KR102644680B1 - Safety Management Method for Insulation Insulator System of Distribution Line with Transformer - Google Patents

Abstract

The present invention has an installation groove (11-1) with one end open, a body portion (11) installed to intersect the electric pole (P), and an opening portion (12-1) on one side, and the body portion (11) ) a complete iron (10) consisting of a cover (12) fixedly installed; A drive motor (20) installed in the installation groove (11-1); A rotating drum 30 disposed in the opening 12-1; An insulating member (40) having a fixing part (41) at one end and the other end being installed and fixed to the circumferential surface of the rotating drum (30); An axial support member 50 fastened to the cover 12 to axially support the rotating drum 30; and an insulator fixture consisting of a switch unit 70 that controls the operation of the drive motor 20; It includes a safety management method for an insulating insulator system of a distribution line equipped with a transformer including a status check module provided for real-time monitoring of a target including the insulator fixing device.

Description

Safety Management Method for Insulation Insulator System of Distribution Line with Transformer}

The present invention relates to a safety management method for the insulating insulator system of a distribution line equipped with a transformer in the field of distribution technology. It includes an insulator fixing device that stably fixes the distribution line to a utility pole and at the same time quickly and easily replaces the insulator when it is damaged. , Safety management method for the insulator system of a distribution line equipped with a transformer that facilitates management of the surrounding situation by easily controlling and managing the system and surrounding sites in the initial process, intermediate process, and necessary points for the installation and maintenance of the insulator. It's about.

Technology is being continuously developed to stably fix distribution lines to utility poles around apartment complexes by installing them on complete steel, while also allowing for quick and easy replacement if the insulators are damaged. In addition, installation and repair of various structures related to these insulating insulators are important. However, in the installation and repair of such infrastructure, it is necessary to monitor and manage specific areas, control unscreened personnel, and manage situations where accidents occur in real time. In addition, it is necessary to go beyond simple shooting and differentiate the setup operation and fixation structure for shooting to provide efficient and easy management.

Korean Patent No. 10-1002422

The problem to be solved by the present invention is to provide an insulating insulator system for a distribution line equipped with a transformer that is installed on a complete steel wall and stably fixes the distribution line to utility poles around an apartment building, and at the same time allows for quick and easy replacement when the insulator is damaged. It is provided.
In addition, it provides an insulator system for distribution lines equipped with transformers that facilitates management of surrounding situations by easily controlling and managing specific areas in the operation of infrastructure for the installation and maintenance of insulators.
In addition, in providing management means to achieve this, it is possible to effectively and efficiently monitor, analyze, and manage control objects in a number of specific areas by providing a minimum number, rather than a large number.
In addition, it is possible to suppress loads and delays that may occur due to the operation transition of these management means and optimize the installation and operation status through active response to the external environment.
The problems of the present invention are not limited to the problems mentioned above, and other problems not mentioned will be clearly understood by those skilled in the art from the description below.

In order to achieve the above task, the insulating insulator system of a distribution line equipped with a transformer according to one aspect of the present invention (safety management method for an insulating insulator system of a distribution line equipped with a transformer) is an installation groove (11-1) with one end open. ( 10); A drive motor (20) installed in the installation groove (11-1); A rotating drum 30 disposed in the opening 12-1; An insulating member (40) having a fixing part (41) at one end and the other end being installed and fixed to the circumferential surface of the rotating drum (30); An axial support member 50 fastened to the cover 12 to axially support the rotating drum 30; and an insulator fixture consisting of a switch unit 70 that controls the operation of the drive motor 20, wherein the insulator fixture is monitored through a handling process including installation and transportation by a monitoring facility installed on site and at the site. Monitoring of a specific area is performed, and the monitoring equipment includes a lower body unit (10') located at the site; A central monitoring unit (20') provided at the upper center of the lower body unit (10') to photograph the surrounding area in a rotating manner; A first side monitoring unit (30') that is moved left and right in a sliding manner on the lower body unit (10') and is provided on one side of the central monitoring unit (20') to photograph the surroundings; And a second side monitoring unit (40') that is moved left and right in a sliding manner on the lower body unit (10') and is provided on the other side of the central monitoring unit (20') to photograph the surroundings, wherein the central monitoring unit (20') The unit 20' includes a drive module 21' installed on the lower body unit 10', a connecting rod module 22' installed on the upper part of the driving module 21', and the connecting rod module 22. '), a plate panel module 23' provided on the upper part of the plate panel module 23', a plurality of photographing modules 24' installed to be spaced apart from each other along the circumference of the plate panel module 23', and the plate panel module 23'. It includes a lighting module 25' disposed between the photographing modules 24' along the periphery to provide lighting.

