KR102485664B1 - Pole Leveling Equipment - Google Patents

Abstract

The present invention relates to a utility pole leveling facility of an overhead power distribution line connected to and installed at a transformer. According to one aspect of the present invention, the utility pole leveling facility of the overhead power distribution line connected to and installed at the transformer comprises a leveling and monitoring apparatus disposed along the outer circumferential surface of a utility pole. Provided is the utility pole leveling facility of the overhead power distribution line connected to and installed at the transformer, which prevents the utility pole from falling or being damaged only when necessary maintenance is performed.

Description

Utility pole leveling equipment for overhead distribution lines connected to transformers {Pole Leveling Equipment}

The present invention relates to a utility pole leveling facility for an overhead power distribution line connected to a transformer in the field of distribution technology, and more particularly, detects the inclination of a telephone pole in real time to maintain a level of the telephone pole and secures the stability of installation and operation of the telephone pole. It relates to a utility pole leveling facility of an overhead distribution line connected to a transformer that can be installed.

A transformer with a large load is installed on the utility pole (electric pole) to which the distribution line is connected, or it may tilt due to the weight of the connected distribution line, its own weight (self-weight), and the surrounding environment and natural environment. there is.

There is a demand for the development of a technology that prevents loss of rejuvenation and human casualties caused by falling or breaking a telephone pole only when the tilting of the telephone pole (electric pole) is detected in real time and necessary maintenance is carried out quickly.

In addition, by reinforcing the telephone pole (electric pole), there is no preparation for the changing load pressure during use, so the inclination of the telephone pole cannot be detected and the technology development to solve the problem that the telephone pole cannot be maintained horizontally is required.

There is a problem in that it is not easy to perform real-time monitoring and hygiene management in a complex way in handling the leveling equipment of the electric pole (electric pole).

The problem to be solved by the present invention is to detect the inclination of the telephone pole connected to the transformer in real time and perform the necessary maintenance to prevent the telephone pole from falling or being damaged. will be.

In addition, it reinforces the telephone pole connected to the transformer, and processing installed connected to the transformer solves the problem of not being able to detect the inclination of the telephone pole and maintaining the level of the telephone pole because there is no preparation for the changing load pressure during use. It is to provide a utility pole leveling facility for distribution lines.

In addition, it is to provide a pole leveling facility of an overhead power distribution line connected to a transformer so that real-time monitoring and hygiene management are performed in a complex way in handling such a telegraph water leveling facility.

In addition, in these facilities, it is to provide a utility pole leveling facility of an overhead power distribution line installed connected to a transformer to perform target monitoring and sterilization treatment for the target in the initial installation and maintenance.

In addition, in providing such facilities, a plurality of means for photographing the target and disinfection of the target are provided at various locations to provide a leveling facility for overhead power distribution lines installed connected to a transformer to perform the function.

In addition, the means for monitoring include modularized photographing components, which are easy to install and remove, and easily change positions, so that the level of quarantine is strengthened or the level of object monitoring is increased to increase the number and installed or vice versa. It is to provide a utility pole leveling facility of an overhead power distribution line installed in connection with a transformer that reduces the quantity to reduce the level.

In addition, it is to provide a utility pole leveling facility of an overhead power distribution line connected to a transformer so that these means are packaged and located at the right place in various locations so that wide-area installation and maintenance can be performed.

In addition, the stable installation and fixation of the package itself and the interlocking fixing force of each component are given so that stable installation, management, maintenance, movement, etc. are possible.

