KR102162750B1 - Underground distribution line support equipment with earthquake-proof function - Google Patents

Abstract

The present invention relates to an underground distribution line support device with a seismic function which is installed to be adjacent to a manhole installation point of an underground distribution line to a corresponding point around a connection point between distribution cables of the distribution line to offset a flow and pulling phenomenon of the corresponding distribution line through a distribution cable margin of a predetermined length provided therein when the severe flow and pulling phenomenon occurs in the corresponding distribution line in accordance with an occurrence of an earthquake, thereby maximally suppressing abnormalities such as poor connection, disconnection, or the like at the manhole installation point of the underground distribution line or the connection point between the distribution cables. According to the present invention, the underground distribution line support device with a seismic function comprises a housing, a wiring connector, a sliding wire support member, a rotating roller, a forward and reverse rotation motor, a roller rotation detection sensor, a control unit, a wireless communication module, and a cable moving member installed on a specific rotating roller (400) among the rotating rollers.

Description

Underground distribution line support equipment with earthquake-proof function

The present invention is installed adjacent to the point of the manhole installation point of the underground distribution line to the connection point between the distribution cables of the underground distribution line in the field of distribution technology, and the occurrence of severe flow and pulling of the corresponding underground distribution line due to earthquake occurrence At the point of manhole installation of the underground distribution line or the connection point between distribution cables by offsetting the flow and pulling phenomenon of the corresponding underground distribution line through the distribution cable margin installed in a waveform while being folded in a curved shape several times inside the housing. The present invention relates to an underground distribution line support device having a seismic function to minimize occurrence of abnormalities such as connection failure or disconnection.

In general, distribution lines are electric poles installed at regular intervals on the ground, overhead distribution lines that install distribution cables through wrought iron and insulators installed on these poles, and distribution cables are inserted into underground buried pipes buried in the ground. It is divided into buried underground distribution lines.

Overhead distribution lines have the advantage of low initial cost and easy construction, but not only problems of urban aesthetics, interference between distribution cables and street trees, contact failure due to bird nesting such as magpies, electric leakage, and power outages. There is a problem.

In comparison, the use of underground distribution lines is on a continuous increase since they have the effect of enhancing the space utilization on the ground while not spoiling the aesthetics of the city.

These underground distribution lines are usually installed in such a way that the distribution cables are protected by wiring the distribution cables in the buried underground pipelines after the underground pipelines are buried, and manholes are installed at regular intervals for inflow and outgoing distribution cables and maintenance. . In addition, since a single distribution cable extends indefinitely and cannot be installed, a connection part between the distribution cables occurs.

On the other hand, in recent years, the frequency of earthquakes is increasing mainly in a specific area in Korea, and accordingly, recognition that Korea is no longer a safe zone from earthquakes is spreading.

For this reason, there is a need for measures to reduce damage to underground distribution lines in the event of an earthquake.

Accordingly, the applicant of the present invention is that when the earthquake occurs with a relatively insignificant intensity compared to the level of cracking the ground and collapse of a building, the above-described manhole installation point of the underground distribution line and the connection point between the distribution cable are poorly connected or disconnected. The present invention has been proposed by focusing on the fact that abnormalities such as the like can occur more easily.

Korean Patent Registration No. 10-1962367 (announced on March 28, 2019), “Fixing for distribution line with seismic function” Korean Patent Registration No. 10-1945799 (2019.05.03. Announcement), "Seismic design reinforcement device for underground transmission line" Korean Patent Registration No. 10-1692918 (Announcement on Jan. 04, 2017), “Underground distribution line equipped with a seismic device”

An embodiment of the present invention is installed adjacent to the point of the manhole installation point of the underground distribution line to the point of connection between the distribution cables of the underground distribution line, and when the occurrence of severe flow and pulling of the corresponding underground distribution line due to an earthquake , By offsetting the flow and pulling phenomenon of the underground distribution line through the margin of the distribution cable installed in a wave shape while being folded in a curved shape several times inside the housing, the manhole installation point of the underground distribution line or the connection point between the distribution cables It provides an underground distribution line support device with a seismic function that enables the occurrence of abnormalities such as poor connection or disconnection as much as possible.

In addition, an embodiment of the present invention compensates for the occurrence of severe flow and pulling of the underground distribution line due to the occurrence of an earthquake, and thus abnormal connection or disconnection at the manhole installation point of the underground distribution line or the connection point between distribution cables. While minimizing the occurrence, the normal operation of the linked components for this is automatically monitored periodically according to a preset period, and if it is determined that there is an error as a result of the automatic monitoring, the fact can be quickly and automatically notified to the manager or the integrated management center. Provides an underground distribution line support device with a seismic resistance function.