According to the present invention as described above, one or more of the following effects are achieved.
According to the present invention, it is possible to provide an insulating insulator system for a distribution line equipped with a transformer that is installed on complete steel and stably fixes the distribution line to utility poles around an apartment building, and at the same time allows for quick and easy replacement when the insulator is damaged. .
In addition, it is possible to monitor and manage fires occurring on these systems, control fires, as well as evacuation-related management, and furthermore, manage and monitor the firefighting equipment itself.
In addition, as a means of determining the status of the target, it enables quick and easy setup and installation through a preset method and specialized structure.
In addition, the fixing method of the monitoring means itself is carried out continuously and sequentially, so that the monitoring means that minimizes manual work are provided together.
In addition, in the gradual transformation of the monitoring means itself, the original function of the monitoring function itself is prevented from being impaired, and a monitoring means is provided to ensure installation with a strong fixing force on the preset structure.

Figures 1 and 2 are diagrams showing an electrical insulator fixing device for an apartment complex.
Figure 3 is a combined cross-sectional view showing an electrical insulator fixing device for an apartment complex according to the present invention.
Figures 4a and 4b are diagrams illustrating the use state of the insulator fixing device for electric housing in an apartment complex according to the present invention.
Figure 5 is a front view showing the state in which the separation prevention part is provided in the insulator fixing device for electric housing in an apartment complex according to the present invention.
Figure 6 is a perspective view showing the separation prevention part in Figure 5.
7 to 10 are schematic diagrams showing main components of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the attached drawings. Advantages and features of the present invention and preferred embodiments of the present invention will be described in detail below with reference to the attached drawings. The advantages and features of the present invention and methods for achieving them will become clear by referring to the embodiments described in detail below along with the accompanying drawings.
Referring to Figures 1 to 3, the insulator fixing device for apartment electricity according to the present invention includes a complete iron (10) and a complete iron ( 10), the rotating drum 30 installed on the driving motor 20, the insulating member 40 installed and fixed on the circumferential surface of the rotating drum 30, and the rotating drum 30 as the axis. A supporting shaft support member 50, a line support 60 arranged to face each other on the upper surface of the complete iron 10 so that the distribution line (L) can be seated, and a drive motor 20 installed on the complete iron 10 It consists of a switch unit 70 that controls the operation.
The complete iron (10) has an installation groove (11-1) with one end open, and a body portion (11) installed on the upper part of the electric pole (P) to intersect the electric pole (P) via a fixing band (B). ) and a cover 12 having an opening 12-1 on one side and fixed to the body 11 having an installation groove 11-1 via a plurality of threaded parts S.
Additionally, a fastening hole (not specifically shown) is formed at the edge of the outer surface where the installation groove 11-1 is formed, and the screw portion S is fastened. A rectangular opening 12-1 with at least two sides open is formed on the outer surface of the cover 12, and a rotating drum 30 and a spacer S, which will be described later, are formed in the opening 12-1. is inserted.
The cover 12 has mounting holes (not specifically shown) formed in the longitudinal direction at the edges and the center, and a plurality of threaded portions (S) and an axial support member 50 are formed through the mounting holes (not specifically shown). are inserted and fastened respectively. A drive motor 20 is inserted and fixedly installed in the installation groove 11-1 of the body 11. A spline shaft 21 with a plurality of grooves radially formed on the outer surface of the drive motor 20 is formed. , the spline shaft 21 is coupled to the insertion groove 31 of the rotating drum 30, which will be described later.
Therefore, when the drive motor 20 is rotated, the spline shaft 21 and the insertion groove 31 form a concavo-convex shape and are engaged with each other, so that not only can the rotary drum 30 be easily rotated, but also the rotary drum 30 can be rotated easily. It can firmly withstand the self-weight of the insulating member 40 installed in (30) and the distribution line (L) fixed to the insulating member 40 by supporting it in an engaged state. After mounting the drive motor (20) in the installation groove (11-1), it is desirable to seal the gap between the installation groove (11-1) and the drive motor (20) to prevent rainwater, etc. from entering the interior. do.
