KR102160999B1 - System for fixing power distribution line of utility pole - Google Patents

Abstract

The present invention relates to a system for fixing a distribution line of an electric pole which provides an arm structure in which a position of a corresponding suspension insulator is adjusted in accordance with a change in tension of a distribution cable of the distribution line installed along the electric pole to more suppress an abnormality occurrence in a connection part between the corresponding distribution cable and the suspension insulator in accordance with the change in tension of the distribution cable, and an abnormality occurrence in a connection part between the distribution cable and a jumper line centered on the suspension insulator. According to the present invention, the system for fixing a distribution line of an electric pole comprises a first arm, a second arm, a first solenoid actuator, a second solenoid actuator, a first tension detection unit, a second tension detection unit, a jumper line support unit, a first distance detection sensor, a second distance detection sensor, a control unit, a wireless communication unit, and a power supply unit.

Description

System for fixing power distribution line of utility pole

The present invention provides a complete structure in which the position of the suspension insulator is adjusted according to the change in the tension of the distribution cable of the distribution line installed along the telephone pole in the field of distribution technology, so that the connection between the corresponding distribution cable and the suspension insulator according to the change in tension of the distribution cable The present invention relates to a distribution line fixing system for a telephone pole to better suppress the occurrence of abnormalities in parts and the connection between distribution cables and jumper wires centering on suspension insulators.

In general, large power generated from a power plant is transmitted to each substation through transmission lines such as transmission towers. It is distributed to customers of each home or building through several stages of transformation in the substation.

In addition, distribution is carried out through overhead distribution lines supported by telephone poles or underground distribution lines installed in the ground.

Briefly explaining the distribution structure and method using overhead distribution lines, power supply by overhead distribution lines to general customers is achieved through overhead distribution lines fixed to the utility pole through insulators, and each overhead distribution line is connected by jumper lines. do.

To further explain, a long pole (or "jang casting", hereinafter referred to as "long pole") is usually installed on the top of the telephone pole for processing and distribution. The main pole is generally composed of insulators installed in the horizontal wan-cheol and wan-cheol, and the overhead distribution line is connected to the top of the wan-cheol and the telephone pole via the suspension insulator of the jang-joo, and at the same time, each overhead distribution line is connected through a jumper line, The jumper wire is supported through a line post insulator installed vertically from the upper surface of Wancheol.

However, in the case of the above-described conventional overhead power distribution structure, an external force due to strong wind is applied to the jumper wire in a strong windy weather situation, and accordingly, an external force in the form of vibration is applied to the connection part between the jumper wire and the overhead power distribution line. And the connection between overhead distribution lines could be abnormal. In particular, when a strong wind blows toward the jumper line in a direction perpendicular to the temporary direction of the overhead distribution line, the risk of occurrence of the above-described abnormality is higher. And this is the cause of more frequent maintenance work for the corresponding overhead and distribution structure, and at the same time, it is the cause of more frequent disruptions in power supply to customers.

In addition, a change in tension occurs in the overhead distribution line centering on the telephone pole due to climatic influences such as wind and snow, the expansion and contraction of the overhead distribution line itself due to temperature changes, or ground subsidence, and if such tension change is severe, the overhead distribution line, As an abnormality occurred in the connection part between the insulator and the jumper wire of the telephone pole, the supply of power to the customer could be disrupted.

Korean Patent Registration No. 10-2018076 (Announcement on Sep. 04, 2019), “Fixing device for distribution line of telegraph” Korean Patent Registration No. 10-1357282 (Announcement on Jan. 28, 2014), “Completed steel for fixing the distribution line of the telegraph”

An embodiment of the present invention provides a complete structure in which the position of the corresponding suspension insulator is adjusted according to the change in the tension of the distribution cable of the distribution line installed along the telephone pole, and the corresponding distribution cable according to the change in the tension of the distribution cable and the connection part between the suspension insulator Provides a system for fixing distribution lines of telephone poles to better suppress the occurrence of abnormalities in the connection area between distribution cables and jumper cables centered on suspension insulators.

