guide portion 321 formed in the half of the connector unit 300 provided in this way through both ends In order to cover the other half of the connector unit 300 with each other, the two halves of the connector unit 300 face each other to form an intact connector unit 300.

In addition, while the pair of crimping support rotation brackets 220 are fully open, install the connector unit 300 in which the power distribution underground cable 1 is inserted through both ends between the pair of crimping support rotation brackets 220. To install the bracket fitting protrusion 341 of the connector unit 300 into the connector fitting groove 221, the split joint 301 is installed to be inclined rather than vertically, and a pair of crimping support rotating brackets are installed. Rotating the lower portion of the pair of crimping support rotation bracket 220 with respect to the support 210 so that the 220 is close to each other to closely wrap the connector unit 300, the male screw rod 230 and the female screw rod 240 ).

Therefore, according to the present invention, the connector unit 300 by the connection type protection mechanism of the underground cable for power distribution to prevent the separation and separation of the underground cable 1 for power distribution, while allowing the torsion and horizontal movement according to the rotation The inner space formed by the pair of crimping support rotation brackets 220 while preventing any damage of the underground cables 1 for distribution, even if any one of the underground cables 1 for distribution, which are electrically connected to each other, is twisted. Since the size of the structure is variable in accordance with the temperature change is provided by a pair of crimping support rotation bracket 220 to closely support the connector unit 300 can be stably connected and support the underground cable (1) for distribution In the event of an earthquake, it is necessary to provide a base isolation structure that attenuates the seismic energy delivered to the distribution underground cable 1 which is electrically connected to each other. It is possible to prevent the wire (1) is broken.

While the invention has been described in connection with what is presently considered to be practical exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, 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 in the appended claims.

200: bracket unit 210: support
220: crimping support rotation bracket 230: male threaded rod
240: female thread rod 300: connector unit
310: crimping ring 320: first support connector
321: sliding guide 323: fixing protrusion
325: hook 330: second support connector
331: fixing groove 340: covering part
400: temperature sensor 500: diameter variable drive unit
600 control unit 700 vibration damping unit
710: vibration sensor 800: seismic isolation device

Claims (1)

Support support 210 is installed in the underground tunnel (T), and the support 210 is provided in a pair of left and right rotationally provided in a curved shape facing each other is provided with a crimping support rotation bracket provided to be spaced apart or accessible ( 220 and a screw bar type at any one of the ends of the pair of pressing support rotating brackets 220 to vary the size of the inner space formed by the pair of pressing support rotating brackets 220. Bracket unit (200) consisting of a male screw rod (240) provided to correspond to the male screw rod (230) and the other provided with a male screw rod (230);
It is installed in the inner space formed by the pair of crimping support rotation bracket 220, is formed to be split in half on the front, the conductor wire (1a) of the underground cable (1) for power distribution is inserted through both ends on the side cross section And a crimping ring 310 made of a conductive material, each of which is coupled to the end of the conductor wire 1a of each of the underground wires 1 for power distribution, which is inserted into and installed in a force-fit manner, and a symmetrical tubular shape mutually on the side cross section. A sliding guide portion 321 is provided on the inner circumferential surface to guide the sliding movement of the pressing ring 310, and a plurality of fixing protrusions 323 are formed on the outer circumferential surface thereof, and the pressing ring is formed at both ends of the pressing ring. Is formed to allow the torsion and horizontal movement according to the rotation while preventing the separation separation of the underground cable (1) for power distribution installed inserted through both ends is formed with the engaging port 325 is caught Fixing groove 331 is provided in a tubular shape to surround the first support connector 320 and the first support connector 320 of the material material, the fixing protrusion 323 is interlocked in the inner circumferential surface. A connector unit 300 including a second support connector 330 made of a conductive material and an insulator coating 340 covering both ends of the second support connector 330;
A temperature sensor 400 provided on the crimping support rotation bracket 220;
A variable diameter drive unit 500 provided in the crimping support rotation bracket 220 such that the male screw rod 230 is moved forward or backward by forward and reverse rotation driving;
A control unit 600 controlling the variable diameter driving unit 500 such that the pair of crimping support rotation brackets 220 closely support the connector unit 300 based on the result detected by the temperature sensor 400;
A vibration damping part 700 provided between the side portions of each of the pair of crimping support rotating brackets 220 and the inner wall surface of the underground tunnel T to attenuate the vibration transmitted to the bracket unit 200 when an earthquake occurs;
A vibration sensor 710 provided between the vibration damping unit 700 and the crimping support rotation bracket 220; And
A seismic isolation device 800 provided below the support 210 to buffer and transmit seismic energy applied to the bracket unit 200 and the connector unit 300 when an earthquake occurs;
Connection type protection mechanism of the underground wire for power distribution comprising a.

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