Referring to FIG. 2, the rotary drum 30 rotated by the drive motor 20 has an overall shape of a unimodal shape, and has an insertion groove 31 on one inner peripheral surface that engages with the spline shaft 21, and It consists of a mounting hole 32 that is opened longitudinally on the other side into which the axial support member 50 is inserted, and a fastening hole 33 that is open outward on the circumferential surface and is fastened with the insulating member 40, which will be described later.
The insulating member 40, which is fixedly installed on the rotating drum 30, is made of a ceramic insulating material that has a structure in which a plurality of oval shapes are stacked, and single rods are formed at the upper and lower ends, and the upper single rod has a "Ω" shaped ring. A top 41 is formed, and a screw tab is formed on the outer surface of the lower single rod and is fastened to the fastening hole 33 of the rotating drum 30.
The line supports 60, which are disposed opposite to each other on the upper surface of the complete iron 10 and can seat the distribution line (L), have one end and the other end each inclined outward so that the distribution line (L) can be seated on the upper surface. A pair of track support pieces 61, one end of which is fixed to the upper surface of the body portion 11 and the cover 12 of the complete iron 10, and the other ends of which are fixed to the outer surface of the track support piece 61, respectively. It consists of a support piece (62) that elastically supports the track support piece (61) in one direction.
The track support piece 61 is formed with an “ㄱ”-shaped support piece (not specifically shown), and at each end of the “L”-shaped support piece, an outwardly inclined guide piece (not specifically shown) is provided. formed as a whole. And, as shown in Figure 3, one end is fixed to the outer surface of the "ㄱ" shaped support piece (not specifically shown), and the other end is attached to the body portion 11 and the cover 12 of the complete iron 10. ) Each of the carbon pieces 62 fixed to the upper surface is formed.
A switch unit 70 is installed on the outer surface of the complete iron 10, and the switch unit 70 controls the operation of the driving motor 20. The line support portion 60, which is composed of the line support piece 61 and the carbon piece 62, and the fixing portion 41 of the insulating member 40 are insulated so that no current flows when contacted with the high-voltage distribution line (L). It is desirable to form it from a material.
Meanwhile, although not specifically shown, it is preferable that power be supplied to the drive motor 20 through a transformer installed on the electric pole (P). Also, even if the insulating member 40 needs to be replaced due to damage or deterioration, the insulating member 40 is replaced without cutting off the power to the distribution line (L), and the drive motor 20 is operated to maintain the distribution line. (L) can be detained and fixed again.
The present invention allows the distribution line (L) to be detained and released through the drive motor 20, the rotating drum 30, and the insulating member 40, thereby reducing the use of power due to power interruption of the distribution line (L). Not only does it fundamentally relieve the inconvenience of users who were unable to do so, but it also protects workers from electrical accidents due to electric shock because workers do not need to touch the distribution line (L) directly, and at the same time reduces the time required for replacement work. can be dramatically reduced.
The operational relationship of the present invention will be described with reference to FIGS. 4A to 4B as follows. When the insulating member 40 loses its function due to damage or aging due to external force, the worker climbs the electric pole (P) and holds the distribution line (L), holding the fixing part (41) of the insulating member (40). The detention status will be lifted and replacement work will proceed.
To explain this in more detail, when the worker presses the switch unit 70 installed on the iron pole 10 while climbing on the electric pole (P), the drive motor 20 rotates counterclockwise, and the drive motor 20 The rotating drum 30 coupled with also rotates together.
In addition, the insulating member 40 fixed to the rotating drum 30 is also rotated together, so that the distribution line L held in the fixing part 41 is gradually separated, and the insulating member 40 is completely rotated to the 9 o'clock position. When located, it is completely separated from the fixing part 41 and the distribution line (L) falls due to its own weight.
At this time, the pair of line support pieces 61, which were kept apart from each other by the insulating member 40, are restored to their original state at random intervals by the elastic force of the support pieces 62, so that the distribution line L Even if it falls, it can be safely supported.