According to one aspect of the present invention, as a pole leveling facility of an overhead power distribution line installed connected to a transformer, the pole leveling facility of an overhead power distribution line connected to the transformer includes a leveling and monitoring device disposed along the outer circumference of the pole, The leveling and monitoring device is transported to the installation site by means of transport, and is installed at the installation site by the unloading means. An outer wall 12 connected to the inner wall 11 and disposed at a distance from the inner wall 11, and a fixed flange 13 extending outward from the lower end of the outer wall 12 and having a bottom surface disposed on the ground A housing 10 including a; and a coupling flange 21 disposed on the upper surface of the fixed flange 13, but the complex unit 1' is installed at the installation site to handle the leveling and monitoring device. Object monitoring based on the photographing is performed on the object including the situation, the situation of the installation site, the transfer means, and the worker at the installation site, but the composite unit 1' has a first outer support on one side of the outer periphery ( 110 ') and the second outer support 120 'on the other side, and are connected to the first outer support 110' and the first connector 11', and the second outer support 120' and the second connector The upper plate panel portion 130' connected by (12'), the first outer support 110' and the third connector 13' are connected, and the second outer support 120' and the fourth connector ( 14') connected to the lower panel portion 140', the first vertical support 150'' vertically installed between the upper panel portion and the lower panel portion 140'), and the upper panel portion and a second vertical support 160' installed vertically between the lower panel portion 140' and installed between the first vertical support 150'' and the second vertical support 160'. The first composite structure performing fluid injection and the second composite structure performing imaging are installed between the first outer support 110', the first vertical support 150', and the second vertical support 160'. structure, and the 2 includes a third composite structure installed between the outer support 120' and the second vertical support 160' to perform fluid injection.

According to the present invention as described above, there is one or more of the following effects.

According to the present invention, it is possible to prevent a utility pole from falling or being damaged only when necessary maintenance is performed by detecting an inclination of the utility pole in real time.

In addition, by reinforcing the telephone pole, it is possible to solve the problem of not being able to detect the inclination of the telephone pole and maintaining the level of the telephone pole because there is no preparation for the changing load pressure during use.

In addition, real-time monitoring and sanitation management can be performed in a complex way in handling such whole body water leveling equipment.

In addition, in these facilities, it is possible to perform target monitoring and sterilization treatment for the target in the initial installation and maintenance.

In addition, in providing such a facility, a plurality of means for photographing an object and disinfecting the object may be provided in a plurality of various positions to perform the function.

In addition, the means for monitoring include modularized photographing components, which are easy to install and remove, and easily change positions, so that the level of quarantine is strengthened or the level of object monitoring is increased to increase the number and installed or vice versa. It is possible to reduce the level by reducing the quantity.

In addition, these means can be packaged so that they can be located in the right place in various locations so that wide-area installation and maintenance can be performed.

In addition, stable installation and fixation of the package itself and interlocking fixing force of each component are provided so that stable installation, management, maintenance, and movement are possible.

1 is an exemplary view showing a state in which a leveling and monitoring device according to the present invention is installed on a telephone pole.
Figure 2 is an exploded view illustrating a leveling and monitoring device according to the present invention.
Figure 3 is an exemplary view showing an elastic support module and a tilt sensor according to the present invention.
4 is an exemplary view showing a housing according to the present invention;
Figure 5 is an exemplary view showing an elastic regulator according to the present invention.
6 is an exemplary diagram showing an operating state of a tilt sensor according to the present invention;
7 to 12 are diagrams schematically illustrating additional configurations according to FIG. 1 .

