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An active bionic whisker sensor and device

An active sensor technology, applied in the field of whisker sensors, can solve the problems of limited sensor detection ability and application, poor detection signal stability, and easy to be affected by the surrounding environment.

Active Publication Date: 2021-08-27
BEIJING INSTITUTE OF TECHNOLOGYGY
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The volume of the traditional resistive whisker sensor can be made very small, but it is difficult to realize active detection, which limits the detection ability and application of the sensor; the capacitive whisker sensor is easily affected by the surrounding environment due to the capacitive working principle. The stability of the output detection signal is poor; the electromagnetic whisker sensor can achieve better signal output, and it is also difficult to achieve active detection, which limits the detection capability and application of the sensor; the piezoelectric whisker sensor relies on its own working principle , can realize displacement detection while actively driving the whiskers, and the sensor can be highly integrated, but affected by the small deformation capability of PZT and the hysteresis characteristics of electrical signals, the piezoelectric whisker sensor is mostly used to detect small deformation, rough It is difficult to simulate the real detection behavior of living things; the current research on the photoelectric whisker sensor is in a passive way, and it is mainly used for the detection of the shape of the object; The extrusion of the material leads to the redistribution of charges in the material, which forms the output of electrical signals. Since the detection process is easily affected by the charge distribution in the surrounding environment (for example, static electricity in the human body), it is difficult to popularize and apply

Method used

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  • An active bionic whisker sensor and device
  • An active bionic whisker sensor and device
  • An active bionic whisker sensor and device

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0031] Such as figure 1 As shown, an active bionic whisker sensor provided in this embodiment includes whiskers ①, bearing structure, upper support cover ⑥, electromagnet mounting seat ⑦, electromagnet, pendulum ⑨ and lower support cover

[0032] The lower end of the upper support cover ⑥ and the lower support cover The upper end of the electromagnet is connected together through the electromagnet mounting seat ⑦; the bearing structure is nested on the upper end of the upper support cover ⑥, one end of the electromagnet is installed on the bottom of the electromagnet mounting seat ⑦, and the other end of the electromagnet is suspended; the pendulum ⑨ It is located on the electromagnet mounting base ⑦, and one end of the tentacles ① passes through the bearing structure and is connected with one end of the pendulum ⑨, and a plurality of permanent magnets are arranged on the other end of the pendulum ⑨.

[0033] As a preferred implementation, the bearing structure of this emb...

Embodiment 2

[0045] This embodiment provides an active bionic whisker sensor device, including a control driver and the active bionic whisker sensor described in Embodiment 1.

[0046] The control driver, connected to the electromagnet, is used to supply the electric current to the electromagnet.

[0047] The control driver is respectively connected with the conductive elastic copper sheet on the ball bearing and the carbon resistance film on the ball bearing seat, and is used to energize the conductive elastic copper sheet and the carbon resistance film so that the conductive elastic copper sheet, the carbon resistance film and the control driver Form a energized circuit.

[0048] The working principle of the active bionic whisker sensing device is introduced in detail below

[0049] To realize the swinging motion of the tentacles ①, it is necessary to sequentially load the corresponding electromagnets with a specified magnitude and direction of current, for example: to achieve swinging ...

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Abstract

The invention discloses an active bionic whisker sensor and device, relating to the technical field of whisker sensors, including whiskers, a bearing structure, an upper support cover, an electromagnet mounting seat, an electromagnet, a pendulum and a lower support cover; the lower end of the upper support cover The upper end of the upper part and the lower support cover are connected together through the electromagnet mounting seat; the bearing structure is nested on the upper end of the upper support cover, one end of the electromagnet is installed at the bottom of the electromagnet mounting seat, and the other end of the electromagnet is suspended; The hammer is located on the electromagnet installation seat, and one end of the antenna passes through the bearing structure and is connected with one end of the pendulum, and the other end of the pendulum is arranged with multiple permanent magnets. The invention realizes the active detection of the size, shape, orientation, texture and position of the object by electromagnetically driving the bionic tentacles.

Description

technical field [0001] The invention relates to the technical field of whisker sensors, in particular to an active bionic whisker sensor and a device. Background technique [0002] The tentacles sensor is a sensor manufactured by artificial bionics by simulating the working principle of the tentacles of mice, sea lions and other animals, and realizes the detection of the size, shape, orientation, texture and position of objects in complex environments. At present, the existing whisker sensors mainly include resistive, capacitive, electromagnetic, piezoelectric (PZT), photoelectric (Position sensitive detector, PSD) and nano triboelectric generator (TENG) methods. The volume of the traditional resistive whisker sensor can be made very small, but it is difficult to realize active detection, which limits the detection ability and application of the sensor; the capacitive whisker sensor is easily affected by the surrounding environment due to the capacitive working principle. T...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G01D5/12
CPCG01D5/12
Inventor 于志强石青陈会金郭越黄强福田敏男
Owner BEIJING INSTITUTE OF TECHNOLOGYGY