After manipulating the switch unit 70 as described above to release the distribution line (L) from the insulating member 40, the worker dismantles the damaged or worn insulating member 40 from the rotating drum 30 and installs a new insulating member. Replace it with the member (40) and mount it on the rotating drum (30). After the new insulating member 40 is mounted on the rotating drum 30, the switch unit 70 installed on the iron 10 is operated again to operate the driving motor 20. The operating driving motor ( 20, the rotating drum 30 rotates clockwise, and at this time, the new insulating member 40 mounted on the rotating drum 30 also rotates, and the distribution line seated on the line support piece 61 ( As it is coupled to L), the distribution line (L) is detained.
To explain this in more detail, when the rotating drum 30 on which the new insulating member 40 is installed on the circumferential surface is rotated by the drive motor 20, the upper single rod of the new insulating member 40 (not specifically shown) As it is inserted between the lower guide pieces (not specifically shown) of the line support piece 61, the gap is gradually spaced apart, and at this time, the distribution line (L) seated on the line support piece 61 is rotated about the axis. It is naturally inserted and detained by its own weight and the force of pushing into the fixing part 41, maintaining the state shown in Figure 4a.
As shown in FIGS. 5 and 6, the apartment electric insulator fixing device according to the present invention further includes a separation prevention portion 100 that prevents the axial support member 50 from being separated from the cover 12. The separation prevention unit 100 prevents the rotational drum 30 from being separated from the cover 12 by the external force or vibration caused by the driving motor 20. ) to ensure smooth rotation due to the driving of the drive motor 20 along with a stable fixation state.
The separation prevention unit 100 is disposed on one side of the cover 12 and is coupled to the outside of the shaft support member 50. The fixing cap 110 is disposed on the upper and lower sides of the fixing cap 110. A pair of fixing bars 120 extending outward from one side, a fixing plate 130 coupled to the fixing bar 120, and the fixing cap 110 are pressed from the fixing plate 130 so that the fixing cap 110 is axially supported. It includes pressurizing means 140 to bring it into close contact with the member 150.
The fixing cap 110 is coupled to the head 51 of the axial support member 50 while the other side opposite to the axial support member 50 is open. The fixing cap 110 is made of silicone or rubber material and can be fitted to the outside of the head 51. The separation prevention unit 100 may further include a reinforcement plate 150 provided on the other side of the fixing cap 110.
The reinforcement plate 150 may have one side open and be fixedly coupled to the other side of the fixing cap 110. The reinforcement plate 150 allows the pressure from the pressurizing means 140 to be smoothly transmitted to the fixing cap 110, while preventing deformation of the fixing cap 110 due to the pressurization of the pressurizing means 140. .
The fixing bar 120 has both ends extending in the longitudinal direction of the complete iron 10, and one end is fixed to the upper and lower parts of the other side of the cover 12 and is disposed at the upper and lower parts of the head portion 51. The fixing plate 130 has both ends extending in the vertical direction, and is coupled to the other side of the fixing bar 120 while forming a pair of through holes 131 penetrating both sides.
The separation prevention unit 100 further includes a fixing member 160 that prevents the fixing plate 130 from being separated from the fixing bar 120. The fixing bar 120 has threads formed on the other outer peripheral surface, and the fixing member 160 has threads formed on the inner peripheral surface and can be screwed to the other side of the fixing bar 120.
The pressing means 140 is a pressure bar 141 whose one end is fixed to the reinforcement plate 150 and the other end passes through the fixing plate 130, and the pressure bar 141 is positioned between the reinforcement plate 150 and the fixing plate 130. It includes a pressure spring 142 coupled to the outside of.
The pressing spring 142 is located between the reinforcing plate 150 and the fixing plate 130 so that the fixing plate 130 is in contact with the fixing member 160, and pressurizes the reinforcing plate 150 so that the fixing cap 110 is positioned at the head. (51) That is, it is in close contact with the axial support member (50).
The pressure spring 142 contracts and relaxes due to vibration generated as the drive motor 20 is driven, thereby cushioning the shock transmitted to the shaft support member 50. The fixing member 160 moves in the direction of the shaft support member 50 according to the tightening rotation, causing the pressure spring 142 to contract, and moves in the direction opposite to the shaft support member 50 according to the loosening rotation, causing the pressure spring ( 142) can be released.
