KR102318980B1 - Stabilization system for aerial distribution line of built-up areas - Google Patents

Abstract

The present invention relates to a stabilization system for an overhead distribution line in an urban dense residential area, in which communication lines installed through electric poles of overhead distribution lines installed in urban dense residential areas are installed such that a number of the communication lines is a predetermined number or less for each messenger wire, a phenomenon that the electric poles are tilted or fall due to an excessive load and an excessive tension caused as too many communication lines are installed on the electric poles is more fundamentally prevented, and the overhead distribution lines installed in the urban dense residential areas maintain a more stable installation state. According to the present invention, the stabilization system for the overhead distribution line in the urban dense residential area includes a communication line wiring plate, a first fastening unit, a second fastening unit, a rotation driving unit, a control unit, a camera module, and a wireless communication module, wherein the communication line wiring plate includes an annular frame and a cable latching post formed on the annular frame.

Description

Stabilization system for aerial distribution line of built-up areas

According to the present invention, communication lines installed through telegraph poles of overhead distribution lines erected in urban residential areas can only be installed within a predetermined number of each power line. Overhead distribution lines in urban residential areas that allow the overhead distribution lines installed in urban residential areas to maintain a more stable installation state as it is possible to more fundamentally prevent the poles from tilting or falling due to load and tension It relates to a furnace stabilization system.

In general, an overhead distribution line includes a utility pole installed at a certain interval, a steel rod fixed to the utility pole, a distribution cable supported in an insulated state through a suspension insulator on the arm iron, a jumper wire connecting the distribution cable, and the jumper wire It is configured to include a line post insulator and the like supported in an insulated state.

On the other hand, overhead wires are installed on telegraph poles of overhead distribution lines for the installation of communication cables (hereinafter referred to as “communication lines”) such as optical cables or wired broadcasting cables.

That is, the overhead line is installed between the telegraph poles of the overhead distribution line to enable the wiring of communication lines such as optical cables or wired broadcasting cables, and is usually made of a wire having a certain tension.

However, the above-described barge wire and communication lines installed based thereon are also factors that hinder the stable installation of overhead distribution lines.

In other words, in urban residential areas, communication lines such as the Internet, IPTV, and cable broadcasting are installed for every household. There were many problems, such as the load acting on it.

To elaborate on the basis of Korea, according to the 'Standards for Installation of Telecommunication Lines of Telecommunication Lines' of KEPCO, which owns and manages utility poles for overhead distribution lines, power facilities such as high-voltage lines and transformers are located above the poles, and in the case of telecommunication lines, below it. It is to be installed along the 2 strands installed at an interval of 30cm on the The maximum number of communication lines that can be installed per clasp is 24, which is a standard that prevents contact with high-voltage lines and takes into account the load that the poles can withstand.

However, in urban residential areas, it is often found that a significant number of communication lines are intertwined so that the number cannot be counted, or they pass close enough to almost touch the high-voltage lines, and bundles of communication lines and various equipment are hung on other communication lines instead of the barges. In addition, it is not difficult to find the shape of a telephone pole that is tilted due to the weight and tension of dozens of such communication lines.

In addition, the clutter of communication lines can not only harm the aesthetics but also seriously threaten the safety of citizens. In other words, telegraph poles installed in the city center have a shallow burial depth and the support base is easy to weaken due to vehicle traffic. It could even lead to damage to the power pole.

Therefore, there is a need for a technology capable of continuously maintaining a stable installation state while being more safely protected from the excessive installation of communication lines and the resulting load on the overhead distribution line and its telegraph poles installed in urban residential areas.

Republic of Korea Patent No. 10-2229725 (published on March 22, 2021), “Stabilization system for overhead distribution lines” Republic of Korea Patent No. 10-2197757 (published on April 1, 2021), “Stabilization system for distribution lines” Korean Patent Laid-Open Patent No. 10-2017-0107304 (published on Sep. 25, 2017), “A system and method for voltage control of a DC distribution line”

In an embodiment of the present invention, communication lines installed through telegraph poles of overhead distribution lines erected in urban residential areas can only be installed within a predetermined number of each power line, so that the communication lines are installed in an excessively large number on the corresponding telephone poles. Urban housing density allows the overhead power distribution lines installed in urban residential areas to maintain a more stable installation state as it is possible to more fundamentally prevent the poles from tilting or falling due to the excessive load and tension generated. Provides local overhead distribution line stabilization system.