Hereinafter, other objects and features of the present invention in addition to the above objects will be clearly revealed through the description of the embodiments with reference to the accompanying drawings. Unless defined otherwise, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which the present invention belongs. Terms such as those defined in commonly used dictionaries should be interpreted as having a meaning consistent with the meaning in the context of the related art, and unless explicitly defined in the present application, they should not be interpreted in an ideal or excessively formal meaning. don't
Hereinafter, preferred embodiments of the leveling and monitoring device according to the present invention will be described with reference to the accompanying drawings. First, the leveling and monitoring device 1 according to the present invention includes a housing 10, an assembly 20, an elastic support module 30, and a tilt sensor 40. The housing 10 is disposed so as to surround the outer circumferential surface of the telephone pole. After forming a gap between the telephone pole and exposing the elastic regulator 32 to be described later in the formed gap, its end is disposed so as to come into contact with the outer circumferential surface of the telephone pole.
The housing 10 includes an inner wall 11 disposed on the outer circumferential side of the telephone pole 100, an outer wall 12 disposed at a position spaced apart from the inner wall 11 by a predetermined distance, and a lower end of the outer wall 12. It includes a fixed flange 13 extending outward from.
In addition, the inner wall 11 and the outer wall 12 are formed to extend vertically in the vertical direction, respectively, and the length of either the inner wall 11 or the outer wall 12 can be formed relatively longer if necessary. That is, as an example, the length of the inner wall 11 is formed to extend upward, but the diameter becomes narrower toward the upper end so that the upper end is directly in contact with the outer circumferential surface of the telephone pole to protect the telephone pole and at the same time to the outer circumferential surface of the telephone pole. A 'jeonju license plate' that confirms the location may be attached.
The fixing flange 13 is formed to extend outward from the lower end of the outer wall 12, the bottom surface is disposed so as to contact the ground, and a plurality of long holes 131 for coupling are formed symmetrically with each other. Here, the length, shape, and thickness of the fixing flange 13 can be variously changed, which can be changed according to the conditions of the place where the telephone pole is installed.
The long hole 131 for coupling is inserted with a coupling bolt 24 for integrally coupling the assembly 20 and the housing 10, which will be described later, and is configured in the form of a long hole with a length extended to improve coupling convenience. .
On the other hand, the inner wall 11 and the outer wall 12 are formed with an insertion hole 111 into which an elastic regulator 32 to be described later is inserted, and a cable insertion hole 112 into which a cable 43 is inserted. The coupling body 20 is disposed between a pair of adjacent housings 10 to fix their position, and for this purpose, a coupling flange 21 disposed on the upper surface of the fixing flange 13, and the coupling flange A first upright wall 22 extending upward from the upper surface of the telephone pole and inserted between the outer circumferential surface and the inner wall 11 of the telephone pole, and formed at a position spaced a predetermined distance from the first upright wall 22 , A second upright wall 23 inserted between the inner wall 11 and the outer wall 12 and a coupling bolt 24 for integrally coupling the coupling flange 21 and the fixing flange 13.
The coupling flange 21 is made in the form of a flat plate and is disposed on the upper surface of the fixing flange 13, and a through hole 211 is formed at a position coincident with the long hole 131 for coupling vertically, so that the coupling bolt ( 24) integrally couples the assembly 20 and the housing 10 through this. The first upright wall 22 extends upward from the upper surface of the coupling flange 21, and may be made of various materials such as metal and synthetic resin. It can be made in various forms, such as a wedge shape narrowing to the tip or a continuous wavy shape at the tip.
The first upright wall 22 can be changed in various forms within the range of not interfering with the location of the elastic controller 32 of the elastic support module 30 described later, and the material is also the above-mentioned metal material or synthetic resin. In addition to materials, it may be made of a material having elastic restoring power, such as rubber, urethane, or silicone. When made of a material having elastic restoring power, a bracket or guide may be further provided to secure their uprightness.
