Tactile sensor based on active excitation signal to obtain resonance signal
A technology of excitation signal and resonance signal, applied in the direction of transmitting sensing components by electric/magnetic devices, transmitting sensing components by wave/particle radiation devices, manipulators, etc., can solve problems such as high cost and complex structure, and achieve low cost , the effect of simple structure
Active Publication Date: 2021-12-07
GUIZHOU UNIV
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Problems solved by technology
[0004] The technical problem to be solved by the present invention is to provide a touch-slip sensor that obtains a resonance signal based on an active excitation signal to solve the problems of complex structure and high cost of the existing touch-slip sensor
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[0025] According to an embodiment of the present invention, a touch-slip sensor based on an active excitation signal to obtain a resonance signal is applied to a manipulator 1. The manipulator 1 is mainly used for grabbing objects and consists of three parts: an actuator, a drive mechanism and a control system. An automatic operating device that can imitate certain movement functions of the human arm to grasp, carry objects or operate tools according to a fixed program. The manipulator 1 is commonly used at present, and will not be described in detail here.
[0026] The touch-slip sensor includes: a sliding touch panel 2 , an electret microphone 3 , a piezoelectric ceramic sheet 4 , a signal generator 5 , a power amplifier 6 , a signal conditioning circuit 7 and a data acquisition card 8 .
[0027] Sliding touch panel 2, installed on the manipulator 1, is mainly used to feel the contact and sliding of the manipulator 1 during the grasping process. Usually, a thin iron sheet wi...
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The invention discloses a touch-slip sensor which acquires a resonance signal based on an active excitation signal, which is applied to a manipulator, and the manipulator is used to grab an object. The touch-slip sensor comprises: a slip touch panel arranged on the manipulator; an electret microphone, arranged on the sliding touch panel; a piezoelectric ceramic sheet, arranged on the sliding touch panel; a signal generator, the signal generator applies the generated excitation signal to the piezoelectric On the ceramic sheet, the piezoelectric ceramic sheet is made to vibrate; the piezoelectric ceramic sheet acts on the sliding touch panel with the generated vibration, and the electret microphone is grasped according to the piezoelectric ceramic sheet and the manipulator. The vibration signal generated by the object will output the response signal. The present invention uses the method of acoustic resonance spectrum to measure the resonance frequency of the manipulator in different states such as no-load, sliding, and clamping during the grasping process, as a criterion for judging that the machine has completed soft grasping, and has the advantages of simple structure and low cost .
Description
technical field [0001] The invention relates to a touch-slip sensor that acquires a resonance signal based on an active excitation signal, and belongs to the technical field of touch-slip sensors. Background technique [0002] One of the key technologies in the operation of intelligent robots is soft grasping with manipulators, that is, grasping without damage. The application of this technology can make the damage-free grasping of fragile objects a reality, and at the same time improve the working efficiency of the robot. To achieve soft grasping, it is necessary to install corresponding sensors on the manipulator of the robot. The touch-slip sensor plays a vital role in the non-destructive grasping of the manipulator, so its performance directly determines whether the manipulator can successfully complete the soft grasping task. [0003] The slip sensor uses the principle of acoustic electricity to convert the touch-slip signal generated by the manipulator during the gra...
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IPC IPC(8): G01D5/56G01D5/62B25J19/02
CPCB25J19/02B25J19/028G01D5/56G01D5/62
Inventor 钟方亮陈进军张启龙
Owner GUIZHOU UNIV