In addition, in the embodiment of the present invention, as the existence of abnormally installed communication lines is automatically checked every preset inspection period and the inspection results are automatically transmitted to the integrated management server, whether abnormal communication lines are installed or not can be checked from time to time in the integrated control room. To provide a stabilization system for overhead distribution lines in urban residential areas that can be identified and taken action.

The urban residential density overhead distribution line stabilization system according to an embodiment of the present invention is installed on the overhead distribution line 10 of the urban residential density area, and the communication line installed through the telephone pole 11 of the overhead distribution line 10 Urban housing dense area processing to stabilize the installation state of the overhead distribution line 10 from the tension and load of (20) and the proximity installation of the communication line 20 to the distribution cable 12 of the overhead distribution line 10 As a distribution line stabilization system, two adjacent power poles (11, hereinafter referred to as 'first utility pole (11a)' and 'second utility pole (11b)') of the overhead distribution line 10 for installation of communication lines 20) is installed on a joga line 21, each having one end in the longitudinal direction fixed to the , each of a plurality of concentric circles formed on the concentric circles in an arrangement to form three concentric circles together with the coupling holes 110 while at the same time a coupling hole 110 for the insertion and passage of the clamshell 21 is formed in the center A pair of communication line wiring plates 100 having a communication line wiring hole 120 formed therein and the communication line wiring plate 100 adjacent to the first utility pole 11a are detachably fixed to the first utility pole 11a It may include a first fastening part 200 and a second fastening part 300 for detachably fixing the communication line wiring plate 100 adjacent to the second electric pole 11b to the second electric pole 11b. have.

According to an embodiment of the present invention, communication lines installed through telegraph poles of overhead distribution lines installed in urban residential areas can be installed only within a predetermined number for each power line, so that the number of communication lines on the telegraph poles Overhead distribution lines installed in urban residential areas can be maintained in a more stable installation state as it is possible to more fundamentally prevent the poles from tilting or falling due to excessive load and tension generated during installation.

In addition, the existence of abnormally installed communication lines is automatically checked every preset inspection cycle, and the inspection results are automatically transmitted to the integrated management server, so that the installation of abnormal communication lines can be checked frequently in the integrated control room and taken action. .

1 is a side view schematically illustrating a system for stabilizing an overhead distribution line in an urban residential area according to an embodiment of the present invention;
2 is a front view illustrating a communication line wiring plate in an urban residential density overhead distribution line stabilization system according to an embodiment of the present invention;
3 is a plan view illustrating a communication line wiring plate in an urban residential density overhead distribution line stabilization system according to an embodiment of the present invention;
4 is a side cross-sectional view illustrating a communication line wiring plate in an urban residential density overhead distribution line stabilization system according to an embodiment of the present invention;
5 is a block diagram illustrating the electrical configuration of a system for stabilizing an overhead distribution line in an urban residential area according to an embodiment of the present invention;

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The following detailed description of the present invention is an embodiment in which the present invention may be practiced, and reference is made to the accompanying drawings shown by way of example of the embodiment. These embodiments are described in sufficient detail to enable those skilled in the art to practice the present invention. It should be understood that various embodiments of the present invention are different but need not be mutually exclusive. For example, certain shapes, structures, and characteristics described herein may be implemented in other embodiments without departing from the spirit and scope of the invention in relation to one embodiment. In addition, it should be understood that the position or arrangement of individual components in each described embodiment may be changed without departing from the spirit and scope of the present invention.

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

The terms used in the present invention have been selected as currently widely used general terms as possible while considering the functions in the present invention, but these may vary depending on the intention or precedent of a person skilled in the art, the emergence of new technology, and the like. In addition, in a specific case, there is a term arbitrarily selected by the applicant, and in this case, the meaning will be described in detail in the description of the corresponding invention. Therefore, the term used in the present invention should be defined based on the meaning of the term and the overall content of the present invention, rather than the name of a simple term.

In the present invention, when a certain part “includes” a certain component in the whole, this means that other components may be further included, rather than excluding other components, unless specifically stated to the contrary. In addition, the “… wealth", "… The term “module” means 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.