The second upright wall 23 extends upward from the upper surface of the coupling flange 21 and is formed at a position spaced apart from the first upright wall 22 by a predetermined distance so as to be connected to the inner wall 11 of the housing 10. It is placed between the outer walls 12 . The second upright wall 23 may be composed of various shapes and materials in the same manner as the first upright wall 22 described above.
The first upright wall 22 and the second upright wall 23 formed as described above are disposed between the telephone pole and the inner wall and between the inner wall and the outer wall and are used as a filler filling the space formed between them, and are generated from the telephone pole. It can be expected to have the effect of protecting the utility pole by absorbing shock or external shock and vibration.
The elastic support module 30 is disposed on the housing 10 and includes an elastic adjusting body 32 arranged to come into contact with the outer circumferential surface of the telephone pole, and a cover rotatably disposed on the outer wall of the housing 10 ( 31) and a plurality of elastic adjusting bodies 32 disposed inside the cover 31.
The cover 31 is formed in a box shape with one side opened and one end is rotatably coupled to the outer wall 12 of the housing 10 through a hinge 311 . In addition, although not shown, a separate locking device may be further provided in the cover 31 so that only a manager can open or close the cover 31 .
The elastic adjusting body 32 is disposed at a mutually spaced position and has an elastic adjusting portion 322 having an adjusting hole 321 therethrough, respectively, and an elastic portion 323 arranged so that an end portion comes into contact with the outer circumferential surface of the electric pole. And, it includes an elastic adjusting bolt 324 and a nut 325 for adjusting the spacing of the elastic adjusting part 322.
As shown, the elastic regulator 32 is formed in a ring shape with one side opened, and both ends of one side of the open side are each extended in the longitudinal direction. Both ends extending in the longitudinal direction are disposed at positions spaced apart from each other and are composed of elastic adjusting parts 322 in which control holes 321 are formed. ) Adjust the spacing between the pair of elastic adjusting parts 322 by tightening or releasing the elastic adjusting bolt 324 after each arrangement.
Here, the elastic adjusting part 322 is arranged so that the front end of the elastic part 323 comes into contact with the outer circumferential surface of the telegraph pole, and adjusts the elastic force of the elastic part 323 by tightening or releasing the elastic adjusting bolt 324 in the contact state. .
The controlled elastic force buffers vibrations, shocks, etc. transmitted from the telephone pole, and at the same time presses the outer circumferential surface of the telephone pole to prevent the telephone pole from tilting so that the telephone pole can be maintained in a horizontal state.
The elastic controller 32 is for minimizing malfunction of the tilt sensor 40 that detects the tilt of the telephone pole due to shock, vibration, etc. transmitted from the telephone pole. Shock, vibration, etc. transmitted in the state are buffered so that the tilt sensor 40 to be described later does not malfunction.
The tilt sensor 40 is disposed on the housing 10 to sense the tilt of the telephone pole, and includes a detection switch 41 disposed on the inner wall 11 of the housing 10 and the cover 31 It includes a control unit 42 disposed inside and a cable 43 connecting the detection switch 41 and the control unit 42.
The detection switch 41 is arranged so that the outer circumferential surface presses the switch when the telephone pole is tilted, and a plurality of them may be disposed at positions spaced apart from each other in addition to the positions shown in the drawings.
As shown in FIG. 6 , the detection switch 41 generates a signal by pressing the detection switch 41 when the utility pole is tilted, and the generated signal is transmitted to the control unit 42 . This can be confirmed in real time when the telephone pole tilts, and when vibration or shock occurs in the normal upright state of the telephone pole, it is buffered through the elastic support module 30 to prevent malfunction of the tilt sensor 40. It has the advantage of improving the reliability of detection by preventing it.
The controller 42 is configured to receive a tilt signal from the telephone pole from the detection switch 41 and transmit it to a manager terminal or central server connected through a communication means such as a wired or wireless communication means. Here, as an example of the wireless communication means of the control unit 42, a Zigbee communication means may be provided, and the Zigbee communication means is one of the wireless communication means and can implement a wireless mesh network, It is a low-power wireless communication means with low power consumption while ensuring communication range and high stability.
