CN115986655B - New forms of energy electric power monitoring devices for electric power engineering - Google Patents

Abstract

The invention relates to a new energy power monitoring device for power engineering, which comprises a telegraph pole, a power transmission line, a guide wire and a monitoring mechanism arranged on the guide wire, wherein the telegraph pole is provided with an adjusting mechanism, the adjusting mechanism comprises a locking seat, a connecting rod, a screw pipe and a nut, the screw pipe is provided with a rotating seat, the rotating seat is provided with a locking mechanism for fixing one end of the guide wire, one side of the locking mechanism is provided with the guide mechanism, and the guide mechanism is provided with a pull rope connected with the monitoring mechanism and a winch; the bottom of the guide wire is provided with a vertical rod and a counterweight ball; the monitoring mechanism comprises a mounting seat, a plurality of groups of sliding openings are formed in the mounting seat, pulley blocks are arranged on the sliding openings, J-shaped plates are arranged on two sides of the sliding openings, and a camera and a solar panel are arranged at the top of the mounting seat. The invention has the advantages of realizing the safe mobile monitoring of the power transmission line of the new energy power engineering, providing reference data for the centralized overhaul and maintenance of the power transmission line, and being not easy to cause power safety accidents in the process of monitoring the power transmission line.

Description

New forms of energy electric power monitoring devices for electric power engineering

Technical Field

The invention relates to the technical field of power monitoring equipment, in particular to a new energy power monitoring device for power engineering.

Background

In the use of high-voltage power transmission lines in power engineering, especially for power transmission lines in new energy power engineering such as wind power generation and water power generation, most of the power transmission lines are in the field natural environment and are easily damaged and broken due to the influence of the external severe environment, so that the power transmission lines need to be monitored regularly, and the power transmission lines in dangerous mountain areas and the like are more dangerous to patrol and examine by manpower, so that how to realize safety monitoring and provide necessary reference data for centralized overhaul, maintenance and the like of the new energy power engineering are very important.

The Chinese patent publication No. CN112542804B discloses a new energy power monitoring device, which has the technical key points that: the device comprises a first electric bracket rod, a second electric bracket rod, clamping assemblies and monitoring assemblies, wherein a power transmission line is arranged between the first electric bracket rod and the second electric bracket rod, the clamping assemblies are arranged on the first electric bracket rod and the second electric bracket rod, guide wires are arranged between the clamping assemblies, and the upper parts of the guide wires are provided with the monitoring assemblies; the guide wire is located transmission line upper portion and monitoring assembly is located transmission line upper portion, and the guide wire is located the height that the guide wire is located electric power bracket pole both ends and is greater than the height that the guide wire is located electric power bracket pole one end. Although this scheme has solved the monitoring problem to the power transmission line removal, its in-process of using still has following defects, like: manual regulation guide wire's slope and make monitoring mechanism slide on the guide wire of slope, lead to people to need frequent climbing to operate on the power pole, be unfavorable for its work safety, monitoring mechanism easily takes place to rock and make the guide wire rock also when moving on the guide wire simultaneously, easily lead to guide wire whereabouts and monitoring mechanism skirt and with the power transmission line contact to initiate electric safety accident.

Therefore, the invention provides a new technical scheme for solving the technical problems.

Disclosure of Invention

The invention aims to provide a new energy power monitoring device for power engineering, which can realize the safe mobile monitoring of a power transmission line of the new energy power engineering so as to provide reference data for centralized overhaul and maintenance of the power transmission line and is not easy to cause power safety accidents in the process of monitoring the power transmission line.

In order to achieve the above purpose, the invention adopts the following technical scheme:

the utility model provides a new forms of energy electric power monitoring devices for electric power engineering, includes the power transmission line of setting on two sets of telegraph poles of adjacent, wherein still is provided with the direction line between two sets of telegraph poles, and is provided with monitoring mechanism on the direction line:

the wire pole is provided with an adjusting mechanism corresponding to the guide wire, wherein the adjusting mechanism comprises an upper group of locking seats and a lower group of locking seats which are fixed on the wire pole, one side between the two groups of locking seats is provided with a screw rod, two ends of the screw rod are respectively bent to form a connecting rod connected with the corresponding locking seats, a screw pipe is connected to the screw rod in a screwed mode, a circle of groove is formed in the outer wall of the screw pipe, a rotating seat is sleeved on the screw pipe in the groove in an sleeved mode, a bump is arranged on one side of the top of the rotating seat, positioning notches are axially formed in the outer wall of the bump and the outer wall of the top of the screw pipe, a nut with a magnetic connecting layer is sleeved on the upper side of the screw rod, one side of the nut is provided with an L-shaped rod which slides into the upper group of positioning notches and the lower group of positioning notches, the top of the screw rod is also provided with a stud which can be connected with the nut in a screwed mode, one side of the rotating seat is provided with a locking mechanism which is used for fixing one end of the guide wire, a guide wire is arranged on one side of the locking mechanism, a pull rope is arranged on the guide mechanism, and a winding machine arranged below the wire is connected with the tail end of the pull rope;

the number of the guide wires is multiple, wherein the guide wires are positioned below the transmission line, vertical rods are uniformly arranged at the bottoms of the guide wires, and counterweight balls are arranged at the bottoms of the vertical rods;

the monitoring mechanism comprises a mounting seat, wherein a plurality of groups of sliding openings used for corresponding to the guide wire, the vertical rods and the counterweight balls to pass through are arranged on the mounting seat, pulley blocks used for being buckled on the top end of the guide wire are arranged above the sliding openings, correction vertical rods and J-shaped plates used for guiding the vertical rods and the counterweight balls to slide into the sliding openings are arranged on the side walls of the mounting seat on the two sides of the upper half of the sliding opening, the counterweight seats are arranged at the bottom of the mounting seat, a mounting plate is arranged at the top of the mounting seat, and a camera and a solar panel are arranged on the two sides of the mounting plate.

Preferably, the cross section of the rotating seat is rectangular, wherein the protruding block is arranged on one side of the top of the rotating seat opposite to the locking mechanism, a plurality of groups of positioning notches are axially arranged on the outer wall of the spiral tube above the groove, and one group of positioning notches on the outer wall of the spiral tube are correspondingly arranged with the positioning notch on the protruding block.

Preferably, the locking mechanism comprises a base, wherein the top end of the base is hinged with the side wall of the rotating seat, an extension plate is arranged at the bottom of the base and fixed on the rotating seat through bolts, a fixed opening is vertically arranged in the base, a limit strip with two ends fixed on the side wall corresponding to the fixed opening is arranged in the middle of the fixed opening, a communication notch communicated with the fixed opening is further arranged at the bottom of the outer side of the base, one end of the guide wire penetrates through the communication notch and extends into the corresponding fixed opening, the tail end of the guide wire in the fixed opening is bent to be U-shaped and buckled on the limit strip, and bolts for locking and fixing the guide wire are further arranged on the base.

Preferably, the guide mechanism comprises two groups of mounting lugs, two groups of guide shafts which are staggered up and down are arranged between the two groups of mounting lugs, the outer guide shaft is positioned at the lower part, one end of the pull rope is positioned at the bottom of the lower guide shaft and is bent upwards, and the pull rope after being bent upwards is bent downwards and buckled on the upper guide shaft.

Preferably, a safety box for storing the winch is arranged on the telegraph pole, and a through hole for sliding a pull rope is arranged at the top of the safety box.

Preferably, the solar panel is arranged on the mounting plate between the two groups of cameras, the counterweight seat is of a T-shaped structure, a storage battery is arranged in an opening formed between the vertical end of the counterweight seat and the mounting seat, the storage battery is respectively connected with the cameras and the solar panel, and a protective shell which has a rainproof effect on the storage battery is further arranged between the counterweight seat and the mounting seat.

Preferably, the inner diameter of the nut is larger than the diameter of the screw rod, wherein the inner diameter of the nut is matched with the diameter of the screw rod, and the screw rod are coaxially arranged.

Due to the adoption of the structure, the invention has the following beneficial effects:

according to the invention, the guide wire is arranged at a designated position below the power transmission line of the new energy power engineering, the guide wire is prevented from being sprung upwards to be contacted with the power transmission line by pulling the vertical rod and the counterweight balls, meanwhile, the counterweight seat plays a role in pulling the guide wire on the monitoring mechanism and the guide wires on the two sides, and further the guide wire is prevented from being sprung upwards to be contacted with the power transmission line, so that the power transmission line is prevented from being contacted with the power transmission line in a plurality of modes, meanwhile, the hoisting machine can be controlled to work on the ground through the controller, the monitoring mechanism is driven to move on the guide wire through the contracted or stretched pull rope, so that the guide wire can work while moving below the power transmission line, and the monitoring mechanism can be controlled to move back and forth at a uniform speed while the guide wire does not need to climb to be regulated to a high position, so that the monitoring speed is prevented from being too fast, and the power transmission line is not monitored sufficiently, thus the automatic safe movement monitoring operation of the power transmission line of the new energy power engineering is realized, and the reference data can be provided for centralized maintenance and repair of the power transmission line by utilizing the monitoring result data, and the monitoring operation data can be provided for centralized in monitoring the power transmission line and the power transmission line to easily and the power transmission line to move in order to monitor the safety.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are needed in the embodiments or the description of the prior art will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is an enlarged cross-sectional view taken at A in FIG. 1;