A system for stabilizing an overhead distribution line in an urban residential density area according to an embodiment of the present invention will be described with reference to FIGS. 1 to 5 .

1 is a side view schematically illustrating a system for stabilizing an overhead distribution line in an urban residential density area according to an embodiment of the present invention, and FIG. 2 is a communication line in a system for stabilizing an overhead distribution line in an urban residential density area according to an embodiment of the present invention. It is a front view illustrating a wiring plate, FIG. 3 is a plan view illustrating a communication line wiring plate in an overhead distribution line stabilization system in an urban residential density area according to an embodiment of the present invention, and FIG. 4 is a view according to an embodiment of the present invention It is a cross-sectional side view illustrating a communication line wiring plate in a residential overhead distribution line stabilization system, and FIG. 5 is a block diagram illustrating the electrical configuration of an urban residential overhead distribution line stabilization system according to an embodiment of the present invention.

As shown, the urban residential density overhead distribution line stabilization system according to an embodiment of the present invention is configured to include a communication line wiring plate 100 , a first fastening part 200 , and a second fastening part 300 . . In addition, the urban residential density overhead distribution line stabilization system according to an embodiment of the present invention may be configured to further include a rotation driving unit 400 , a control unit 500 , a camera module 600 and a wireless communication module 700 . have.

The urban residential density overhead distribution line stabilization system according to this embodiment is the tension and load of the communication lines 20 installed through the telegraph poles 11 of the overhead distribution line 10 in the urban residential density area, and the overhead distribution line 10 ) to stabilize the installation state of the overhead distribution line 10 from the proximity installation of the communication line 20 to the distribution cable 12.

In addition, detailed configurations for this purpose, the communication line wiring plate 100 , the first fastening part 200 , and the second fastening part 300 , will be described in turn.

Communication line wiring plate 100 is two adjacent poles (11, 'first pole (11a)' and 'second pole (11b)') of overhead distribution line 10 for installation of communication lines 20. One end of the longitudinal direction is installed on the wire 21 that is fixed to each, and this communication line wiring plate 100 is made of a pair, and one communication line wiring plate 100 is disposed adjacent to the first utility pole 11a and , the other communication line wiring plate 100 is disposed adjacent to the second telephone pole 11b.

And since the pair of communication line wiring plates 100 have the same shape, the following description will be made based on one communication line wiring plate 100 .

The communication line wiring plate 100 has a coupling hole 110 for insertion and passage of the wire 21 in the center, and is formed on the concentric circle in an arrangement to form three concentric circles together with the coupling hole 110 . A plurality of communication line wiring holes 120 are formed. To explain in detail based on the present embodiment, as 12 communication line wiring holes 120 are respectively formed on two concentric circles outside from the coupling hole 110 , that is, 24 communication line wirings are formed on the communication line wiring plate 100 . A hole 120 is formed. Accordingly, the communication line wiring plate may be installed while 24 communication lines pass.

And the communication line wiring plate 100 may have a configuration of a circular plate in which the guide groove 130 is formed along the periphery, and this communication line wiring plate 100 is an annular frame that is rotatably coupled along the guide groove 130 ( 140) may be included.

The annular frame 140 has a guide groove 141 corresponding to the guide groove 130 of the communication line wiring plate 100 formed along the inner circumference, and the guide groove 141 and the communication line wiring plate of the annular frame 140 . The annular frame 140 is rotatably installed along the circumference of the communication line wiring plate 100 through a rolling bearing (142, or roller bearing), a ball or a roller installed over the guide groove 130 of the 100. . At this time, the configuration in which the annular frame 140 is rotatable along the circumference of the communication line wiring plate 100 through a rolling bearing 142, a ball or a roller, etc. Since it can be implemented in various ways, detailed description and illustration thereof will be omitted in the present embodiment.

And based on the state in which the communication line wiring plate 100 is installed on the clamshell 21, the annular frame 140 has a driven gear 143 along the outer edge of one side facing the telephone pole 11, and such a driven gear ( 143) is formed of a magnetic material such as metal, which will be further described in the description of the rotation driving unit 400 to be described later. And the annular frame 140 has one or more cable hanging posts 144 formed around the outer periphery. Accordingly, when the annular frame 140 rotates through the rotational force transmitted to the driven gear 143, the cable engaging post 144 is rotated together, and according to the rotation of the cable engaging post 144, the outside of the annular frame 140 If there is a communication line installed outside from the perimeter of the side, it interferes with the rotation of the cable hanging post 144 , which results in the failure of normal rotation of the annular frame 140 .

