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Three-position and nine-indicator multi-information acquisition and recognition device based on finger feel pressure application and microarray sensing

A three-part nine-wait, recognition device technology, applied in sensors, medical science, catheters, etc., can solve problems such as loss of relevant information, achieve the effects of strengthening identification capabilities, improving image awareness, and improving accuracy and reliability

Inactive Publication Date: 2015-11-11
牛欣
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Problems solved by technology

The study found that the information collected by the single-probe pulse sensor has certain limitations, and relevant information of other parts will be lost

Method used

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  • Three-position and nine-indicator multi-information acquisition and recognition device based on finger feel pressure application and microarray sensing
  • Three-position and nine-indicator multi-information acquisition and recognition device based on finger feel pressure application and microarray sensing
  • Three-position and nine-indicator multi-information acquisition and recognition device based on finger feel pressure application and microarray sensing

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Experimental program
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Embodiment Construction

[0062] 1. Pulse diagnosis sensor design

[0063] Designed in size, the micro-pressure probe uses an innovative optical reflection principle to measure the pressure signal, and obtains the magnitude, change and distribution of pressure higher than the tactile perception accuracy of fingers.

[0064] The pressure sensor is designed as a microcapacitor array structure, with parallel discrete interfaces between the microcapacitors, and the total value of the capacitance is the sum of the capacitance values ​​of each microcapacitor; since the radius of the capacitor size is 0.5mm, the thin film design, the thickness is less than 0.5mm Attached to the outer surface of the bionic finger, due to the array structure, the connections between the upper and lower electrode array points are vertically staggered to reduce parasitic capacitance.

[0065] A Huygens bridge is used to embed a silicon wafer capacitive pressure probe array on one side of the bridge arm. The voltage regulator circ...

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Abstract

The invention relates to a three-position and nine-indicator multi-information acquisition and recognition device based on finger feel pressure application and microarray sensing. The device is integrated with an MEMS microarray sensing contact probe, a miniature air pump, a standard II lead electrocadiography sensor and a detection electrode, a finger photoplethysmography senor and a bionic finger pressure probe, an air pressure finger cot, an air pressure wristlet, a miniature inflator pump, a wireless transmission device, an integrated circuit chip, a touch screen and a button lithium battery. According to the device, by adopting the MEMS technology, a microarray pressure sensor is designed to simulate the human under-finger touch information, acquire the properties in the aspects of position, pace, form, and dynamic of the pulse-taking information, and the properties and parameters, including pulse wave velocity (PWV), the blood pressure, the oxyhemoglobin saturation, the electrocardio, and the ultrasound, which can embody the physiological status of the organism form a dynamic synchronous data set. According to the theory of synthesis of the four diagnostic methods of the traditional Chinese medicine, the data is translated into relevant information such as vision, touch and the temperature sensation acquired by the traditional Chinese medical doctor, and so that the purpose of simulating the process of the synthesis of the four diagnostic methods of the traditional Chinese medicine is achieved by utilizing the digitized and quantized traditional Chinese medicine diagnosis.

Description

technical field [0001] The fields covered by this patent include: traditional Chinese medicine medical equipment, multi-attribute diagnostic information detection, MEMS technology, wearable devices and other fields. Background technique [0002] The research and development of large-scale imaging technology that dominates the field of medical equipment is costly, expensive, and has a single detection attribute. With clear imaging conclusions, for a considerable number of disease types, it is still impossible to have a comprehensive understanding of the attributes of the disease, and the provision of treatment options still needs to be re-evaluated. Sometimes it takes several weeks or even longer to develop a clear and optimized treatment plan, and the cost of resources and time consumed in the whole process is relatively huge, which is basically unaffordable for ordinary families. [0003] At present, wearable products are in the stage of accelerated development, and the em...

Claims

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Application Information

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IPC IPC(8): A61B5/00A61B5/02A61B5/0402
Inventor 牛欣杨学智司银楚牛婷立芦煜
Owner 牛欣
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