delete

delete

The distribution line fixing system for a telephone pole according to an embodiment of the present invention is fixed to the telephone pole 10, and a pair of coupling grooves 111 spaced apart along the left and right directions around the pole 10 are respectively Fixed unit wancheol 110 formed; A plurality of guide posts 120 having one end in the longitudinal direction inserted and fixed in the coupling groove 111 of the fixing unit wancheol 110 and installed for each of the coupling grooves 111; A plurality of guide holes 131 through which the other ends in the longitudinal direction of the guide posts 120 are respectively penetrated are formed so as to be slidable along the guide post 120 and disposed to face the fixed unit armhole 110, and one side The movable unit wancheol 130 to which the suspension insulator 140 is coupled to; The first wan-cheol 100 including; a stopper member 150 coupled to the other end of the guide post 120 in the longitudinal direction so that the movable unit wan-cheol 130 is prevented from being separated from the guide post 120: the telephone pole The second wancheol 200 installed on the telephone pole 10 as a structure symmetrical with the first wancheol 100 around (10): its operation on the fixed unit wancheol 110 of the first wancheol 100 The rod 310 is installed to advance in the direction of the movable unit wan-cheol 130 of the first wan-cheol 100, and at the same time, the tip of the actuating rod 310 is fixed to the movable unit- wan-cheol 130 of the first wan-cheol 100 The first solenoid actuator to be operated: The operation rod 410 is installed in the fixed unit arm 210 of the second wancheol 200 so as to advance in the direction of the movable unit arm 230 of the second wancheol 200 and operates at the same time The front end of the rod 410 is a second solenoid actuator 400 fixed to the movable unit wan-cheol 230 of the second wan-cheol 200: a suspension insulator installed in the movable unit wan-cheol 130 of the first wan-cheol 100 The first tension sensing unit 510 for measuring the tension of the distribution cable 21 connected to the 140: a distribution connected to the suspension insulator 240 installed in the movable unit wan chul 230 of the second wan-cheol 200 The second tension sensing unit 520 for measuring the tension of the cable 22: One end in the length direction of the fixed unit wan chul 110 of the first wan-cheol 100 and the temporary direction of the distribution cables 21 and 22 It is slidably coupled in a vertical direction (hereinafter referred to as "the temporary direction"), and the other end in the longitudinal direction slides in a direction perpendicular to the temporary direction to the fixed unit wan-cheol 210 of the second wan-cheol 200 A support plate 610 that is possibly coupled; A line post insulator 620 installed in the center of the support plate 610 based on the temporary direction; A first fixed post 640 fixedly coupled to the movable unit wan-cheol 130 of the first wan-cheol 100; Includes; a second fixed post 660 fixedly coupled to the movable unit wan chul 230 of the second wan-cheol 200, and a jumper wire 30 connecting the distribution cables 21 and 22 is a longitudinal direction thereof Two parts are fixed to the first fixed post 640 and the second fixed post 660, and at the same time, in the section between the first fixed post 640 and the second fixed post 660, the line post insulator Jumper wire support part 600 supported by 620: a first distance detection sensor 710 for sensing the distance between the fixed unit wan chul 110 and the movable unit wan chul 130 of the first wan-cheol 100: the first 2 A second distance sensing sensor 720 for sensing the distance between the fixed unit arm 210 and the movable unit arm 230 of the wancheol 200: The first tension sensor 720 according to the tension detection signal of the first tension sensing unit 510 1 Controls the operation of the solenoid actuator 300, controls the operation of the second solenoid actuator 400 according to the tension detection signal of the second tension sensing unit 520, and suspends the first wancheol 100 The sliding distances of the movable unit Wancheol 130 according to the predetermined tension size of the distribution cable 21 connected to the insulator 140 are stored in advance as the first data, and the suspension insulator 240 of the second Wancheol 200 The sliding distances of the movable units 130 according to the predetermined tension size of the distribution cable 22 connected to the power distribution cable 22 are stored in advance as second data, and the first tension detection signal according to the tension detection signal of the first tension detection unit 510 1 After comparing the distance value of the data and the distance detection signal of the first distance detection sensor 710, if the difference is a level outside the first threshold range set in advance, it is determined as an abnormality of the first solenoid actuator 300 After outputting 1 abnormal signal and comparing the distance value of the second data according to the tension detection signal of the second tension detection unit 520 and the distance detection signal of the second distance detection sensor 720, the difference If the level is outside the second threshold range set in the second A control unit 800 that determines an abnormality in the solenoid actuator 400 and outputs a second abnormal signal: The first abnormal signal and the second abnormal signal output from the control unit 800 are transmitted to the remote integrated management server 1000. A wireless communication unit 810 for transmitting: And a solar panel 910 installed on the upper surface of the support plate 610 of the jumper line support unit 600 to generate solar power and electricity generated through the solar panel 910 It includes a rechargeable battery 920 to charge, and the first solenoid actuator 300, the second solenoid actuator 400, the first tension sensing unit 510, the second tension sensing unit ( 520), a first distance detecting sensor 710, a second distance detecting sensor 720, a control unit 800, and a power supply unit 900 supplying the wireless communication unit 810.

