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CN-224233217-U - Mechanism for carrying out lifting point setting on power transmission overhead line by adopting unmanned aerial vehicle

CN224233217UCN 224233217 UCN224233217 UCN 224233217UCN-224233217-U

Abstract

The utility model discloses a mechanism for setting a lifting point of a power transmission overhead line by adopting an unmanned aerial vehicle, and belongs to the technical field of erecting the lifting point of the power transmission overhead line by the unmanned aerial vehicle. This kind of transmission of electricity overhead line adopts unmanned aerial vehicle to carry out the mechanism that the hoisting point set up, including unmanned aerial vehicle rings and upset piece, the bottom of unmanned aerial vehicle rings is connected with anticreep piece, unmanned aerial vehicle rings is connected with frame construction through anticreep piece, just anticreep piece lift slip is in frame construction's top, one side of upset piece alternates there is the stainless steel round pin axle, the upset piece is rotated through the stainless steel round pin axle and is connected frame construction's one end, the upset piece includes bent arm and straight arm, the bent arm with the junction of straight arm is provided with the mount pad, one side of mount pad with the stainless steel round pin axle alternates and is connected, one side of bent arm seted up with the bayonet socket of the mutual block in anticreep piece bottom, anticreep piece is between frame construction, through spout up-and-down motion.

Inventors

  • QU HONGBAO
  • MENG XIANYUE

Assignees

  • 塞卡尔(北京)工业技术有限公司

Dates

Publication Date
20260512
Application Date
20250604

Claims (7)

  1. 1. Mechanism that transmission of electricity overhead line adopted unmanned aerial vehicle to carry out hoisting point setting, its characterized in that includes: The unmanned aerial vehicle lifting ring (1), the bottom of unmanned aerial vehicle lifting ring (1) is connected with anticreep spare (4), unmanned aerial vehicle lifting ring (1) is connected with frame construction (2) through anticreep spare (4), just anticreep spare (4) lift slides the top of frame construction (2); The turnover part (3), one side of turnover part (3) alternates to have stainless steel round pin axle (6), turnover part (3) are in through stainless steel round pin axle (6) rotation connection one end of frame construction (2), turnover part (3) are including bent arm (31) and straight arm (32), bent arm (31) with the junction of straight arm (32) is provided with mount pad (34), one side of mount pad (34) with stainless steel round pin axle (6) alternates to be connected, one side of bent arm (31) seted up with bayonet socket (33) of the mutual block in anticreep piece (4) bottom.
  2. 2. The mechanism for carrying out lifting point setting on the power transmission overhead line by adopting the unmanned aerial vehicle according to claim 1 is characterized in that a frame reinforcement (5) is arranged in the frame structure (2), the frame reinforcement (5) comprises a shaft piece (51), screw holes (52) are respectively formed in two sides of the shaft piece (51), and bolts (53) are respectively connected in the two screw holes (52) in a threaded mode.
  3. 3. The mechanism for arranging lifting points of power transmission overhead lines by adopting unmanned aerial vehicles according to claim 2, wherein one ends of two bolts (53) are respectively inserted at two sides of the frame structure (2).
  4. 4. The mechanism for arranging lifting points of the overhead transmission line by adopting the unmanned aerial vehicle according to claim 1 is characterized in that a rubber pad is bonded on one side of the outer wall of the overturning piece (3), and the rubber pad is positioned on one side of the bent arm (31).
  5. 5. The mechanism for carrying out lifting point setting on the power transmission overhead line by adopting the unmanned aerial vehicle according to claim 1 is characterized in that hollow grooves are respectively formed in the outer walls of the bent arm (31) and the straight arm (32).
  6. 6. The mechanism for carrying out lifting point setting on the power transmission overhead line by adopting the unmanned aerial vehicle according to claim 1, wherein a rope lifting point (7) is arranged at the bottom of the frame structure (2), and the rope lifting point (7) is of a universal joint structure.
  7. 7. The mechanism for carrying out lifting point setting on the power transmission overhead line by adopting the unmanned aerial vehicle according to claim 2, wherein two ends of the shaft piece (51) are respectively and rigidly connected with the inner wall of the frame structure (2).