Therefore, it is possible to check whether the communication line installed outside from the outer periphery of the annular frame 140 by checking the regular rotation of the annular frame 140 and whether it rotates normally at every rotation. In other words, by checking the regular rotation of the annular frame 140 and whether it rotates normally at every rotation, the existence of an abnormally installed communication line without passing through the communication line wiring hole 120 of the communication line wiring plate 100 can be checked regularly. can

And for this purpose, a rotation driving unit 400 for regular rotation operation of the annular frame 140 is installed in the telephone pole 11, and in this embodiment, the rotation driving unit 400 is a motor 410, a reducer 420, Although the driving gear 430, the rotation speed sensor 440, the driving control unit 450 and the communication module 460 are included as an example, the present invention is not limited thereto. Hereinafter, it will be described based on this embodiment.

The motor 410 is fixedly installed on the telephone pole 11, and for this purpose, a fixing bracket 470 fixed to the telephone pole 11 is provided, and the motor 410 is installed on the fixing bracket 470. To elaborate, the fixing bracket 470 includes a bottom portion 471 and a roof portion 472 facing each other and a side portion 473 connecting one end of the bottom portion 471 and the roof portion 472, It is fixedly installed on the telephone pole 11 through the side portion 473 , and has a structure in which the length of the roof portion 472 is longer than the length of the floor portion 471 . And a motor 410 and a reducer 420 to be described later, a driving control unit 450 and a communication module 460 are installed on the upper surface of the bottom part 471 . In addition, the fixing of the fixing bracket 470 to the telephone pole 11 can be implemented in various ways through known techniques, detailed description and illustration thereof will be omitted in this embodiment.

The reducer 420 reduces the rotational speed of the motor 410 , the driving gear 430 is coupled to the driving shaft 421 of the reducer 420 , and the driving gear 430 is the driven gear of the annular frame 140 . (143) coincides with

The rotation speed detection sensor 440 serves to detect the rotation speed of the annular frame 140, and the annular frame 140 is the cable hanging post 144 through the detection signal of the rotation speed detection sensor 440. You can check whether it rotates at a preset constant speed without a communication line hanging on it.

And in this embodiment, such a rotation speed detection sensor 440 is a configuration of a conventional rotation speed detection sensor including an iron core (not shown), a coil (not shown) and a control device (not shown) formed of a permanent magnet. Although given as an example, the present invention is not limited thereto. In addition, since the rotation speed detection sensor 440 in this embodiment uses a known conventional rotation speed detection sensor as described above, a detailed description and illustration thereof are omitted, and a box shape is briefly illustrated in the drawings.

Hereinafter, the configuration of the rotation speed detection sensor 440 and a method for detecting the rotation speed of the annular frame 140 will be schematically described. By including a coil (not shown) wound around, a control device (not shown), etc., the driven gear 143 of the annular frame 140 rotates and passes the iron core, and accordingly, the strength of the magnetic field created by the iron core is increased. Alternatingly, alternating current is induced in the coil, and as this signal is sent to the control device, the control device calculates the number of rotations and the rotation speed of the annular frame 140 .

And the rotation speed sensor 440 is installed on the roof portion 472 of the fixing bracket 470 according to the configuration described above.

The driving control unit 450 has a preset operating time based on the operating cycle of the motor 410 and one operation of the motor 410 , and accordingly, the driving control unit 450 controls the motor 410 to operate in the operating cycle and operation. operate over time.

The communication module 460 functions to receive the detection signal of the rotation speed detection sensor 440 and transmit it to the controller 500 to be described later.

The first fastening unit 200 detachably fixes the communication line wiring plate 100 adjacent to the first utility pole 11a to the first utility pole 11a. And in this embodiment, although the first fastening unit 200 is in the form of a steel band for fixing the existing arm iron to the telephone pole as an example, the present invention is not limited thereto. In addition, the detailed configuration of the first fastening part 200 in the form of a steel band may be variously implemented through known techniques, and detailed description and illustration thereof will be omitted in this embodiment.