As devised for the purpose and need of the present invention as described above, the system for fixing the distribution line of the telephone pole is a fixed unit wancheol 110 in which a pair of coupling grooves 111 are formed on both left and right sides around the telephone pole 10, the A plurality of guide posts 120 installed in the coupling groove 111, a guide hole 131 through which the guide post 120 passes, and a movable unit wancheol 130 in which a suspension insulator 140 is coupled to one surface, The first wancheol 100 including a stopper member 150 coupled to the other end of the guide post 120 in the longitudinal direction: the first wancheol 100 and the first wancheol 100 with a symmetrical structure around the telephone pole 10 2 Wancheol 200: The first solenoid actuator 300 installed on the fixed unit Wancheol 110 and fixed to the movable unit Wancheol 130, and the front end of the operating rod 310: Second solenoid actuator 400 installed in the fixed unit arm 210 and the tip of the operating rod 410 fixed to the movable unit arm 230: Tension of the distribution cable 21 connected to the suspension insulator 140 A first tension sensing unit 510 for measuring: a second tension sensing unit 520 for measuring the tension of the distribution cable 22 connected to the suspension insulator 240 of the second Wancheol 200: the first A support plate 610 slidingly coupled to the wancheol 100 and the second wancheol 200, a line post insulator 620 installed on the support plate 610, and a first fixing coupled to the movable unit wancheol 130 A jumper line support part 600 including a post 640 and a second fixed post 660 coupled to the movable unit arm 230: detects the distance between the fixed unit arm 110 and the movable unit arm 130 A first distance sensing sensor 710: A second distance sensing sensor 720 for sensing the distance between the fixed unit arm 210 and the movable unit arm 230: Tension sensing of the first tension sensing unit 510 Controls the first solenoid actuator 300 according to the signal, and according to the tension detection signal of the second tension detection unit 520 D Control unit 800 for controlling the second solenoid actuator 400: A wireless communication unit 810 that transmits the first abnormal signal and the second abnormal signal output from the control unit 800 to the remote integrated management server 1000 And a rechargeable battery 920 for charging electricity generated by the solar panel 910 installed on the upper surface of the support plate 610, the first solenoid actuator 300, the second solenoid actuator 400, the first The corresponding operating power is supplied to the tension sensing unit 510, the second tension sensing unit 520, the first distance sensing sensor 710, the second distance sensing sensor 720, the control unit 800, and the wireless communication unit 810, respectively. Power supply unit 900 to supply: may include.

According to an embodiment of the present invention, as a complete structure in which the position of the suspension insulator is adjusted according to the change in the tension of the distribution cable of the distribution line installed along the telephone pole is provided, the corresponding distribution cable and its suspension according to the change in the tension of the distribution cable The occurrence of abnormalities in the connection part between insulators and the occurrence of abnormalities in the connection part between distribution cables and jumper wires centering on suspension insulators can be better suppressed.

delete

delete

1 is a perspective view illustrating a system for fixing a distribution line of a telephone pole according to an embodiment of the present invention,
2 is a side view illustrating a system for fixing a distribution line of a telephone pole according to an embodiment of the present invention;
3 is a plan view illustrating a system for fixing a distribution line of a telephone pole according to an embodiment of the present invention,
4 is a block diagram illustrating an electrical configuration of a system for fixing a distribution line of a telephone pole 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.