Description

Mechanism for carrying out lifting point setting on power transmission overhead line by adopting unmanned aerial vehicle Technical Field The utility model relates to the technical field of overhead transmission line hanging points arranged on an unmanned frame, in particular to a mechanism for arranging hanging points of an overhead transmission line by adopting an unmanned plane. Background In order to change the heavy and high-strength working state of the power transmission line maintenance work, reduce the labor intensity and improve the maintenance efficiency, the live working is made to be an intelligent and portable age of tools. The unmanned aerial vehicle is fully utilized to combine the electric lifting device, and the energy efficiency of the electric lifting device is further improved. The method can avoid high-intensity operations such as rope climbing, climbing towers and the like of operators, reduce the labor intensity of the operators to the greatest extent, improve the overhaul efficiency, shorten the overhaul time, reduce the power failure time, improve the economic benefit of a power grid and realize the purposes of reducing the labor intensity and realizing the intellectualization and portability of tools. The hanging point setting mechanism in the prior art has the defects that after the unmanned aerial vehicle hangs the unmanned aerial vehicle on a wire, the unmanned aerial vehicle can move relative to the wire under the action of the travelling pulley, and is not suitable for a field in which a pulley needs to be set at a fixed point. Disclosure of utility model In order to solve the problems of the background technology, the utility model provides a mechanism for arranging hanging points of a power transmission overhead line by adopting an unmanned aerial vehicle. In view of the above problems, the technical scheme provided by the utility model is as follows: The utility model provides a mechanism that transmission of electricity overhead line adopted unmanned aerial vehicle to carry out hoisting point setting, includes unmanned aerial vehicle rings and upset piece, unmanned aerial vehicle rings's bottom is connected with anticreep piece, unmanned aerial vehicle rings is connected with frame structure through anticreep piece, just anticreep piece lift slip is in frame structure's top, one side of upset piece alternates there is the stainless steel round pin axle, the upset piece is rotated through the stainless steel round pin axle and is connected frame structure's one end, the upset piece includes bent arm and straight arm, the bent arm with the junction of straight arm is provided with the mount pad, one side of mount pad with the stainless steel round pin axle alternates and is connected, one side of bent arm seted up with the bayonet socket of anticreep piece bottom mutual block, the anticreep piece is between frame structure, through spout up-and-down motion, in the bayonet socket of anticreep piece is gone into to the anticreep piece card after the upset piece is closed, makes the upset piece lock, in the upset piece is automatic to be opened under the effect of gravity, reaches the biggest open position after touching the frame connection piece. Compared with the prior art, the utility model has the beneficial effects that: Before the unmanned aerial vehicle lifting point setting mechanism is used, an insulating rope of a power grid is firstly hung on a rope lifting point, the unmanned aerial vehicle directly hangs the lifting point mechanism on a power transmission overhead line, then the unmanned aerial vehicle descends to a height until unhooking, the lifting point mechanism contacts with an electric wire under the gravity, a turnover part is turned over to form closure, and an anti-falling part falls and is clamped into a bayonet of the turnover part to form self-locking. The unmanned aerial auxiliary mode reduces the labor intensity of operators, reduces the rope abrasion and effectively improves the safety. Drawings Fig. 1 is a schematic diagram of an unfolding state of a mechanism for arranging a lifting point of a power transmission overhead line by adopting an unmanned aerial vehicle; fig. 2 is a schematic diagram of a closed state of a mechanism for setting a lifting point of a transmission overhead line by using an unmanned aerial vehicle; fig. 3 is a schematic diagram of a turnover part structure of a mechanism for setting a lifting point of a transmission overhead line by using an unmanned aerial vehicle; Fig. 4 is a schematic development diagram of a frame reinforcement of a mechanism for arranging a lifting point of a power transmission overhead line by using an unmanned aerial vehicle. The unmanned aerial vehicle lifting ring comprises a lifting ring body 1, a frame structure 2, a turnover part 31, a bent arm 32, a straight arm 33, a bayonet, a mounting seat 34, an anti-falling part 4, a frame reinforcement member 5, a shaft part 51, a 52, a screw hole 53, a