FIG. 3 is a schematic diagram of the structure of the monitoring mechanism of the present invention;

fig. 4 is a top view of the locking mechanism of the present invention.

In the figure: 1. wire pole, 2, power transmission line, 3, guide wire, 4, monitoring mechanism, 41, mount pad, 42, sliding opening, 43, pulley block, 44, J-shaped plate, 45, counterweight seat, 46, mounting plate, 47, camera, 48, solar panel, 5, adjustment mechanism, 51, locking seat, 52, screw, 53, stud, 54, connecting rod, 55, solenoid, 56, groove, 57, swivel seat, 58, bump, 59, positioning notch, 510, nut, 511, L-shaped rod, 6, locking mechanism, 61, base, 62, extension plate, 63, fixing opening, 64, limit bar, 65, communication notch, 7, guide mechanism, 71, mounting ear, 72, guide shaft, 8, pull rope, 9, hoist, 10, vertical bar.

Detailed Description

The technical scheme of the invention is further specifically described below through examples and with reference to the accompanying drawings.

The utility model provides a new forms of energy electric power monitoring devices for electric power engineering, includes the power transmission line 2 that sets up on two sets of wire poles 1 adjacent, wherein still is provided with the direction line 3 between two sets of wire poles 1, and is provided with monitoring mechanism 4 on the direction line 3:

the wire pole 1 is provided with an adjusting mechanism 5 corresponding to the guide wire 3, wherein the adjusting mechanism 5 comprises an upper group of locking seats 51 and a lower group of locking seats 51 fixed on the wire pole 1, one side between the two groups of locking seats 51 is provided with a screw rod 52, two ends of the screw rod 52 are respectively bent to form a connecting rod 54 connected with the corresponding locking seats 51, a screw tube 55 is connected to the screw rod 52 in a threaded manner, the outer wall of the screw tube 55 is provided with a circle of groove 56, the screw tube 55 in the groove 56 is sleeved with a rotating seat 57, one side of the top of the rotating seat 57 is provided with a bump 58, the outer wall of the bump 58 and the outer wall of the top end of the screw tube 55 are respectively axially provided with a positioning notch 59, the upper side of the screw rod 52 is sleeved with a nut 510 with a magnetic connecting layer, one side of the nut 510 is provided with a stud 53 which slides into the upper group of the positioning notch 59 and the lower group of L-shaped rod 511, the top of the screw rod 52 is also provided with a stud 53 which can be connected with the nut 510 in a threaded manner, one side of the rotating seat 57 is provided with a locking mechanism 6 for fixing one end of the guide wire 3, one side of the locking mechanism 6 is provided with a guide mechanism 7, one side of the guide mechanism 7 is provided with a guide mechanism 7, the upper end of the guide mechanism 7 is connected with a pull rope 8, and one end of the wire 8 is connected with the wire 8 is arranged above the monitoring rope 8, and the end is connected with the wire 1;

the number of the guide wires 3 is multiple, wherein the guide wires 3 are positioned below the power transmission line 2, vertical rods 10 are uniformly arranged at the bottoms of the guide wires 3, and counterweight balls are arranged at the bottoms of the vertical rods 10;

the monitoring mechanism 4 comprises a mounting seat 41, wherein a plurality of groups of sliding openings 42 which are used for corresponding to the guide wire 3, the vertical rods 10 and the counterweight balls to pass through are arranged on the mounting seat 41, pulley blocks 43 which are used for being buckled on the top end of the guide wire 3 are arranged above the sliding openings 42, J-shaped plates 44 which are used for correcting the vertical rods 10 and guiding the vertical rods and the counterweight balls to slide into the sliding openings 42 are arranged on the side walls of the mounting seat 41 on the two sides of the upper half of the sliding openings 42, a counterweight seat 45 is arranged at the bottom of the mounting seat 41, a mounting plate 46 is arranged at the top of the mounting seat 45, and cameras 47 and solar panels 48 are arranged on the two sides of the mounting plate 46.