The underground distribution line support device having a seismic function according to an embodiment of the present invention is installed on the underground distribution line 10 and penetrates both sides based on the installation direction of the distribution cable 11 of the underground distribution line 10 A housing 100 in which each hole 110 is formed; A plurality of rotary rollers 400 are installed to form a zigzag arrangement along the installation direction of the distribution cable 11 on the inner side of the housing 100, each of which is positioned at the lower side so as to be slidable upward And: a rotating roller rotation checking means 500 for collectively rotating the rotating rollers 400 according to a preset operation period for checking abnormalities or failures of the rotating rollers 400; A roller rotation detection sensor 600 installed for each of the rotating rollers 400 and transmitting the signal to an external receiving object by detecting the rotation of the rotating roller 400; and An operation cycle is set in advance to operate the rotary roller rotation check means 500 according to the operation cycle, and the roller rotation detection sensor for each rotary roller 400 every operation of the rotation check means 500 with the rotary roll A threshold time at which the detection signal of 600 is transmitted is set in advance, and after the operation of the rotary roller rotation checking means 600, a roller rotation detection that does not transmit a rotation detection signal for the corresponding rotary roller 400 within the threshold time When the sensor 600 is present, an abnormal signal is generated and output, but the abnormal signal includes the identification information of the housing 100, and the control unit 700 receives the abnormal signal from the control unit 700 to integrate a long distance. It includes a wireless communication module 800 that transmits to the management server 1000, and a part of the distribution cable 11, which is introduced into the housing 100 through the through hole 110, includes the rotating rollers 400 Accordingly, it is installed in a waveform while being folded in a curved shape several times, and a part of the distribution cable 11 installed in the waveform may act as a margin to offset the flow and pulling of the distribution cable 11 when an earthquake occurs. .

According to an embodiment of the present invention, when the excessive flow of the underground distribution line due to the occurrence of an earthquake and pulling phenomenon occurs due to the excess of the distribution cable installed in a waveform while being folded in a curved shape several times inside the housing of an underground distribution line support device The flow and pulling phenomenon of the underground distribution line is canceled through the distribution cable margin in the housing described above, and therefore, the occurrence of abnormalities such as poor connection or disconnection at the manhole installation point of the underground distribution line or the connection point between distribution cables is suppressed as much as possible. Can be.

In addition, when severe flow and pulling of an underground distribution line occurs due to an earthquake, the occurrence of abnormalities such as poor connection or disconnection at the manhole installation point of the underground distribution line or the connection point between distribution cables is minimized. The normal operation of the linkage components for normal operation is automatically monitored periodically according to a preset period, and when it is determined that there is an abnormality as a result of the automatic monitoring, the fact is promptly and automatically notified to the administrator or the integrated management center to take action.

1 is a side view illustrating an underground distribution line support device having a seismic function according to an embodiment of the present invention in a state in which the housing and the wiring connector are cut.
2 is a perspective view illustrating the external appearance of an underground distribution line support device having a seismic function according to an embodiment of the present invention
3 is a schematic diagram illustrating an operation state of an underground distribution line support device having a seismic function according to an embodiment of the present invention, centering on a main part;
4 is a block diagram illustrating the electrical configuration of an underground distribution line support device having a seismic function according to an embodiment of the present invention.

The following detailed descriptions of the present invention are embodiments in which the present invention may be practiced and refer to the accompanying drawings shown as examples of the corresponding embodiments. These embodiments will be described in detail enough for those skilled in the art to practice the present invention. It should be understood that the various embodiments of the present invention are different from each other, but need not be mutually exclusive. For example, specific shapes, structures, and characteristics described herein may be embodied in other embodiments without departing from the spirit and scope of the present invention in relation to one embodiment. In addition, it should be understood that the positions or arrangements of individual components in each described embodiment may be changed without departing from the spirit and scope of the present invention.

Therefore, the detailed description to be described below is not intended to be taken in a limiting sense, and the scope of the present invention is limited only by the appended claims, along with all scopes equivalent to those claimed by the claims, if appropriately described. Like reference numerals in the drawings refer to the same or similar functions over several aspects.

The terms used in the present invention have been selected from general terms that are currently widely used while considering functions in the present invention, but this may vary depending on the intention or precedent of a technician working in the field, the emergence of new technologies, and the like. In addition, in certain cases, there are terms arbitrarily selected by the applicant, and in this case, the meaning of the terms will be described in detail in the description of the corresponding invention. Therefore, the terms used in the present invention should be defined based on the meaning of the term and the overall contents of the present invention, not a simple name of the term.