The second fastening part 300 detachably fixes the communication line wiring plate 100 adjacent to the second utility pole 11b to the second utility pole 11b. And in this embodiment, although the second fastening part 300 is in the form of a steel band for fixing the existing arm iron to the telephone pole as an example, the present invention is not limited thereto. In addition, the detailed configuration of the second fastening part 300 in the form of a steel band may be variously implemented through known techniques, and detailed description and illustration thereof will be omitted in this embodiment.

The control unit 500 is installed on the fixing bracket 470 of the rotation driving unit 400 , and the control unit 500 detects the rotation speed detection sensor 440 transmitted through the communication module 460 of the rotation driving unit 400 . Controls the operation of the camera module 600, which will be described later, based on the signal. That is, the control unit 500 determines whether the annular frame 140 is rotating at a predetermined constant speed according to the detection signal of the rotation speed detection sensor 440, and the annular frame 140 does not rotate at the constant speed. When it is determined that the camera module 600 is not capable of outputting a control signal to the camera module 600, the camera module 600 is controlled to perform a photographing operation. And the control unit 500 functions to transmit the image data received through the camera module 600 to the remote integrated management server 1000 through the wireless communication module 700 to be described later.

The camera module 600 is installed on the fixing bracket 470 of the rotation driving unit 400, and the camera module 600 has an imaging angle abnormally without passing through the communication line wiring hole 120 of the communication line wiring plate 100. It is installed so as to form an angle at which the presence or absence of a communication line to be located outside from the outer periphery of the annular frame 140 can be confirmed. Then, the camera module 600 transmits the image data captured after the shooting operation according to the control signal of the controller 500 to the controller 500 .

The wireless communication module 700 functions to transmit the image data of the camera module 600 transmitted from the control unit 500 to the remote integrated management server 1000 .

According to the above configuration, communication lines installed through telegraph poles of overhead distribution lines erected in urban residential areas can be installed only within the number determined through the communication line wiring hole of the communication line wiring plate for each power line, and therefore the corresponding telephone pole Overhead distribution lines installed in urban residential areas can be installed more reliably results in maintaining the status quo.

In addition, as the existence of a communication line that is not installed through the communication line wiring hole of the above-described communication line wiring plate and is abnormally installed is automatically checked every preset inspection period, and the inspection result is automatically transmitted to the integrated management server, the abnormal communication line It is possible to take action as it is frequently checked in the integrated control room.

As described above, in the present description, specific matters such as specific components and limited embodiments and drawings have been described, but these are only provided to help a more general understanding of the present invention, and the present invention is not limited to the above embodiments No, various modifications and variations are possible from these descriptions by those of ordinary skill in the art to which the present invention pertains.

Therefore, the spirit of the present invention should not be limited to the described embodiments and should not be written, and not only the claims described below, but also all of the claims and all equivalents or equivalent modifications to these claims will fall within the scope of the spirit of the present invention.

10: overhead distribution line 11: telephone pole
11a: first pole 11b: second pole
12: distribution cable 20: communication line
21: barbed wire 100: communication line wiring plate
110: coupling hole 120: communication line wiring hole
130: guide groove 140: annular frame
141: guide groove 142: rolling bearing
143: driven gear 144: cable jam post
200: first fastening part 300: second fastening part
400: rotation driving unit 410: motor
420: reducer 421: drive shaft
430: drive gear 440: rotation speed detection sensor
450: driving control unit 460: communication module
470: fixing bracket 471: bottom
472: roof portion 473: side portion
500: control unit 600: camera module
700: wireless communication module 1000: integrated management server

Claims (1)

