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Shock-resistant four-degree-of-freedom parallel humanoid mechanical foot

A technology with degrees of freedom and impact resistance, applied in the field of humanoid robots, it can solve the problems of inability to realize the impact energy absorption of human feet, difficulty in simulating the fine movements of human feet, and less freedom of movement, etc. The effect of extending the overall lifespan

Active Publication Date: 2016-06-01
CHANGZHOU XIAOGUO INFORMATION SERVICES
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Although the mechanical foot of the prior art realizes the walking process, it is difficult to simulate the detailed movements of the human foot due to the lack of freedom of movement, and it is impossible to realize the impact energy absorption process of the human foot

Method used

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  • Shock-resistant four-degree-of-freedom parallel humanoid mechanical foot

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Embodiment Construction

[0012] The present invention will be further described in detail below in conjunction with the accompanying drawings and specific embodiments.

[0013] see figure 1 As shown, the impact-resistant four-degree-of-freedom parallel humanoid mechanical foot of the present invention includes a mechanical lower leg 1, an orthogonal ankle joint axis, a tarsal rod 3, and a metatarsal rod 4 installed at the left end of the tarsal rod 3 through a tarsal-metatarsal hinge 30. , the toe 5 installed on the metatarsal bar 4 through the metatarsophalangeal hinge 40, the arched sole plate 8 installed at the bottom of the metatarsal plate 4, the back of the foot 7, the rubber pillars 6 that are connected to the back of the foot 7 and the metatarsal bar 4 at both ends .

[0014] see figure 1 As shown, the orthogonal joint axis includes the main shaft frame 23, the ankle main shaft A20, the ankle main shaft B21, the bolt 22 and the motor 25; the ankle main shaft A20 passes through the ankle main...

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Abstract

The invention discloses a shock-resistant four-degree-of-freedom parallel humanoid mechanical foot and belongs to the field of humanoid robots. The shock-resistant four-degree-of-freedom parallel humanoid mechanical foot comprises a mechanical shank, an orthogonal ankle joint shaft, a tarsal bone rod, a metatarsal bone rod arranged at the left end of the tarsal bone rod through a tarsal and metatarsal hinge, toes arranged on the metatarsal bone rod through a metatarsal and toe hinge, an arch-shaped sole board arranged at the bottom of the metatarsal bone rod, an instep face and a rubber strut with the two ends connected with the instep face and the metatarsal bone rod 4. The orthogonal ankle joint shaft comprises a main shaft frame, a main ankle shaft A, a main ankle shaft B, bolts and a motor. A toe spring is arranged between the toes and the metatarsal bone rod. An upper metatarsal bone spring A and an upper metatarsal bone spring B are arranged between the instep face and the metatarsal bone rod. The right end of the instep face is connected with the tarsal bone rod through a tarsal bone spring. The left end and the right end of the arch-shaped sole board are connected with the metatarsal bone rod through a lower metatarsal bone spring A and a lower metatarsal bone spring B. The shock-resistant four-degree-of-freedom parallel humanoid mechanical foot is reasonable in structure and stable in operation, has four degrees of freedom and the shock resistant function and is in a parallel mode.

Description

technical field [0001] The invention mainly relates to the field of humanoid robots, in particular to an impact-resistant four-degree-of-freedom parallel humanoid mechanical foot. Background technique [0002] In the field of intelligence research, the research of robots has become one of the hot spots, especially the research of humanoid robots. From a biological point of view, the humanoid mechanical foot needs to have more than four degrees of freedom in order to better simulate the movement characteristics of the human foot. Although the mechanical foot of the prior art realizes the walking process, it is difficult to simulate the detailed movements of the human foot due to less freedom of movement, and cannot realize the impact energy absorption process of the human foot. Therefore, it is of great value to design a mechanical foot with four degrees of freedom that can automatically absorb impact energy. Contents of the invention [0003] The technical problem to be ...

Claims

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Application Information

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IPC IPC(8): B62D57/032
CPCB62D57/032
Inventor 班书昊李晓艳蒋学东何云松席仁强谭邹卿
Owner CHANGZHOU XIAOGUO INFORMATION SERVICES
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