In the present invention, when a part "includes" a certain component in the whole, this means that other components may be further included rather than excluding other components unless otherwise stated. In addition, “… Wealth”, 　＂… The term “module” refers to a unit that processes at least one function or operation, which may be implemented as hardware or software or a combination of hardware and software.

An underground distribution line support apparatus having a seismic function according to an embodiment of the present invention will be described with reference to FIGS. 1 to 4.

1 is a side view illustrating an underground distribution line support device having a seismic function according to an embodiment of the present invention in a state in which the housing and wiring connector are cut, and FIG. 2 is a seismic function according to an embodiment of the present invention. It is a perspective view illustrating the appearance of an underground distribution line support device equipped with, and FIG. 3 is a view briefly exemplifying the operating state of the underground distribution line support device with a seismic function according to an embodiment of the present invention, centering on the main part, 4 is a block diagram illustrating an electrical configuration of an underground distribution line support device having a seismic function according to an embodiment of the present invention.

As shown, the underground distribution line support apparatus having a seismic function according to an embodiment of the present invention includes a housing 100, a plurality of rotary rollers 400, a rotary roller rotation inspection means 500, a rotary roller 400 It is configured to include a roller rotation detection sensor 600, a control unit 700 and a wireless communication module 800 that are installed separately. In addition, it may be configured to further include a wiring connector 200 and a sliding wire support member 300.

The housing 100 is installed on the underground distribution line 10, and through holes 110 are formed on both sides of the underground distribution line 10 based on the installation direction of the distribution cable 11. In particular, the housing 100 may be buried adjacent to the corresponding point around a manhole installation point of the underground distribution line 10 or a connection point between the distribution cables 11 of the underground distribution line 10.

The wiring connector 200 is coupled to each through hole 110 on both sides of the housing 100, and guide grooves formed along the installation direction of the distribution cable 11 on the upper and lower inner surfaces of the wiring connector 200 210) is formed to face up and down.

Sliding wire support members 300 are respectively installed in the wire connector 200 on both sides of the housing 100 as the center. The sliding wire support member 300 has guide protrusions 310 that are slidably inserted into the upper and lower guide grooves 210 of the wiring connection pipe 200 and are respectively formed on the upper and lower sides of the wiring connection pipe 200. It is installed to be slidable along the installation direction of the distribution cable 11. In addition, the sliding wire support member 300 has one or more wire passage holes 320 through which the distribution cable 11 passes, and at the same time, the distribution cable 11 passing through these wire passage holes 320 is fixed. The cable fixing ring ring 330 for each is fitted and fixed.

The rotary roller 400 is installed to form a zigzag arrangement along the installation direction of the distribution cable 11 on one inner surface of the housing 100, and each of the lower portions is installed to be slidable upward. And in this embodiment, as the rotary roller 400 located at the lower side is coupled to the sliding plate 450 installed to be slidable upwardly on the inner side of the housing, the sliding plate 450 moves upwardly through the sliding plate 450. A configuration capable of sliding movement has been exemplified, but the present invention is not limited thereto. In addition, the sliding installation of the sliding plate 450 on the inner side of the housing 100 may be implemented in various forms through known techniques, and detailed descriptions and illustrations thereof will be omitted in this embodiment.

The rotating roller rotation checking means 500 functions to rotate the rotating rollers 400 collectively according to a preset operation period for checking abnormalities or failures of the rotating rollers 400.

The rotating roller rotation checking means 500 may include a rope 510, a driving pulley 520, a driven pulley 530, and a forward and reverse rotation motor 540.

The rope 510 is installed in a zigzag shape along the rotating rollers 400, and the rope 510 is formed of an insulating material.

The driving pulley 520 is wound around one end in the longitudinal direction of the rope 510, and the driving pulley 520 is inside the housing 100 so that one end in the longitudinal direction of the rope 510 is wound or disengaged according to the rotation direction. Doedoe installed, it is installed to be located directly below the rotary roller 400 located at one end of the upper side of the rotary roller 400.

The driven pulley 530 is wound around the other end in the longitudinal direction of the rope 510, and the driven pulley 530 is inside the housing 100 so that the other end in the longitudinal direction of the rope 510 is wound or disengaged according to the rotation direction. It is installed to be rotatable. And the driven pulley 530 is installed to be located directly below the rotary roller 400 located at the other end of the upper side of the rotary roller 400.

The forward and reverse rotation motor 540 is installed in the housing 100 to provide rotational power to the driving pulley 520.