In this embodiment, the section of the rotating seat 57 is rectangular, wherein the protruding block 58 is disposed on one side of the top of the rotating seat 57 opposite to the locking mechanism 6, a plurality of groups of positioning notches 59 are axially disposed on the outer wall of the coil 55 above the groove 56, and one group of positioning notches 59 on the outer wall of the coil 55 are disposed corresponding to the positioning notch 59 on the protruding block 58.

As shown in fig. 2, the locking mechanism 6 includes a base 61, wherein the top end of the base 61 is hinged to the side wall of the rotating seat 57, an extension plate 62 is provided at the bottom of the base 61, the extension plate 62 is fixed on the rotating seat 57 by a bolt, a fixing opening 63 is vertically provided in the base 61, a limit bar 64 whose two ends are fixed to the corresponding side wall of the fixing opening 63 is provided at the middle position in the fixing opening 63, a communication gap 65 communicated with the fixing opening 63 is further provided at the bottom of the outer side of the base 61, one end of the guide wire 3 passes through the communication gap 65 and extends into the corresponding fixing opening 63, the end of the guide wire 3 in the fixing opening 63 is bent into a U shape and is buckled on the limit bar 64, and a bolt for locking and fixing the guide wire 3 is further provided on the base 61.

The base 61 is rotated by taking the hinge as the center of a circle by loosening the bolts on the extension plate 62, so that the base 61 is in a horizontal state, then the tail end of the guide wire 3 is conveniently inserted into the fixing opening 63 to be bent and then buckled on the limiting strip 64, then the base 61 is rotated, the bolts are arranged on the extension plate 62 to be locked and fixed on the rotating seat 57, and the guide wire 3 is pulled to be embedded into the communicating notch 65, so that the guide wire 3 is locked and fixed in the fixing opening 63 by the bolts while being in a tight state.

As shown in fig. 2, the guiding mechanism 7 includes two sets of mounting lugs 71, wherein two sets of guiding shafts 72 staggered up and down are disposed between the two sets of mounting lugs 71, the outer guiding shaft 72 is located at the lower position, one end of the pull rope 8 is located at the bottom of the lower guiding shaft 72 and is bent upwards, and the pull rope 8 after being bent upwards is bent downwards and is buckled on the upper guiding shaft 72.

The pull rope 8 is pressed by the lower guide shaft 72, so that the pull rope is parallel to the guide wire 3, the guide wire 3 is prevented from being lifted upwards to incline, the monitoring mechanism 4 is driven to move upwards in the process of pulling the monitoring mechanism 4, and then the guide wire 3 is separated from a clamping groove at the bottom of the pulley block 43, or the counterweight base 45 cannot effectively lift the guide wire 3 through the mounting base 41 and the pulley 43, so that the lifting problem of the guide wire 3 is prevented.

In this embodiment, a safety box for storing a hoist 9 is provided on the utility pole 1, wherein a through hole for sliding the pull rope 8 is provided at the top of the safety box.

In this embodiment, the solar panel 48 is disposed on the mounting plate 46 between the two groups of cameras 47, the counterweight seat 45 has a T-shaped structure, a storage battery is mounted in an opening formed between the vertical end of the counterweight seat 45 and the mounting seat 41, and the storage battery is respectively connected with the camera 47 and the solar panel 48, and a protective shell having a rainproof effect on the storage battery is further disposed between the counterweight seat 45 and the mounting seat 41.

In this embodiment, the inner diameter of the nut 510 is larger than the diameter of the screw 52, wherein the inner diameter of the nut 510 is matched with the diameter of the stud 53, and the screw 52 and the stud 53 are coaxially arranged. The nut 510 can slide freely on the screw 52, and after the nut 510 is connected with the stud 53, the L-shaped rod 511 can be suspended at a high position by the nut 510, so that the screw 55 is prevented from rotating up and down on the screw 52.

