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Flexible wearable sensor and corresponding wearable device and preparation method thereof

A sensor and flexible technology, applied in the direction of sensors, fluid pressure measurement using piezoelectric devices, and measurement of property force using piezoelectric devices, can solve problems such as inability to perceive, low output capacity, and large sensor size, etc., to achieve reduction The effect of small overall thickness and quality, improved output performance, and high acquisition sensitivity

Inactive Publication Date: 2019-05-10
ZHONGBEI UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

The patent [CN103582451A] uses an optical method to measure the pulse signal, but it cannot directly measure the pressure signal of the pulse beating
Patent [CN203619542U] designed the pulse sensor based on the piezoelectric effect, although the thickness has been significantly reduced, but the thickness of the overall device is still relatively large and not completely flexible
Although the devices designed in patents [CN107994803A] and [CN205195598U] utilize the triboelectric effect, their structural size is large and the application direction is nano-generators
The patent [CN103107737] design piezoelectric friction composite nanogenerator is structurally similar to the present invention, but its structural design is complicated and weak pressure cannot be detected, so it is only suitable as a force-electric conversion device
[0007] Generally speaking, these sensors have defects such as large size, inability to be completely flexible, and low output capability, which make it impossible to be better applied to flexible wearable devices, especially in the field of medical sensing systems, due to low output capability and insufficient sensitivity. These slight beats such as the pulse cannot be felt

Method used

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  • Flexible wearable sensor and corresponding wearable device and preparation method thereof
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  • Flexible wearable sensor and corresponding wearable device and preparation method thereof

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Embodiment

[0042] The wearable device provided in this embodiment uses a flexible wearable sensor as a sensor.

[0043] figure 1 It is a schematic diagram of the decomposition structure of the flexible wearable sensor involved in the embodiment;

[0044] figure 2 for figure 1 A side view of the flexible wearable sensor involved in the embodiment.

[0045] Such as figure 1 and figure 2 As shown, the flexible wearable sensor 100 provided in this embodiment includes a first electrode layer 10 , a piezoelectric layer 20 , a second electrode layer 30 , a spacer layer 40 , a friction layer 50 and a third electrode layer 60 that are arranged in sequence.

[0046] In order to be suitable for wearing and better contact with human skin, the piezoelectric layer 20 , the spacer layer 40 and the friction layer 50 all need to be flexible.

[0047] In addition, the piezoelectric layer 20 contains a flexible mixed material at least composed of piezoelectric material and silicon rubber, wherein t...

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Abstract

The invention provides a flexible wearable sensor and a corresponding wearable device and preparation method thereof, wherein the flexible wearable sensor is small in size and high in flexible degreeand output capacity. The flexible wearable sensor comprises a first electrode layer, a piezoelectric layer, a second electrode layer, an interval layer, a friction layer and a third electrode layer which are arranged in sequence; a flexible mixed material at least constituted by a piezoelectric material and silicone rubber is contained in the piezoelectric layer, and the piezoelectric layer can generate a piezoelectric signal after being subjected to polarization treatment; a flexible mixed material at least constituted by silicone rubber is contained in the friction layer, a plurality of protrusion parts formed by a plurality of protrusion structures which are configured in an arrayed mode are formed on the opposite areas in the inner surface of the piezoelectric layer and the inner surface of the friction layer correspondingly, and the two inner surfaces are oppositely arranged; the outer surface and the inner surface of the piezoelectric layer are covered with the first electrode layer and the second electrode layer correspondingly; and the interval layer is provided with hollow parts opposite to the protrusion parts on the inner surface of the piezoelectric layer, and the outersurface of the friction layer is covered with the third electrode layer.

Description

technical field [0001] The present invention relates to a flexible wearable sensor, a flexible wearable sensor, a corresponding wearable device and a preparation method thereof, in particular to a flexible wearable sensor with small size, high flexibility and high output capability and a corresponding wearable device and preparation methods. Background technique [0002] With the development of science and technology, wearable electronic products and artificial electronic skins that integrate communication technology, interactive technology, etc. that can collect and transmit information have attracted more and more people's attention, and can monitor human body movements and various physiological indicators. [0003] For this reason, at present, the electromechanical coupling mechanisms commonly used in the flexible sensors in the above-mentioned electronic products include triboelectric, piezoelectric, piezoresistive and capacitive. Piezoresistive and capacitive sensors r...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01L1/16G01L9/08A61B5/00H01L41/083H01L41/113H01L41/277H10N30/057H10N30/30H10N30/50
Inventor 侯晓娟丑修建余俊斌何剑穆继亮耿文平王超
Owner ZHONGBEI UNIV
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