A system for fixing a distribution line of a telephone pole according to an embodiment of the present invention will be described with reference to FIGS. 1 to 4.

1 is a perspective view illustrating a system for fixing a distribution line of a telephone pole according to an embodiment of the present invention, FIG. 2 is a side view illustrating a system for fixing a distribution line of a telephone pole according to an embodiment of the present invention, and FIG. A plan view illustrating a system for fixing a distribution line for a telephone pole according to an embodiment of the present invention, and FIG. 4 is a block diagram illustrating an electrical configuration of a system for fixing a distribution line for a telephone pole according to an embodiment of the present invention.

As shown, the system for fixing the distribution line of the telephone pole according to an embodiment of the present invention includes a first wancheol 100, a second wancheol 200, a first solenoid actuator 300, a second solenoid actuator 400, A first tension sensing unit 510, a second tension sensing unit 520, a jumper wire support unit 600, a first distance sensing sensor 710, a second distance sensing sensor 720, a control unit 800, a wireless communication unit It is configured to include 810 and a power supply unit 900.

The first wancheol 100 is fixed to the telegraph pole 10 of the overhead distribution line, and this first wancheol 100 is a fixed unit wancheol 110, a guide post 120, a movable unit wancheol 130, a suspension insulator ( 140) and a stopper member 150.

The fixed unit wancheol 110 is formed with a pair of coupling grooves 111 spaced apart along the left and right directions on both left and right sides of the telephone pole 10, respectively.

The guide post 120 is a plurality of configurations in which one end in the longitudinal direction is inserted and fixed in the coupling groove 111 of the fixing unit wancheol 110, and installed for each coupling groove 111 of the guide post 120.

The movable unit arm 130 is formed with a plurality of guide holes 131 through which the other ends in the length direction of the guide posts 120 are respectively penetrated to face the fixed unit arm 110 in a slidable state along the guide post 120 It is disposed, and a suspension insulator 140 is coupled to one side.

The stopper member 150 is coupled to the other end in the longitudinal direction of the guide post 120 to prevent the movable unit arm 130 from being separated from the guide post 120.

The second wancheol 200 has a structure symmetrical with the first wancheol 100 around the telephone pole 10 and is installed on the telephone pole 10. To further explain, reference numerals 210, 220, 230, 231, 240, and 250 sequentially illustrate a fixed unit wancheol, a guide post, a movable unit wancheol, a guide groove, a suspension insulator and a stopper member of the second wancheol 200. .

The first solenoid actuator 300 is installed in the fixed unit wan chul 110 of the first wan-cheol 100, and at this time, the first solenoid actuator 300 has its operating rod 310 as a movable unit of the first wan-cheol 100 It is installed in the fixed unit wancheol 110 of the first wancheol 100 so as to advance in the direction of the wancheol 130. In addition, the front end of the actuating rod 310 of the first solenoid actuator 300 is fixed to the movable unit wan-cheol 130 of the first wan-cheol 100.

The second solenoid actuator 400 is installed in the fixed unit Wancheol 210 of the second Wancheol 200, and at this time, the second solenoid actuator 400 has its operating rod 410 being the moving unit of the second Wancheol 200 It is installed in the fixed unit wancheol 210 of the second wancheol 200 so as to advance in the direction of wancheol 230. In addition, the front end of the operating rod 410 of the second solenoid actuator 400 is fixed to the movable unit wan-cheol 230 of the second wan-cheol 200.

The first tension sensing unit 510 measures the tension of the distribution cable 21 connected to the suspension insulator 140 installed in the movable unit wancheol 130 of the first wancheol 100.

The second tension sensing unit 520 measures the tension of the distribution cable 22 connected to the suspension insulator 240 installed in the movable unit wancheol 230 of the second wancheol 200.

In addition, the first tension sensing unit 510 and the second tension sensing unit 520 may be variously implemented through Korean Patent No. 10-1416926, Korean Patent No. 10-0958945, and other known technologies, respectively. Bar, detailed description and illustration thereof are omitted in the present embodiment.