In addition, the control unit 42 is configured to transmit a tilt generation signal of the corresponding telephone pole to a repeater through a wireless communication means, so that the signal transmitted through the repeater transmits a telephone pole tilt signal to a central server or manager terminal, where The repeater may use a communication module provided in each telephone pole.
The cable 43 connects the detection switch 41 and the control unit 42, and both ends are connected to the detection switch 41 and the control unit 42, respectively, and to the inner wall 11 and the outer wall 12, respectively. It is inserted through the formed cable insertion hole 112.
Referring to FIGS. 7 to 12 based on the foregoing, as a facility for leveling a utility pole of an overhead power distribution line installed connected to a transformer, a leveling facility for maintaining the pole of an overhead power distribution line connected to the transformer is installed along the outer circumference of the pole. Including a maintenance and monitoring device, the leveling and monitoring device is transported to the installation site by means of transport and installed at the installation site by unloading means.
The leveling and monitoring device includes an inner wall 11 disposed on the outer circumferential side of the telephone pole, a lower end connected to the inner wall 11, and an outer wall 12 disposed at a position spaced apart from the inner wall 11, A housing 10 including a fixing flange 13 extending outward from the lower end of the outer wall 12 and having a lower surface disposed on the ground; and a coupling flange 21 disposed on the upper surface of the fixing flange 13. do.
At the installation site, a complex unit 1' is installed to monitor the handling status of the leveling and monitoring device, the status of the installation site, the transport means, and the object including the operator at the installation site based on photographing. Do it.
The composite unit 1' includes a first outer support 110' on one side and a second outer support 120' on the other side. , The upper panel portion 130 'connected to the first outer supporter 110' and the first connector 11' and connected to the second outer supporter 120' and the second connector 12', The lower panel portion 140' connected to the first outer supporter 110' and the third connector 13' and connected to the second outer supporter 120' and the fourth connector 14'; A first vertical support 150' vertically installed between the upper panel and the lower panel 140', and a second vertical support 150' vertically installed between the upper and lower panel 140'. The support 160', the first composite structure installed between the first vertical support 150' and the second vertical support 160' to perform fluid injection, and the first outer support 110' And a second composite structure installed between the first vertical support 150 'to perform shooting, and installed between the second outer support 120' and the second vertical support 160' to perform fluid injection It includes a third composite structure that performs.
Here, the first composite structure is disposed in the vertical direction between the first vertical support 150' and the second vertical support 160' and is interlocked and fixed to each other, and the second composite structure is the first outer support 110 ') and the first vertical support 150' are disposed in the vertical direction and interlocked and fixed, and the third composite structure is between the second outer support 120' and the second vertical support 160'. It is arranged in the vertical direction and interlocked and fixed.
The first outer supporter 110' and the second outer supporter 120' are close to the top panel part 130' via the first connector 11' and the second connector 12'. A first flow including a 1-1 flow that moves and a 1-2 flow that approaches the lower panel part 140' via the third connector 13' and the fourth connector 14' And, the 2-1 flow spaced apart from the upper panel portion 130' through the first connector 11' and the second connector 12', and the third connector 13' and the The second flow including the 2-2 flow spaced apart from the lower panel portion 140' through the fourth connector 14' can be performed.
In addition, in the second composite structure, a first mounting fixation is performed between the first outer support body 110' and the first vertical support body 150', and the first mounting fixation performs the 1-1 flow. The mounting force is reinforced based on the foundation, and in the third composite structure, a second mounting fixation is performed between the second outer support 120' and the second vertical support 160', the second mounting fixation Mounting force is reinforced based on the 1st-2nd flows.
