Anti-pollution-flashover paint spraying device for power transmission and transformation equipment
A technology of anti-pollution flashover coatings and power transmission and transformation equipment, which is applied to launch devices, transportation and packaging, aircraft parts, etc., and can solve the problems of power failure spraying of anti-pollution flashover coatings, hidden dangers to the personal safety of construction personnel, and high-altitude operations. The construction intensity is high, etc. problems, to achieve the effect of ensuring normal power consumption, reducing the intensity of construction operations, and increasing mobility
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Embodiment 1
[0027] Such as figure 1As shown, the anti-pollution flashover paint spraying device for power transmission and transformation equipment includes a drone, and the two sides of the bottom surface of the frame 18 of the drone are respectively provided with support frames, and the frame 18 of the drone is provided with a The spraying mechanism for spraying anti-pollution flashover paint, the wireless remote control device for wireless remote control of the spraying mechanism, and the image acquisition and transmission device for real-time observation of the spraying situation of the spraying mechanism. The spraying mechanism and the image acquisition and transmission device are all located on the machine At the bottom of frame 18, the spraying mechanism includes material box 6, power supply 5, compressor 7, discharge pipe 8 and spraying rod 13, power supply 5 and compressor 7 are located at the bottom of material box 6, power supply 5 is connected with compressor 7, and the dischar...
Embodiment 2
[0035] It differs from Embodiment 1 in that: as Figure 4 As shown, the wireless remote control device also includes an anti-collision module and a distance-measuring module. The distance module is set on the nozzle.
[0036] During the spraying operation, the anti-collision sensor collects signals in real time and transmits the collected signals to the anti-collision module. route to avoid obstacles; when the unmanned aerial vehicle starts to fly, the distance sensor starts to collect the distance between the nozzle 12 and the insulator, and transmits the collected information to the ranging module, and the ranging module transmits the information to the CPU. The flight of the man-machine is adjusted in real time to keep the distance between the nozzle 12 and the insulator constant.
Embodiment 3
[0038] It differs from Embodiment 1 in that: as figure 2 As shown, the outer sealing sleeve of each nozzle 12 is provided with a paint recovery sleeve 19 , the cross section of the paint recovery sleeve 19 is V-shaped, and the inner surface of the paint recovery sleeve 19 is provided with a diversion groove 20 . The paint recovery sleeve 19 is used to recover the excess paint sprayed by the nozzle 12. On the one hand, the diversion groove 20 makes it easier for the excess paint sprayed to gather at the bottom of the V shape, and on the other hand, it facilitates the collection of paint along the The diversion tank 20 is poured out.
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