Accordingly, the pressure spring 142 can not only properly adjust the degree of pressure of the fixing cap 110 to the shaft support member 50, but can also effectively cushion the shock caused by external force. Due to this, the separation prevention unit 100 prevents the shaft support member 50, which axially supports the rotating drum 30, from being separated from the cover 12 due to external force or vibration caused by the driving of the drive motor 20, thereby rotating it. It is possible to ensure smooth rotation by driving the drive motor 20 along with a stable fixation to the drum 30.
Based on the above and referring to FIGS. 7 to 13, the insulating insulator system of a distribution line equipped with a transformer has an installation groove (11-1) with one end open, and a body portion installed to cross the electric pole (P). (11), a complete iron (10) consisting of a cover (12) having an opening (12-1) on one side and fixedly installed on the body portion (11); It includes a drive motor 20 installed in the installation groove 11-1.
In addition, a rotating drum 30 disposed in the opening 12-1; An insulating member (40) having a fixing part (41) at one end and the other end being installed and fixed to the circumferential surface of the rotating drum (30); An axial support member 50 fastened to the cover 12 to axially support the rotating drum 30; and an insulator fixture consisting of a switch unit 70 that controls the operation of the drive motor 20.
Here, the handling process including installation and transportation of the insulator fixture and monitoring of specific areas of the site are performed by monitoring equipment installed on site.
The method of constructing an insulator system for a distribution line equipped with a transformer includes the step of constructing the insulator system on site. The insulator system includes an insulator fixture installed at the site.
Referring to FIGS. 7 to 10, in the safety management method of the insulating insulator system of a distribution line equipped with a transformer, a body having an installation groove (11-1) with one end open and installed to cross the electric pole (P) A complete iron (10) consisting of a cover (12) having a portion (11) and an opening (12-1) on one side and being fixed to the body portion (11); A drive motor (20) installed in the installation groove (11-1); A rotating drum 30 disposed in the opening 12-1; An insulating member (40) having a fixing part (41) at one end and the other end being installed and fixed to the circumferential surface of the rotating drum (30); An axial support member 50 fastened to the cover 12 to axially support the rotating drum 30; and an insulator fixture consisting of a switch unit 70 that controls the operation of the drive motor 20; It includes a status check module provided for real-time monitoring of the target including the insulator fixing device.
The status check module 100' includes a 1-1 imaging body 111a' and a 1-1 mounting unit 111b mounted on a power supply source to supply power to the 1-1 imaging body 111a'. It includes a 1-1 part (111') including ').
In addition, the status check module includes a 1-2 imaging body 112a' and a 1-2 mounting unit 112b' mounted on a power supply source to supply power to the 1-2 imaging body 112a'. It includes 1-2 parts 112' including.
1-3 including a 1-3 imaging body (113a') and a 1-3 mounting part (113b') mounted on a power supply source to supply power to the 1-3 imaging body (113a') It includes first parts 110' including parts 113'.
In addition, the status check module 100' includes a body portion 121', a power supply portion 122' located on the body portion 121' and on which the mounting unit is mounted as a power supply source, and the body portion ( It includes a second part 120' located on 121') and including a driving force providing part 125' that provides driving force.
When the first part 110' is installed, the status check module 100' sets up the operation for monitoring the target by mounting the first part 110' with the second part 120'. It includes a third part 130' that allows the device to be supported.
Here, the first part 110' includes a 1-1 part 111' having a first specification of a heat resistance condition corresponding to a fire in order to determine the state of the target under adverse conditions including the occurrence of a fire. , 1-2 parts 112' of a second specification higher than the first specification, and 1-3 parts 113' higher than the second specification.
The 1-1 to 1-3 specifications include at least heat resistance conditions corresponding to fire. Additionally, the third part 130' allows the mounted first part 110' to be inserted into the power supply source of the second part 120'.
That is, the first parts include a 1-1 part for determining the state of the target under adverse conditions including the occurrence of a fire, a 1-2 part with higher performance than the 1-1 part, and the first part. It includes parts 1-3 with higher performance than parts 1-2, and the parts 1-1 to 1-3 include heat resistance conditions corresponding to fire.