The first composite structure includes a first body 312' for spraying a disinfectant solution through a nozzle 311', a first rotating fluid 314' provided on the upper part of the first body 312', The first driving body 316' provided under the first body 312' and driving the first protruding and retracting body 315', and moving forward and backward on both sides of the first body 312', respectively, the first vertical The 1-1 composite structure 310' including the first side connector 313' inserted into the support 150' and the second vertical support 160', and the recording body 411' A second body 412' positioned below the first body 312' and a second rotating fluid 414' provided above the second body 412', The second driving body 416' provided under the second body 412' and driving the second protruding and retracting body 415', and advancing and retreating to both sides of the second body 412', respectively, the first The 1st-2nd composite structure 410' including the second side connector 413' inserted into the vertical supporter 150' and the second vertical supporter 160', and the nozzle 511' Disinfecting solution is sprayed through the third body 512' positioned below the second body 412', and the 3-1 rotary fluid 514' provided above the third body 512' , the 3-2 rotational fluid 515' provided under the third body 512', and the third body 512', which advances and retreats to both sides of the first vertical support 150' and the It includes the 1st-3rd composite structure 510' including the third side connector 513' inserted into the second vertical support 160'.
On the other hand, the top panel portion 130' includes a rectangular first insert 131' that protrudes downward and is inserted into the first rotating fluid 314', and the first rotating fluid 314' When the first insert 131' is inserted, the inserted first insert 131' is fixed by rotating in a horizontal direction with a certain force.
The lower panel part 140' includes a square second insert 141' protruding upward and inserted into the 3-2 rotating fluid 515', and the 3-2 rotating fluid 515 ') fixes the inserted second insert 141' by performing horizontal rotation with a certain force when the second insert 141' is inserted.
The first driving body 316' drives the first protruding and retracting body 315' having a square cross section to be inserted into the second rotating fluid 414', and the second driving body 416' is The square second protruding and retracting body 415' is driven to be inserted into the 3-1 rotating fluid 514'.
The second rotating fluid 414' fixes the inserted first protruding and retracting body 315' by performing horizontal rotation with a certain force when the first protruding and retracting body 315' is inserted, and the third - The second rotating fluid 515' performs horizontal rotation with a certain force when the second appearance and depression body 415' is inserted to fix the inserted second appearance and depression body 415', and the 1-1 complex 310' to the 1-3 complex 510' include the first vertical support 150', the second vertical support 160', the upper panel, and the lower panel 140'. are interlocked between them.
Here, the lower end of the first outer support 110' is provided with a first rotary insert 111' that is circumferentially driven in a tapered shape, and the lower end of the second outer support 120' has a taper A second rotary insert 121' driven in a circumferential direction rotation is provided, and the composite unit 1' includes the first rotary bed and the second rotary insert 121' The first fixing structure 112' is fixed to the ground of the site in an insertion manner, and the first outer support 110' is provided with a first separation space S1' from the first rotary insert 111'. ) 112' is provided.
The second outer support 120' is provided with a second fixing structure 122' provided with a second separation space S2' from the second rotary insert 121', and the composite unit 1 '), the first gripping body 712' entering the first separation space (S1') and gripping the first outer enclosure, and the second separation space (S2') entering the second separation space (S2'). It includes a second gripping body 713' that grips the outer entry body and an interlocking bridge 711' that interlocks the first gripping body 712' to the second gripping body 713'.
The interlocking bridge 711 'applies a rotational force in the horizontal direction to the first gripping body 712' in a state where the first outer supporter 110' is gripped in the first separation space S1', The second gripping body 713' in the state of holding the second outer supporter 120' in the second separation space S2' rotates horizontally in the opposite direction to the first gripping body 712'. By applying force, the first outer supporting body and the second outer supporting body interlock with each other so that the fixing force is reinforced. A whole 113' is provided, and the first vertical rotating body 113' presses and fixes the upper part of the first gripping body 712' in a state of holding the first outer supporter 110'.