The rotating roller rotation checking means 500 of the above-described configuration is the rotating roller 400 through the rope 510 wound or dissociated to the driving pulley 520 and the driven pulley 530 when the forward and reverse rotation motor 540 is operated. It functions to rotate.

The roller rotation detection sensor 600 is installed for each rotation roller 400, and the roller rotation detection sensor 600 senses the rotation of the rotation roller 400 and transmits the signal to an external reception target. In other words, the roller rotation detection sensor 600 senses the rotation of the rotation roller 400 and transmits the signal to the controller 700 to be described later.

The control unit 700 is built in the housing 100, and the control unit 700 has a predetermined operation cycle of the rotary roller rotation inspection unit 500, and the rotary roller rotation inspection unit 500 according to the preset operation cycle Operate periodically. In other words, the control unit 700 periodically operates the forward/reverse rotation motor 540 according to the preset operation period by setting the operation period of the normal/reverse rotation motor 540 of the rotational roller rotation checking means 500 in advance.

In addition, the control unit 700 is set in advance a threshold time at which the detection signal of the roller rotation detection sensor 600 for each rotation roller 400 is transmitted every time the rotational roller rotation checking means 500 is operated, and the rotational roller rotation checking means If there is a roller rotation detection sensor 600 that does not transmit a rotation detection signal for the rotating roller 400 within the threshold time among the roller rotation detection sensors 600 after the operation of 500, an abnormal signal is generated and output. . In other words, the control unit 700 sets a threshold time at which the detection signal of the roller rotation detection sensor 600 for each rotation roller 400 is transmitted every time the forward and reverse rotation motor 500 is operated, so that the forward and reverse rotation motor 500 If there is a roller rotation detection sensor 600 that does not transmit a rotation detection signal for the rotating roller 400 within the threshold time among the roller rotation detection sensors 600 after operation, an abnormal signal is generated and output. Here, the control unit 700 generates and outputs the abnormal signal as a signal including identification information of the housing 100.

The wireless communication module 800 receives an abnormal signal from the control unit 700 and transmits it to the remote integrated management server 1000. In particular, the wireless communication module 800 is installed on the ground near the housing 100 in an electrical connection with the control unit 700, and receives an abnormal signal from the control unit 700 to provide a remote integrated management server 1000. Transfer to.

In addition, a part of the distribution cable 11, which is introduced into the housing 100 through the through hole 110 of the housing 100, is folded in a curved shape several times along the rotating rollers 400 and installed in a waveform. Part of the installed distribution cable 11 acts as a margin for offsetting the flow and pulling of the distribution cable 11 when an earthquake occurs. 3, when a force pulling in both directions is applied to the distribution cable 11 due to an earthquake, the portion of the distribution cable 11 installed in a waveform along the rotating rollers 400 rotates at the lower side. The rollers 400 are slid upward and the amplitude is reduced while increasing the length in the pulling direction by the earthquake.

In addition, when the rotary roller rotation checking means 500 is operated, the torque of the forward and reverse rotation motor 540 is determined so that the lower rotary rollers 400 of the rotary rollers 400 do not slide upward.

By the above-described configuration, even if the distribution cable 11 of the underground distribution line 10 is violently flowed and/or pulled according to the occurrence of an earthquake, the sliding operation of the sliding wire support member 300 in the wiring connector 200 And the force according to the flow and pull of the distribution cable 11 by the spreading action of the distribution cable 11 in the housing 100 accordingly, the manhole installation point of the underground distribution line 10 to the distribution cable 11 It is not transmitted directly to the connection point, and as a result, the occurrence of abnormalities such as poor connection or disconnection at the connection point between the manhole installation point of the underground distribution line 10 or the connection point between the distribution cables 11 can be suppressed as much as possible when an earthquake occurs There will be.

In addition, the rotation rollers 400 that support the distribution cable 11 in the housing 100 and guide the spreading and folding of the distribution cable 11 at the same time are periodically automatically monitored, and as a result of automatic monitoring, some rotation When an abnormality occurs in the roller 400, the fact can be quickly and automatically notified to the manager or the integrated management center. In other words, it is possible to prevent a situation in which an abnormality occurs in some of the rotating rollers 400 so that the excess portion of the distribution cable 11 in the housing 100 cannot be smoothly opened and folded.

As described above, in the present description, specific matters such as specific elements, etc., and limited embodiments and drawings have been described, but this is provided only to help a more general understanding of the present invention, and the present invention is limited to the above embodiments. No, various modifications and variations are possible from these descriptions by those of ordinary skill in the field to which the present invention belongs.

