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Deformable multi-mode ground and air flying robot

A flying robot, multi-modal technology, applied in the field of mobile robots, can solve the problems of inability to complete ground operations, increase the self-weight of the robot, and small size of the robot bird, and achieve the effect of strong multi-task processing capability, low power consumption, and reduced self-weight.

Active Publication Date: 2015-11-11
INST OF AUTOMATION CHINESE ACAD OF SCI
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] At the current stage, there are very few studies on multi-modal robots at home and abroad, and there are obvious limitations in applying them to complex and harsh environments.
Seaplanes can realize water-air amphibious operations, but most of them are used in open water, which is difficult to apply in local narrow areas such as urban security and disaster rescue, and cannot complete ground operations; application number 201410716895.9 is an invention named "Land-Air Amphibious Robot" Patent, designed a land-air amphibious robot with coaxial dual propellers and incomplete wheels, but the stability of the flight mode of the helicopter configuration is far less than that of the multi-rotor configuration, and the connection between the land device and the flight device is simple and direct. The connection also increases the weight of the robot and reduces the payload; recently, the University of California, Berkeley studied a robot that uses the robot cockroach VelociRoACH to carry the robot bird H2Bird. The robot cockroach uses the ground moving speed to provide the initial velocity for the robot bird to take off, but This is essentially the combined use of two robots, rather than the "amphibious" function of one robot, and the robot bird is small in size and requires a lower take-off speed

Method used

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  • Deformable multi-mode ground and air flying robot
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  • Deformable multi-mode ground and air flying robot

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Embodiment Construction

[0042] In order to make the object, technical solution and features of the present invention clearer, the present invention will be further described in detail below in conjunction with specific embodiments and with reference to the accompanying drawings.

[0043] Such as figure 1 Shown, the deformable multimodal ground-air flying robot of the present invention comprises:

[0044] Body 10, autopilot 20, wing arm device 30, hub device 40 and adsorption device 50;

[0045] Four sets of wing arm devices 30 are installed in a cross shape on the body 10, and the four sets of wing arm devices 30 arranged in a cross shape are divided into front wing arm devices 31, rear wing arm devices 32, and left wing arm devices 33 of equal length. With the right wing arm device 34, the front wing arm device 31 and the rear wing arm device 32 are located on the same axis, and the left wing arm device 33 and the right wing arm device 34 are located on the same axis.

[0046] Such as Figure 2a ...

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Abstract

A deformable multi-mode ground and air flying robot comprises a body, an automatic pilot, wing arm devices, hub devices and a suction device. The body is provided with the four sets of wing arm devices in a cross shape. The wing arm devices comprise large wing arms, small wing arms, rotation joints, installation supports, motors and damping sleeves. The hub devices are installed on the four sets of wing arm devices respectively and are driven to run through motors. The suction device is installed on the upper portion of the body and used for being sucked to the surface of an object with the assigned angle. The automatic pilot is installed on the body and drives the hub devices and the suction device to run. The automatic pilot drives the rotation joints of the wing arm devices to rotate so that the small wing arms can drive the hub devices to rotate to the assigned angle, and thus switching of a flying mode and a ground walking mode is achieved. The deformable multi-mode ground and air flying robot has the advantages of being low in power consumption, high in environment adaptability and multi-task handling capability, good in structural stability and high in mobility, and is suitable for multi-mode operation and capable of meeting various task requirements under various complex severe environments.

Description

technical field [0001] The invention relates to the field of mobile robots, in particular to a deformable multi-mode land-air flying robot in complex and harsh environments. Background technique [0002] At present, many application fields such as military reconnaissance, urban security, and disaster rescue require robots to have strong environmental adaptability and multi-task processing capabilities in complex and harsh environments, and it is difficult for a robot with a single motion mode to meet these requirements at the same time. For example: ground mobile robots have good reliability and load capacity, but it is difficult to complete tasks such as overcoming obstacles and wading; multi-rotor aircraft has good stability and maneuverability, but the battery life is short, and it is difficult to complete long-term work . Therefore, integrating the advantages of various motion modes to study multi-modal robots has important theoretical significance and application value...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B60F5/02
Inventor 蒲志强高俊龙易建强谭湘敏
Owner INST OF AUTOMATION CHINESE ACAD OF SCI
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