Here, the third part 130' is connected to the driving force provider 125' of the second part 120' and is provided with a moving panel that moves forward and backward, and an upper part of the moving panel, It includes a mounting panel 132' on which the first part 110' selected from the 1-1 part 111' to the 1-3 part 113' is mounted. The movable panel is inserted into the third part 130' by the first part 110'.
In addition, the power supply unit 122' includes a 1-1 power transformer 122a' corresponding to the 1-1 part 111', and a 1-1 power supply transformer 122a' corresponding to the 1-2 part 112'. It includes a 1-2 power unit 122b' and a 1-3 power unit 122c' corresponding to the 1-3 part 113', wherein the 3rd part 130' is the 1-3 part 113'. 1 A pair of 1-1 charging panels 124a' installed across the power supply unit 122a', and a pair of 1-2 charging panels 124a' installed across the 1-2 power supply unit 122b'. Includes a charging panel 124b'.
The 1-1 part 111' is in electrical contact with the 1-1 power supply unit 122a' via the 1-1 charging panel 124a', and the 1-2 part ( 112') is electrically connected to the 1-2 power supply unit 122b' via the 1-2 charging panel 124b'.
In addition, the second part 120' includes a movable panel provided between the body 121' and the power supply 122', and the movable panel is the 1-1 part 111'. ) to the 1-3 parts 113', when the 1-1 power connection part 122a' to the 1-3 power connection part 122c' is pressed according to the contact, the body part 121' ), the shape is deformed, and the 1-1 part (111') to the 1-3 part (113'), and the 1-1 power unit (122a') to the 1-3 Physical collision force and damage between the power connection parts 122c' are prevented.
In addition, when the first movable panel 131' moves forward so that the first part 110' is mounted on the second part 120' and then moves backward, the movable panel 132' moves forward. (131') is rotated upside down and operated to be in a downward vertical state so that the photography surveillance area of the first part (110') is not obscured, and the photography surveillance area is that of the first part (110'). It includes a first direction D1' in the longitudinal direction and a second direction D2' in the front direction perpendicular to the first direction D1', and through the vertical state, the first direction D1' ) so that filming is not interrupted.
In addition, the long panel 132' is coupled and fixed on the base body 141' by pressing it in contact with the adhesive panel layer based on the movement of the movable panel 131', which is in an up-and-down state, toward the driving force provider 125'. do.
In addition, the 1-1 charging panel 124a' is a device that fixes the 1-1 mounting part 111b' with the 1-1 mounting part 111b' in between when the 1-1 mounting part 111b' is inserted. 1-1 Protrude and secure each of the fixing panels (124a1').
When the 1-2 mounting part 112b' is inserted, the 1-2 charging panel 124b' is a first panel that fixes the 1-2 mounting part 112b' with the 1-2 mounting part 112b' in between. -2 The fixing panels (124b1') are respectively protruded and fixed, and the 1-1 charging panel (124a') and the 1-2 charging panel (124b') are inserted into the 1-3 mounting portion (113b'). With the 1-3 mounting part 113b' in between, the 1-3 fixing panels 124c1' that secure the 1-3 mounting part 113b' are respectively protruded and fixed.
This status check module (100') is based on quickly responding to external intrusion situations from outside rather than indoors where the blanket production equipment is located, and quickly seeks to prevent the spread of damage due to fire situations, etc. and reduce damage costs. It is to be done.
As a means to identify the room and its condition in this process, it is possible to enable quick and easy setup and installation through a preset method and specialized structure. In other words, the method of fixing the installation of the monitoring means itself is carried out continuously and sequentially, so that the monitoring means that minimizes manual work are provided together.
In addition, during the gradual transformation of the monitoring means itself, the original function of the monitoring function itself is prevented from being impaired, and a monitoring means is provided along with the installation to provide a strong fixing force on the preset structure. These condition check modules can be installed directly or through a medium in various locations, such as indoors and outdoors, on walls, floors, and ceilings.
The driving method of the physical components described above involves forward and backward flow and rotational movement based on motors, actuators, etc., and the shape and size of each component can be selected and provided in various ways depending on the installation site and materials to be implemented. . The present invention has been described with reference to the embodiments shown in the drawings, but these are merely exemplary, and those skilled in the art will understand that various modifications and equivalent other embodiments are possible therefrom. Therefore, the true scope of technical protection of the present invention should be determined by the technical spirit of the appended claims.