The jumper wire support part 600 includes a support plate 610, a line post insulator 620, a first movable post 630, a first fixed post 640, a second movable post 650, and a second fixed post 660. ).

The support plate 610 is in a direction in which one end in the length direction is perpendicular to the temporary direction of the distribution cables 21 and 22 (hereinafter referred to as "the direction of installation") in the fixed unit of the first Wancheol 100. At the same time, the other end in the longitudinal direction is slidably coupled to the fixed unit wan chul 210 of the second wan-cheol 200 in a direction perpendicular to the temporary direction. Here, the slidable combination of the support plate 610 with the fixed unit wan-cheol 110 of the first wan-cheol 100 and the fixed unit wan-cheol 210 of the second wan-cheol 200 may be implemented in various forms through known techniques. As possible, detailed descriptions and illustrations thereof are omitted in the present embodiment.

The line post insulator 620 is installed in the center of the support plate 610 based on the temporary direction.

delete

The first fixed post 640 is fixedly coupled to the movable unit wancheol 130 of the first wancheol 100, and the second fixed post 660 is fixedly coupled to the movable unit wancheol 230 of the second wancheol 200 do.

The jumper wire support part 600 of this configuration includes the jumper wire 30 connecting the distribution cables 21 and 22 to the first fixing post 640 and the second fixing post 660 in two parts based on the length direction. At the same time, it is supported by the line post insulator 620 in a section between the first fixed post 640 and the second fixed post 660 at the same time.

The first distance detection sensor 710 detects the distance between the fixed unit wancheol 110 and the movable unit wancheol 130 of the first wancheol 100, and the second distance detection sensor 720 is the second wancheol 200 The distance between the fixed unit wancheol 210 and the movable unit wancheol 230 is sensed. In addition, since the first distance sensor 710 and the second distance sensor 720 can be implemented in various forms and methods through various known sensor technologies, detailed descriptions and illustrations thereof are omitted in this embodiment. do.

The controller 800 controls the operation of the first solenoid actuator 300 according to the tension detection signal of the first tension detection unit 510, and the second solenoid actuator according to the tension detection signal of the second tension detection unit 520 Control the operation of 400.

In addition, the control unit 800 stores the sliding distances of the movable unit wancheol 130 according to a predetermined tension size of the distribution cable 21 connected to the suspension insulator 140 of the first wancheol 100 as first data. And, the sliding distances of the movable unit wancheol 130 according to a predetermined tension size of the distribution cable 22 connected to the suspension insulator 240 of the second wancheol 200 are stored in advance as second data. Based on this, the control unit 800 compares the distance value of the first data according to the tension detection signal of the first tension detection unit 510 and the distance detection signal of the first distance detection sensor 710, and the difference is determined in advance. If the level is outside the set first threshold range, it is determined as an abnormality of the first solenoid actuator 300 and outputs a first abnormal signal, and the distance value of the second data according to the tension detection signal of the second tension sensing unit 520 And after comparing the distance detection signal of the second distance detection sensor 720, if the difference is a level outside the preset second threshold range, it is determined as an abnormality of the second solenoid actuator 400 and outputs a second abnormal signal.

The wireless communication unit 810 transmits the first abnormal signal and the second abnormal signal output from the control unit 800 to the remote integrated management server 1000.

The power supply unit 900 is configured to include a solar panel 910 and a rechargeable battery 920, and the solar panel 910 is installed on the upper surface of the support plate 610 of the jumper wire support unit 600 to Power is generated, and the rechargeable battery 920 charges electricity generated through the solar panel 910. In addition, the power supply unit 900 supplies power from the rechargeable battery 920 to the first solenoid actuator 300, the second solenoid actuator 400, the first tension sensing unit 510, the second tension sensing unit 520, and the first It supplies to the distance sensor 710, the second distance sensor 720, the controller 800, and the wireless communication unit 810.