In addition, the second fixing structure 122' is provided with second vertical rotating bodies 123' rotating in the vertical direction on both sides, so that the second vertical rotating body 123' is the second outer support 120'. ) is pressed and fixed to the upper part of the second gripping body 713' in a gripped state.
The first vertical rotating body 113' has a first left and right rotating body 1131' rotating in the left and right direction at the lower end, and the first left and right rotating body 1131' is provided with the first gripping body 712 '), and applies a interlocking fixing force to the inside of the first gripping body 712' through left and right rotation.
The second vertical rotating body 123' is provided with a second left and right rotating body 1231' rotating in the left and right direction at the lower end, and the second left and right rotating body 1231' is provided with the second gripping body 713 ') is inserted into the inside, applies a fixing force linked to the inside of the second gripping body 713' through left and right rotation, and the second complex structure of the penis sprays a disinfectant solution through a nozzle 171'. The body 172', the 1-1 side protruding and retracting body 174' provided on the upper part of the first side body 172', and the 1-2 provided on the lower part of the first side body 172' A first side connection provided on both sides of the side protrusion 175' and the first side body 172' and inserted into the first outer support 110' and the first vertical support 150', respectively. The 2-1 composite structure 170' including the sieve 313' and 173',
A second side body 182' for photographing an object through a photographing body 181', a 2-1 side appearing and retracting body 184' provided above the second side body 182', and the second side body 182'. The 2-2 side protruding and retracting bodies 185' provided under the second side body 182', and provided on both sides of the second side body 182', the first outer support 110' and the second side body 182'. It includes the 2-2 composite structure 183' including the second side connectors 413' and 183' respectively inserted into the first vertical support 150'.
The composite unit (1') is provided between the first outer support body (110') and the first vertical support body (150') and is located on the upper part of the 1-1 composite structure (310') in a sliding manner. It is provided between the first elevating panel 15' that moves up and down, the first outer support body 110' and the first vertical support body 150', and is provided under the 1-1 composite structure 310'. The second elevating panel 16', which is located in and moves up and down, is provided between the first outer support body 110' and the first vertical support body 150', and the first-second composite structure 410 ') It is provided between the third lifting panel 17' located at the top and moving up and down, and the first outer support body 110' and the first vertical support body 150', and the 1-3 complex A fourth lifting panel 18' located under the structure 510' and moving up and down is included.
Here, when the first elevating panel 15' moves toward the 1-1 side protruding and retracting body 174', the 1-1 side protruding and retracting body 174' moves into the first elevating panel 15'. When a press-in force is applied and the second lifting panel 16' moves toward the 1-2 side protruding and retracting body 175', the 1-2 side protruding and retracting body 175'(15') Entering the inside and applying a press-fitting force, and when the third lifting panel 17' moves toward the 2-1 side protruding and retracting body 184', the 2-1 side protruding and retracting body 184' enters the third lifting panel 17' and applies a press-in force, and when the fourth lifting panel 18' moves toward the 2-2 side protruding and retracting body 185', the 2-2 side The protruding and retracting body 185' enters the inside of the fourth lifting panel 18' and applies press-fitting force.
Referring to FIG. 12, when a place where the leveling and monitoring device is installed is referred to as a first position T', a structure W' surrounds the first position T'. The composite unit T' is disposed and operated at the second position 1L' and the third position 2L' on the entrance side of the structure W'. In addition, the complex unit 1' may also be located at the fourth position 3L' and the fifth position 4L' around the first position T'.
The driving method of the physical components described above is forward-backward movement and rotational movement based on motors, actuators, etc., and the shape and size of each component can be selected and provided in various ways according to the installation site and the materials to be implemented. . Although the present invention has been described with reference to the embodiments shown in the drawings, this is only exemplary, and those skilled in the art will understand that various modifications and equivalent other embodiments are possible therefrom. Therefore, the true technical scope of protection of the present invention should be determined by the technical spirit of the appended claims.