10: complete iron 20: drive motor
30: Rotating drum 40: Insulating member
50: shaft fixing member 60: track support member
70: switch part 100: separation prevention part
110: fixed cap 120: fixed bar

Claims (3)

A complete steel body having an installation groove open at one end and installed to intersect the electric pole, and a cover having an opening on one side and fixedly installed on the body; A drive motor installed in the installation groove; a rotating drum disposed in the opening; An insulating member having a fixing part at one end and the other end being installed and fixed to the circumferential surface of the rotating drum; An axial support member fastened to the cover to axially support the rotating drum; and an insulator fixture consisting of a switch unit that controls the operation of the drive motor; In the safety management method of the insulating insulator system of a distribution line equipped with a transformer including a status check module provided for real-time monitoring of the target including the insulator fixing device,
The status check module is,
A 1-1 imaging body, a 1-1 part including a 1-1 mounting unit mounted on a power supply source to supply power to the 1-1 imaging body, a 1-2 imaging body, and 1-2 parts including a 1-2 mounting unit mounted on a power supply source to supply power to the 1-2 imaging body, a 1-3 imaging body, and power supply to the 1-3 imaging body. a first part including first parts including a first-third mounting portion mounted on a power supply source, a body portion, and a power supply portion located on the body portion and on which the mounting portion is mounted as a power supply source. and second parts including a driving force provider located on the body and providing driving force, and when the first parts are mounted, the first parts are mounted with the second parts to establish an operation setup for monitoring the target. Includes a third part that allows
The first part is,
In order to determine the state of the target under adverse conditions including the occurrence of a fire, a 1-1 part having heat resistance corresponding to fire, a 1-2 part having a higher heat resistance than the 1-1 part, and the first part -Includes 1-3 parts with higher heat resistance than the 2 parts,
The 1-1 parts to the 1-3 parts include heat resistance conditions corresponding to fire,
The third part allows the installed first part to be inserted into the power supply source of the second part,
The third part is,
A moving panel connected to the driving force provider of the second part to move forward and backward, and the first part provided on the upper part of the moving panel and selected from the 1-1 to 1-3 parts. Includes a mounting panel on which
The movable panel is inserted into the third part by the first part,
The power supply unit includes a 1-1 power supply unit corresponding to the 1-1 part, a 1-2 power supply unit corresponding to the 1-2 part, and a 1-3 power supply unit corresponding to the 1-3 part. Including the power supply,
The third part 130' includes a pair of 1-1 charging panels 124a' installed with the 1-1 power supply unit 122a' in between, and the 1-2 power supply unit 122b'. ) includes a pair of 1-2 charging panels (124b') installed with
The 1-1 part 111' is in electrical contact with the 1-1 power supply unit 122a' via the 1-1 charging panel 124a', and the 1-2 part ( 112') is in contact with the 1-2 charging panel 124b' to be electrically connected to the 1-2 power supply unit 122b',
The second part 120' includes a floating panel provided between the body 121' and the power supply 122',
The movable panel is connected to the 1-1 power supply unit 122a' to the 1-3 power supply unit 122c according to the contact of the 1-1 part 111' to the 1-3 part 113'. ') is pressed backwards toward the body portion 121', the shape is deformed, and the 1-1 part 111' to the 1-3 part 113', and the To prevent physical collision force and damage between the 1-1 power unit (122a') to the 1-3 power unit (122c'),
When the mounting panel 132' moves forward so that the first part 110' is mounted on the second part 120' and then moves backward, the movable panel 131'') is rotated upside down and operated to be in a vertical downward state, so that the shooting surveillance area of the first part 110' is not obscured,
The photographic surveillance area includes a first direction D1', which is the longitudinal direction of the first part 110', and a second direction D2', which is a front direction perpendicular to the first direction D1'. , A safety management method for an insulating insulator system of a distribution line equipped with a transformer that prevents the shooting in the first direction (D1') from being interrupted through the vertical state. delete delete