A humanoid robotic arm based on hybrid drive of multiple artificial muscles

A hybrid drive, artificial muscle technology, applied in the field of humanoid robotic arms, can solve problems such as transmission error, power density reduction, drive system limitation, etc., and achieve the effects of good flexibility, large power density ratio, and strong safety.

Active Publication Date: 2017-01-25
NORTHEASTERN UNIV LIAONING
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, due to the rapid decrease of the power density of traditional motors with the reduction of volume, and the existence of transmission errors and friction, it is limited in improving the power density and overall response performance of the drive system.

Method used

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  • A humanoid robotic arm based on hybrid drive of multiple artificial muscles
  • A humanoid robotic arm based on hybrid drive of multiple artificial muscles
  • A humanoid robotic arm based on hybrid drive of multiple artificial muscles

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Embodiment Construction

[0023] Figure 1 is a schematic diagram of the structure of a humanoid robotic arm driven by a variety of artificial muscles. The humanoid arm is composed of a pan-tilt, a PAM bionic elbow joint, an SMA bionic wrist joint, and an IPMC bionic hand. Among them, the fixed platform 25 of the PAM bionic elbow joint is connected with the upper part 3 of the platform through the shaft 26, and through the motor 1 and the motor 4, cooperates with the gear transmission 27, so that the whole mechanical arm can realize the pitch and deflection motion; the bionic elbow joint motion platform 9 It is fixedly connected with the wrist support 24 of the wrist joint by bolts; the SMA bionic wrist joint motion platform 21 is fixedly connected with the inner palm board 10 of the IPMC bionic hand by threads.

[0024] The PAM bionic elbow joint requires a total of 7 Hooke hinges 6, of which 3 Hooke hinges 6 are placed on the fixed platform 25 in the shape of an equilateral triangle, and the other 3 Ho...

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Abstract

The invention discloses a human-simulated mechanical arm based on hybrid driving of various artificial muscles, which comprises a motor driving cradle head, a pneumatic muscle (PAM) bionic elbow joint, a shape memory alloy (SMA) bionic wrist joint and an IPMC bionic hand, wherein a shoulder joint has two rotational degrees of freedom; the elbow joint has three rotational degrees of freedom; the wrist joint has two rotational degrees of freedom; and the bionic hand has four fingers and eleven degrees of freedom, so that the mechanical arm has eighteen degrees of freedom. The cradle head is connected with the elbow joint through a shaft, the elbow joint is fixedly connected with the wrist joint through three bolts, and the wrist joint is fixedly connected with the bionic hand through a screw thread. Compared with a motor driving mechanical arm with the same specifications, the mechanical arm disclosed by the invention has the advantages of simple structure, high power-density ratio, good safety, high flexibility and the like, and the mechanical arm is enabled to have better flexibility and bionics characteristics through simulating a bone-muscle system of an upper limb of the human body. The human-simulated mechanical arm disclosed by the invention can be widely applied to the fields of home services, rehabilitation therapy, risk elimination and rescue, material handling and the like.

Description

technical field [0001] The invention relates to a humanoid mechanical arm based on mixed driving of various artificial muscles, which belongs to the fields of robotics, bionics and intelligent materials. Background technique [0002] Robotic arms that imitate the functions of human arms are currently being used in military, medical and service fields. They can not only replace humans in dangerous environments, but also help disabled people complete their daily activities. However, at present, the driving device of the humanoid manipulator mainly adopts the scheme of the cooperation of the motor and the reduction mechanism, and the multi-degree-of-freedom movement of the robot is realized by the linkage of multiple motors, which greatly increases the weight of the robot, reduces the safety, and makes the transmission mechanism more efficient. complication. In terms of improving the power density ratio of the manipulator drive device, domestic and foreign researches are mainl...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): B25J9/00B25J15/10B25J17/00
Inventor 郝丽娜杨辉陈洋赵亮亮
Owner NORTHEASTERN UNIV LIAONING
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