The application method of the invention comprises the following steps: the screw tube 55 can be rotated on the screw rod 52, the groove 56 on the screw tube 55 can rotate in the opening of the rotating seat 57, then the screw tube 55 can indirectly drive the rotating seat 57 to move together after moving up and down, at the moment, the rotating seat 57 drives the locking mechanism 6 and the guiding mechanism 7 to move, indirectly drives the guiding wire 3 and the pull rope 8 to adjust the up and down position with the monitoring mechanism 4, meanwhile, the nut 510 is separated from the stud 53 and drives the L-shaped rod 511 to move downwards and be embedded into the upper and lower two groups of positioning notches 59 on the top of the side wall of the screw tube 52 and the lug 58, at the moment, the nut 510 is magnetically connected with the top of the screw tube 55 through the magnetic connection layer to prevent the nut 510 from moving upwards, and the rotating seat 57 is prevented from rotating in the groove 56 in a mode of hanging the lug 58 through the L-shaped rod 511, so that the orientation of components such as the locking mechanism 6, the guiding mechanism 7 and the like is indirectly realized.

When the power transmission line 2 needs to be monitored, one side winch 9 is used for winding the corresponding pull rope 8, and the other side winch 9 is used for loosening the pull rope 8, so that the pull rope 8 moving on the guide shaft 72 drives the monitoring mechanism 4 to move on the guide wire 3, and the power transmission line 2 above the guide wire 3 is monitored by controlling the monitoring mechanism 4.

In the above process, when the monitoring mechanism 4 moves, it will drive the pulley block 43 to roll on the guide wire 3 to realize the displacement of the monitoring mechanism 4, and when the monitoring mechanism 4 moves, it will drive the two corresponding J-shaped plates 44 on one side of the monitoring mechanism to contact with the upper half of the vertical rod 10, and then guide the vertical rod 10 to slide between the two J-shaped plates 44 so as to make it in a more vertical state, and then the gravity pulling of the counterweight ball can also make it in a more vertical state, so when the sliding opening 42 moves to the vertical rod 10, the components such as the vertical rod 10 and the counterweight ball can slide into the sliding opening 42 smoothly and slide out, preventing the movement of the monitoring mechanism 4 from being affected.

In the above process, the plurality of groups of guide wires 3 pass through the clamping grooves at the bottom of the pulley 43 in the sliding opening 42, so that the monitoring mechanism 4 is in a horizontal state in the sliding process and is not easy to roll around the guide wires 3 as the circle center.

According to the invention, the guide wire 3 is arranged below the power transmission line 2 and is prevented from being sprung upwards to be contacted with the power transmission line 2 by pulling the vertical rod 10 and the counterweight balls, meanwhile, the counterweight seat 45 plays a role in pulling the monitoring mechanism 4 and the guide wires 3 at the two sides to further prevent the guide wire 3 from being sprung upwards to be contacted with the power transmission line 2, so that the problems that the electric accident is caused by the contact of the guide wire 3 and the monitoring mechanism 4 with the power transmission line 2 in various modes and the operation of the winch 9 is prevented on the ground, the monitoring mechanism 4 is driven to move on the guide wire 3 by the contracted or stretched pull rope 8, so that the monitoring mechanism can work while moving below the power transmission line 2, and the guide wire 3 does not need to climb to be adjusted to a high position, and meanwhile, the monitoring mechanism 4 can be controlled to move back and forth at a uniform speed to prevent the problem that the moving speed is too fast to sufficiently monitor the power transmission line 2, and the automatic monitoring operation is realized.

In summary, the structure of the invention has the advantages of realizing the safety mobile monitoring of the power transmission line of the new energy power engineering, providing reference data for the centralized overhaul and maintenance of the power transmission line, and being not easy to cause power safety accidents in the process of monitoring the power transmission line.

The preferred embodiments of the present invention have been described above. It is to be understood that the invention is not limited to the specific embodiments described above, wherein devices and structures not described in detail are to be understood as being implemented in a manner common in the art; any person skilled in the art can make many possible variations and modifications to the technical solution of the present invention or modifications to equivalent embodiments without departing from the scope of the technical solution of the present invention, using the methods and technical contents disclosed above, without affecting the essential content of the present invention. Therefore, any simple modification, equivalent variation and modification of the above embodiments according to the technical substance of the present invention still fall within the scope of the technical solution of the present invention.