According to the above-described configuration, the change in tension for each distribution cable connected to the telephone pole and the amount of external force applied to the connection portion between the distribution cable and its suspension insulator is thus the first Wancheol 100 and the Second Wancheol 200 It is reduced through the movement of either or both of the movable units 130 and 230, and at this time, the control unit 800 uses the operating rods 310 and 410 of the first and second solenoid actuators 300 and 400 based on the change in tension of the distribution cable. By adjusting the operating length, the occurrence of abnormalities in the connection part between the distribution cable and its suspension insulator due to the change in tension of the distribution cable, and the occurrence of abnormality in the connection part between the distribution cable and jumper wires centering on the suspension insulator can be better suppressed. At the same time, existing difficulties caused by the change in tension of the distribution cable can be prevented or remarkably improved.

In addition, whether the first solenoid actuator 300 and the second solenoid actuator 400 move the movable units 130 and 230 of the first and second wancheols (100,200) according to the change in tension of the distribution cable Since the signal is automatically transmitted to the remote integrated management server 1000 when an abnormality occurs at the same time through the real-time inspection function, the maintenance/management of the main components to cope with the change in tension of the distribution cable is stable and easy. You will be able to.

delete

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: telegraph pole 21, 22: distribution cable
30: jumper wire 100: first complete
110: fixed unit complete 111: coupling groove
120: guide post 130: complete movable unit
131: guide hole 140: suspension insulator
150: stopper member 200: second complete iron
210: fixed unit wancheol 211: coupling groove
220: guide post 230: complete operation unit
231: guide hole 240: suspension insulator
250: stopper member 300: first solenoid actuator
310: operating rod 400: second solenoid actuator
410: operating rod 510: first tension sensing unit
520: second tension sensing unit 600: jumper wire support
610: support plate 620: line post insulator
640: first fixed post 660: second fixed post
710: first distance sensor 720: second distance sensor
800: control unit 810: wireless communication unit
900: power supply unit 910: solar panel
920: rechargeable battery 1000: integrated management server

Claims (1)

Fixed unit wancheol 110 in which a pair of coupling grooves 111 are formed on both left and right sides of the telephone pole 10, a plurality of guide posts 120 installed in the coupling grooves 111, and the guide posts 120 A guide hole 131 through which) is formed and a movable unit wancheol 130 in which the suspension insulator 140 is coupled to one surface thereof, and a stopper member 150 coupled to the other end of the guide post 120 in the longitudinal direction First wancheol 100: a second wancheol 200 installed in a symmetrical structure with the first wancheol 100 around the telephone pole 10: installed on the fixed unit wancheol 110 and operating rod 310 The tip of the first solenoid actuator 300 fixed to the movable unit wancheol 130: is installed on the fixed unit wancheol 210 of the second wancheol 200 and the tip of the actuating rod 410 is movable unit wancheol Second solenoid actuator 400 fixed to 230: a first tension sensing unit 510 for measuring the tension of the distribution cable 21 connected to the suspension insulator 140: suspension of the second wancheol 200 A second tension sensing unit 520 for measuring the tension of the distribution cable 22 connected to the insulator 240: a support plate 610 slidingly coupled to the first wancheol 100 and the second wancheol 200, A line post insulator 620 installed on the support plate 610, a first fixed post 640 coupled to the movable unit arm 130, and a second fixed post 660 coupled to the movable unit arm 230 ) Comprising: a first distance sensing sensor 710 for sensing the distance between the fixed unit pieces 110 and the movable unit pieces 130: the fixed unit pieces 210 and the movable unit pieces (230) A second distance sensing sensor 720 for sensing the distance between: controlling the first solenoid actuator 300 according to the tension sensing signal of the first tension sensing unit 510, and controlling the second tension sensing unit ( The control unit 800 for controlling the second solenoid actuator 400 according to the tension detection signal of the 520: from the control unit 800 A wireless communication unit 810 that transmits the first abnormal signal and the second abnormal signal output from the remote to the remote integrated management server 1000: And electricity generated by the solar panel 910 installed on the upper surface of the support plate 610 The first solenoid actuator 300, the second solenoid actuator 400, the first tension sensing unit 510, the second tension sensing unit 520, the first distance sensing sensor including a rechargeable battery 920 for charging (710), a power supply unit 900 for supplying corresponding operating power to the second distance sensing sensor 720, the control unit 800, and the wireless communication unit 810, respectively.

Images