Therefore, the spirit of the present invention is limited to the described embodiments and should not be written, and all things that have equivalent or equivalent modifications to the claims as well as the claims to be described later belong to the scope of the inventive concept.

10: underground distribution line 11: distribution cable
100: housing 110: through hole
200: wiring connector 210: guide groove
300: sliding wire support member 310: guide protrusion
320: wire passing hole 330: cable fixing ring
400: rotary roller 450: sliding plate
500: rotating roller rotation checking means 510: rope
520: driving pulley 530: driven pulley
540: forward and reverse rotation motor 600: roller rotation detection sensor
700: control unit 800: wireless communication module
1000: Integrated management server

Claims (1)

The manhole installation point of the underground distribution line 10 or the connection point between the distribution cables 11 of the underground distribution line 10 is buried adjacent to the corresponding point, and the distribution cable 11 of the underground distribution line 10 A housing 100 in which through holes 110 are respectively formed on both sides of the installation direction;
A pair of guide grooves 210 formed on the upper and lower inner surfaces along the installation direction of the distribution cable 11 are formed to face up and down, respectively coupled to the through holes 110 on both sides of the housing 100 A wiring connector 200;
Guide protrusions 310 which are respectively installed in the wiring connector 200 and are slidably inserted into the upper and lower guide grooves 210 of the wiring connector 200 are formed on the upper and lower sides of the wiring One or more wire passage holes 320 through which the distribution cable 11 passes while being slidably installed along the installation direction of the distribution cable 11 are formed inside the connection pipe 200 to pass the wire passage A pair of sliding wire support members 300 to which a cable fixing ring 330 for fixing the distribution cable 11 passing through the holes 320 is inserted and fixed, respectively;
A plurality of rotary rollers 400 are installed to form a zigzag arrangement along the installation direction of the distribution cable 11 on the inner side of the housing 100, each of which is positioned at the lower side so as to be slidable upward :
An insulating material installed in a zigzag form along the rotating rollers 400 as rotating the rotating rollers 400 collectively according to a preset operation cycle for checking the abnormality or failure of the rotating rollers 400 The rope 510 of the rope 510 and one end in the length direction of the rope 510 are wound and installed inside the housing 100 so that one end in the length direction of the rope 510 is wound or dissociated according to the rotation direction. Among the 400, a driving pulley 520 which is installed to be located directly below the rotating roller 400 located at one end of the upper side, and the other end in the longitudinal direction of the rope 510 are wound and the rope ( It is installed rotatably inside the housing 100 so that the other end in the longitudinal direction of the 510 is wound or dissociated, but is installed to be located directly below the rotating roller 400 located at the other end of the upper side of the rotating rollers 400 It includes a driven pulley 530 and a forward and reverse rotation motor 540 installed in the housing 100 to provide rotational power to the driving pulley 520, and a driving pulley when the forward and reverse rotation motor 540 is operated ( Rotating roller rotation checking means 500 for rotating the rotating rollers 400 through a rope 510 wound or dissociated around the 520 and the driven pulley 530;
Roller rotation detection sensor 600 installed for each of the rotating rollers 400, sensing the rotation of the rotating roller 400 and transmitting the signal to an external receiving object:
The operation period of the rotational roller rotation checking means 500 is set in advance to operate the forward and reverse rotation motor 540 of the rotational roller rotation checking means 500 according to the operation period, and the rotational roller rotation checking means 500 ), a threshold time for transmitting the detection signal of the roller rotation detection sensor 600 for each rotation roller 400 is set in advance, and the forward and reverse rotation motor 540 of the rotation roller rotation check means 500 operates Then, when there is a roller rotation detection sensor 600 that does not transmit a rotation detection signal for the rotating roller 400 within the threshold time, an abnormal signal is generated and output, but the abnormal signal includes identification information of the housing 100. The control unit 700 is included: And
It includes a wireless communication module 800 for receiving the abnormal signal from the control unit 700 and transmitting it to the remote integrated management server 1000,
A part of the distribution cable 11, which is introduced into the housing 100 through the through hole 110 of the housing 100, is curved several times along the rotary roller 400 and installed in a waveform, Part of the distribution cable 11 installed in the wave form acts as a margin to offset the flow and pulling phenomenon of the distribution cable 11 when an earthquake occurs,
The distribution cable of the underground distribution line 10 through the sliding operation of the sliding wire support member 300 in the wiring connector 200 and the spreading of the excess portion of the distribution cable 11 in the housing 100 linked thereto ( 11) An underground distribution line support device with a seismic function, characterized in that the force due to flow and pull is not directly transmitted to the connection point between the manhole installation point of the underground distribution line 10 or the distribution cable 11 .

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