The tension and load of the communication lines 20 installed in the overhead distribution line 10 of the urban residential density area and installed through the telephone pole 11 of the overhead distribution line 10, and the distribution cable of the overhead distribution line 10 As an urban residential density overhead distribution line stabilization system for stabilizing the installation state of the overhead distribution line 10 from the proximity installation of the communication line 20 to (12),
For the installation of the communication lines 20, one end in the longitudinal direction on two adjacent poles 11 (hereinafter referred to as 'first pole (11a)' and 'second pole (11b)') of the overhead distribution line 10 is It is installed on each fixed pole 21, and consists of a pair, one disposed adjacent to the first utility pole 11a and the other disposed adjacent to the second utility pole 11b, each of which is located in the center A plurality of communication line wiring holes 120 that are formed on the concentric circles in an arrangement to form three concentric circles together with the coupling holes 110 at the same time as the coupling holes 110 for the insertion and passage of the wire 21 are formed. a pair of communication line wiring plates 100 formed thereon; a first fastening part 200 for detachably fixing the communication line wiring plate 100 adjacent to the first utility pole 11a to the first utility pole 11a; A second fastening part 300 for detachably fixing the communication line wiring plate 100 adjacent to the second utility pole 11b to the second utility pole 11b;
The communication line wiring plate 100 is made in the form of a circular plate in which a guide groove 130 is formed along the circumference and includes an annular frame 140 that is rotatably coupled along the guide groove 130,
In the annular frame 140 , a guide groove 141 corresponding to the guide groove 130 of the communication line wiring plate 100 is formed along the inner circumference of the communication line wiring plate 100 , and the guide groove 130 and the guide groove of the communication line wiring plate 100 are formed along the inner circumference. A rolling bearing (142, or roller bearing) installed over the guide groove 141 of the annular frame 140 is rotatably installed along the circumference of the communication line wiring plate 100 through a ball or roller, and the communication line wiring A driven gear 143 formed of a magnetic material such as metal is formed along the periphery of one surface facing the telephone pole 11 based on the state in which the plate 100 is installed on the clamshell 21, and one or more When two or more cable engaging posts 144 are formed and rotated through the rotational force transmitted to the driven gear 143, the cable engaging posts 144 are rotated together,
A rotation driving unit 400 for regular rotation operation of the annular frame 140 is installed on a telephone pole, and the rotation driving unit 400 includes a floor 471 and a roof 472 and the bottom facing each other. 471 and a side part 473 connecting one end of the roof part 472 are fixedly installed on the telephone pole 11 through the side part 473, and the length of the roof part 472 is the bottom part 471 ), a fixing bracket 470 formed longer than the length, a motor 410 installed on an upper surface of the bottom 471 , and a rotation speed of the motor 410 installed on an upper surface of the bottom 471 ) and a reduction gear 420 in which a driving gear 430 meshing with the driven gear 143 of the annular frame 140 is coupled to the driving shaft 421 of the annular frame 140 and installed on the roof portion 472 and the annular frame (140) the rotation speed detection sensor 440 of the function of detecting the rotation speed of the annular frame 140 in order to check whether or not it rotates at a preset constant speed without a communication line caught on the cable hanging post 144 and , is installed on the bottom part 471 and the operating time is preset based on the operating cycle of the motor 410 and one operation of the motor 410, so that the motor 410 is operated according to the operating cycle and operating time. A driving control unit 450 to operate, and a communication module 460 installed on the floor 471 to receive the detection signal of the rotation speed detection sensor 440 and transmit it to an external reception target,
The annular frame 140 is installed on the fixing bracket 470 of the rotation driving unit 400 and according to the detection signal of the rotation speed detection sensor 440 transmitted through the communication module 460 of the rotation driving unit 400 . ) determines whether it is rotating at a preset constant speed, and when it is determined that the annular frame 140 cannot rotate at the constant speed, a control signal is output to the camera module 600 and the camera module 600 is photographed a control unit 500 for controlling the operation to be performed and then transmitting the image data received through the camera module 600 to the remote integrated management server 1000 through the wireless communication module 700;
Installed on the fixing bracket 470 of the rotation driving unit 400, the imaging angle is installed abnormally without passing through the communication line wiring hole 120 of the communication line wiring plate 100, the outer side of the annular frame 140 The camera module is installed to form an angle at which the existence of a communication line located outside from the periphery can be confirmed, and transmits the image data photographed after the shooting operation according to the control signal of the control unit 500 to the control unit 500 . (600) and;
The wireless communication module 700 of the function of transmitting the image data of the camera module 600 transmitted from the control unit 500 to the integrated management server 1000; further comprising,
Through regular rotation of the annular frame 140 and checking whether normal rotation occurs at every rotation, the existence of abnormally installed communication lines without passing through the communication line wiring hole 120 of the communication line wiring plate 100 is regularly checked A system for stabilizing overhead distribution lines in urban residential areas, characterized in that

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