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Adaptive robotic finger device coupled with air-travel transmission link

A technology of robot fingers and transmission links, applied in manipulators, manufacturing tools, chucks, etc., can solve the problems of large deformation of multiple spring parts, difficult selection of spring parts, excessive energy loss, etc. Stable and reliable gripping, low assembly and maintenance costs

Inactive Publication Date: 2018-11-23
TSINGHUA UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The device can realize the coupling and self-adaptive composite grasping mode, but the disadvantages are: 1) the mechanism is complicated, and there are two sets of transmission mechanisms installed between the proximal joint shaft and the distal joint shaft; Difficulty in selection; 3) Use multiple springs to achieve decoupling - to reconcile the contradiction between the coupling transmission mechanism and the adaptive transmission mechanism, often making the deformation of multiple springs large, resulting in excessive and unnecessary energy loss

Method used

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  • Adaptive robotic finger device coupled with air-travel transmission link
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  • Adaptive robotic finger device coupled with air-travel transmission link

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Embodiment Construction

[0044] The specific structure and working principle of the present invention will be further described in detail below in conjunction with the accompanying drawings and embodiments.

[0045] A kind of embodiment of the free-range drive link coupling self-adaptive robot finger device that the present invention designs, as Figure 1 to Figure 8 As shown, it includes a base 1, a first finger segment 2, a second finger segment 3, a proximal joint shaft 4, a distal joint shaft 5 and a driver 14; the driver 14 is fixedly connected to the base 1; the proximal joint shaft 4 The centerline of is parallel to the centerline of distal joint axis 5. This embodiment also includes a transition transmission mechanism, a driving dial 15, a first spring member 16, a first fork 9, a second fork 10, a connecting rod 11, a first shaft 91, a second shaft 92, a driven dial 191, the intermediate transmission mechanism, the bump dial 12, the limit bump 18 and the second spring 13; the proximal joint ...

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PUM

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Abstract

The invention discloses an idle stroke transmission connecting rod coupling self-adaption robot finger device and belongs to the technical field of robot hands. The idle stroke transmission connecting rod coupling self-adaption robot finger device comprises a base, two finger segments, two joint shafts, a driver, a plurality of connecting rods, a transitional transmission mechanism, a middle transmission mechanism, a driving stirring wheel, a driven stirring wheel, a lug driving disk, two spring parts, a limiting lug and the like. The device achieves a coupling and self-adaption combined grabbing mode, the device can link two joints to pinch an object with the tail ends, the action personification degree is high, the first finger segment can be rotated to touch the object first and then the second finger segment is rotated to hold the object in a wrapping manner, the grabbing strength is large, and the effect of self-adaption grabbing of objects in different shapes and sizes is achieved; grabbing is stable and reliable; only one driver is used for driving the two joints, and complex sensing and real-time control systems are not needed; and meanwhile, the structure is simple, the size is small, the weight is low, the machining, assembling and maintaining cost is low, and the idle stroke transmission connecting rod coupling self-adaption robot finger device is suitable for robot hands.

Description

technical field [0001] The invention belongs to the technical field of robot hands, and in particular relates to a structural design of a free-travel transmission link coupling self-adaptive robot finger device. Background technique [0002] The adaptive underactuated robot hand uses a small number of motors to drive joints with multiple degrees of freedom. Due to the small number of motors, the motors hidden in the palm can choose larger power and volume, and the output is large. At the same time, the purely mechanical feedback system does not need to be sensitive to the environment. It can achieve stable grasping, automatically adapt to objects of different shapes and sizes, without the need for real-time sensing and closed-loop feedback control, simple and convenient control, and reduces manufacturing costs. [0003] There are mainly two grasping methods when grasping objects, one is pinching and the other is holding. [0004] Pinch is to use the fingertips of the end fi...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): B25J15/02
CPCB25J15/0009B25J15/026B25J15/0286
Inventor 陈潇男张文增
Owner TSINGHUA UNIV
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