Environmentally-friendly self-driven incinerating device and working method thereof
A working method and self-driven technology, applied in the direction of burning method, method of incinerating corpses, lighting and heating equipment, etc., can solve problems such as human health and adverse effects of living environment
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Embodiment 1
[0105] Such as Figure 1-16 As shown, this embodiment provides an environment-friendly self-driven incineration device, including a pick-up mechanism, a transmission mechanism, an incineration mechanism, a material preparation mechanism and a management mechanism.
[0106] The management mechanism includes: a processor 1, which is used to analyze the vital signs of animals, and the vital signs include active, dormant and dead; the driving device 2, connected with the processor 1, receives the work instructions sent by the processor 1, and is used to drive the Each component runs; the first positioning device 3 is connected with the processor 1, and is used to acquire the first position information of the equipment and sends the first position information to the processor 1; the navigation device 4 is connected with the processor 1, and is used to generate The movement route of the device and send the movement route to processor 1.
[0107] The pick-up mechanism includes: an u...
Embodiment 2
[0129] Such as figure 1 , 3 , 8, 9, 10, and 16, the present embodiment provides a working method of an environment-friendly self-driven incineration device, including the following working steps:
[0130] S101: The navigation device 4 generates a movement route of the incineration equipment and sends it to the processor 1, and the processor 1 controls the incineration equipment to patrol according to the movement route.
[0131] S102: The first camera device 6 acquires the surrounding environment of the unmanned vehicle and sends the first captured image to the processor 1 .
[0132] S103: The processor 1 determines whether there is an animal in the first captured image.
[0133] S104: If yes, extract the image of the animal from the first captured image and analyze the vital signs of the animal.
[0134] S105: The processor 1 judges whether the animal is dead.
[0135] S106: If yes, the processor 1 outputs a picking signal to the driving device 2, and the driving device 2...
Embodiment 3
[0151] Such as figure 1 , 14 , 15, and 16, when an animal that meets the burning conditions exceeds the picking range of the picking arm 12, the unmanned aerial vehicle 39 is enabled for auxiliary picking, and the processor 1 calculates the position of the animal; the navigation device 4 generates the unmanned aerial vehicle 39 to the animal position and send it to the processor 1; the processor 1 controls the unmanned aerial vehicle 39 to fly according to the flight route; the processor 1 outputs a grasping signal to the driving device 2, and the driving device 2 drives the mechanical claw 32 to grab the animal; no one The drone 39 returns and hovers in front of the electric chamber door 7 according to the flight route; the processor 1 outputs an extension signal to the drive device 2, and the drive device 2 drives the multi-stage arm 34 to extend below the drone 39; 1 outputs a release signal to the driving device 2, and the driving device 2 drives the mechanical claw 32 to...
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