Claims (7)

1. The utility model provides a new forms of energy electric power monitoring devices for electric power engineering, is including setting up the power transmission line on two sets of telegraph poles adjacent, wherein still is provided with the direction line between two sets of telegraph poles, and is provided with monitoring mechanism on the direction line, its characterized in that:

the wire pole is provided with an adjusting mechanism corresponding to the guide wire, wherein the adjusting mechanism comprises an upper group of locking seats and a lower group of locking seats which are fixed on the wire pole, one side between the two groups of locking seats is provided with a screw rod, two ends of the screw rod are respectively bent to form a connecting rod connected with the corresponding locking seats, a screw pipe is connected to the screw rod in a screwed mode, a circle of groove is formed in the outer wall of the screw pipe, a rotating seat is sleeved on the screw pipe in the groove in an sleeved mode, a bump is arranged on one side of the top of the rotating seat, positioning notches are axially formed in the outer wall of the bump and the outer wall of the top of the screw pipe, a nut with a magnetic connecting layer is sleeved on the upper side of the screw rod, one side of the nut is provided with an L-shaped rod which slides into the upper group of positioning notches and the lower group of positioning notches, the top of the screw rod is also provided with a stud which can be connected with the nut in a screwed mode, one side of the rotating seat is provided with a locking mechanism which is used for fixing one end of the guide wire, a guide wire is arranged on one side of the locking mechanism, a pull rope is arranged on the guide mechanism, and a winding machine arranged below the wire is connected with the tail end of the pull rope;

the number of the guide wires is multiple, wherein the guide wires are positioned below the transmission line, vertical rods are uniformly arranged at the bottoms of the guide wires, and counterweight balls are arranged at the bottoms of the vertical rods;

the monitoring mechanism comprises a mounting seat, wherein a plurality of groups of sliding openings used for corresponding to the guide wire, the vertical rods and the counterweight balls to pass through are arranged on the mounting seat, pulley blocks used for being buckled on the top end of the guide wire are arranged above the sliding openings, correction vertical rods and J-shaped plates used for guiding the vertical rods and the counterweight balls to slide into the sliding openings are arranged on the side walls of the mounting seat on the two sides of the upper half of the sliding opening, the counterweight seats are arranged at the bottom of the mounting seat, a mounting plate is arranged at the top of the mounting seat, and a camera and a solar panel are arranged on the two sides of the mounting plate.

2. The new energy power monitoring device for power engineering according to claim 1, wherein: the cross section of the rotating seat is rectangular, wherein the protruding block is arranged on one side of the top of the rotating seat opposite to the locking mechanism, a plurality of groups of positioning notches are axially arranged on the outer wall of the spiral tube above the groove, and one group of positioning notches on the outer wall of the spiral tube are correspondingly arranged with the positioning notch on the protruding block.

3. The new energy power monitoring device for power engineering according to claim 1, wherein: the locking mechanism comprises a base, wherein the top end of the base is hinged with the side wall of the rotating seat, an extension plate is arranged at the bottom of the base and fixed on the rotating seat through bolts, a fixed opening is vertically arranged in the base, two ends of the fixed opening are arranged at the middle of the fixed opening, corresponding side walls of the fixed opening are fixed limiting strips, a communicating notch communicated with the fixed opening is further formed in the bottom of the outer side of the base, one end of a guide wire penetrates through the communicating notch and extends into the corresponding fixed opening, the tail end of the guide wire in the fixed opening is bent to be U-shaped and buckled on the limiting strips, and bolts for locking and fixing the guide wire are further arranged on the base.

4. A new energy power monitoring device for electric power engineering according to claim 3, characterized in that: the guide mechanism comprises two groups of mounting lugs, two groups of guide shafts which are staggered up and down are arranged between the two groups of mounting lugs, the outer guide shafts are located below, one end of each pull rope is located at the bottom of each lower guide shaft and bent upwards, and the pull ropes after being bent upwards are bent downwards and buckled on the guide shafts above.

5. The new energy power monitoring device for power engineering according to claim 4, wherein: the utility model discloses a wire pole, including the wire pole, be provided with the safe case that is used for depositing the hoist engine on the wire pole, wherein safe case top is provided with the through-hole that is used for the stay cord to slide.

6. The new energy power monitoring device for power engineering according to any one of claims 1 to 5, characterized in that: the solar panel is arranged on the mounting plate between the two groups of cameras, the counterweight seat is of a T-shaped structure, a storage battery is arranged in an opening formed between the vertical end of the counterweight seat and the mounting seat, the storage battery is respectively connected with the cameras and the solar panel, and a protective shell which has a rainproof effect on the storage battery is further arranged between the counterweight seat and the mounting seat.

7. The new energy power monitoring device for power engineering according to any one of claims 1 to 5, characterized in that: the inner diameter of the nut is larger than the diameter of the screw rod, the size of the inner diameter of the nut is matched with the size of the diameter of the stud, and the screw rod and the stud are coaxially arranged.