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1: Leveling and monitoring device
10: housing 11: inner wall
12: outer wall 13: fixed flange
20: assembly 21: coupling flange

Claims (2)

As a utility pole leveling facility of an overhead distribution line connected to a transformer,
The pole leveling equipment of the overhead power distribution line connected to the transformer includes a leveling and monitoring device disposed along the outer circumferential surface of the pole,
The leveling and monitoring device is transported to the installation site by means of transport and installed at the installation site by unloading means,
The leveling and monitoring device,
The inner wall 11 disposed on the outer circumferential side of the telephone pole, the lower end connected to the inner wall 11, and the outer wall 12 disposed at a position spaced apart from the inner wall 11, and the lower end of the outer wall 12 A housing 10 including a fixing flange 13 extending outward and having a bottom surface disposed on the ground; and a coupling flange 21 disposed on an upper surface of the fixing flange 13,
At the installation site, a complex unit 1' is installed to monitor the handling status of the leveling and monitoring device, the status of the installation site, the transport means, and the object including the operator at the installation site based on photographing. Do,
The composite unit (1 '),
The first outer support 110' on one side and the second outer support 120' on the other side are connected to the first outer support 110' and the first connector 11', and the second outer support (120') and the upper panel portion 130' connected by the second connector 12', and connected by the first outer support 110' and the third connector 13', and the second outer support ( 120') and the lower panel portion 140' connected by the fourth connector 14', and a first vertical support 150' vertically installed between the upper panel portion and the lower panel portion 140' and a second vertical support 160' installed vertically between the upper panel and the lower panel 140', the first vertical support 150' and the second vertical support 160' A first composite structure that is installed between and performs fluid injection
A second composite structure installed between the first outer support 110' and the first vertical support 150' to perform shooting;
A third composite structure installed between the second outer support 120 'and the second vertical support 160' to perform fluid injection,
The first composite structure is disposed in the vertical direction between the first vertical support 150 'and the second vertical support 160' and is interlocked and fixed to each other,
The second composite structure is disposed in the vertical direction between the first outer support 110 'and the first vertical support 150' and is interlocked and fixed to each other,
The third composite structure is disposed in the vertical direction between the second outer support 120 'and the second vertical support 160' and is interlocked and fixed to each other,
The first outer support 110 'and the second outer support 120',
The 1-1 flow approaching the top panel portion 130' through the first connector 11' and the second connector 12', and the third connector 13' and the fourth connector 13'. A first flow including a first-second flow adjoining the lower panel portion 140' through the connector 14';
The 2-1 flow spaced apart from the top panel part 130' via the first connector 11' and the second connector 12', and the third connector 13' and the fourth connector 13'. The second flow including the 2-2 flow spaced apart from the lower panel portion 140' through the connector 14' can be performed,
The second composite structure,
A first mounting fixation is performed between the first outer support body 110 'and the first vertical support body 150', and the first mounting fixation is reinforced with a mounting force based on the 1-1 flow,
The third composite structure,
A second mounting fixation is performed between the second outer supporter 120 'and the second vertical supporter 160', and the second mounting fixation is reinforced with a mounting force based on the 1-2 flow,
The first composite structure,
The first composite structure includes a first body 312' for spraying a disinfectant solution through a nozzle 311', a first rotating fluid 314' provided on the upper part of the first body 312', The first driving body 316' provided under the first body 312' and driving the first protruding and retracting body 315', and moving forward and backward on both sides of the first body 312', respectively, the first vertical The 1-1 complex structure 310' including the support 150' and the first side connector 313' inserted and mounted into the second vertical support 160',
A second body 412' positioned below the first body 312' and a second rotation provided above the second body 412' to perform object shooting through the photographing body 411' The fluid body 414', the second driving body 416' provided under the second body 412' and driving the second protruding and retracting body 415', and both sides of the second body 412' The 1-2 composite structure 410' including the second side connector 413' inserted and mounted into the first vertical support 150' and the second vertical support 160' respectively. ,
The third body 512', which sprays the disinfectant solution through the nozzle 511' and is located below the second body 412', and the 3-1 rotation provided above the third body 512' The fluid 514', the 3-2 rotating fluid 515' provided under the third body 512', and the first vertical support moving forward and backward on both sides of the third body 512', respectively. (150') and the 1-3 composite structure 510' including the third side connector 513' inserted and mounted into the second vertical support 160', connected to and installed in the transformer. Pole leveling equipment of the furnace.
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