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Human health remote mobile communication monitoring system

A mobile communication and human health technology, applied in the field of medical equipment, can solve the problems of patients' pain, affecting patients' normal work and life, and inconvenient measurement

Inactive Publication Date: 2013-05-08
YIJIALE COMM TECH BEIJING CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

This invasive detection method needs to collect the patient's blood, which will not only bring pain to the patient, but also affect the normal work and life of the patient, and cannot remotely detect the blood oxygen saturation of the patient.
[0007] Therefore, the measurement of EEG, body temperature, ECG, blood pressure and blood oxygen in the prior art is very inconvenient, and it is not suitable for patients to measure and monitor anytime and anywhere

Method used

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  • Human health remote mobile communication monitoring system
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  • Human health remote mobile communication monitoring system

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0031] Such as figure 1As shown, the human health remote mobile communication monitoring system in this embodiment includes an EEG monitoring module 100, a body temperature detection module 200, an ECG monitoring module 300, a blood pressure monitoring module 400, a blood oxygen monitoring module 500, a mobile communication device CPU600, and a display module 700, the storage module 800 and the health monitoring center 900, the output end of the EEG monitoring module 100, the output end of the body temperature detection module 200, the output end of the ECG monitoring module 300, the output end of the blood pressure monitoring module 400 and the blood oxygen monitoring module 500 The output ends of the mobile communication device CPU600 are respectively connected with the input ends of the mobile communication device CPU600, and the output ends of the mobile communication device CPU600 are respectively connected with the input ends of the display module 700, the input end of th...

Embodiment 2

[0045] The difference between this embodiment and Embodiment 1 is that the first anti-interference layer 304 is composed of the following substances in weight percentage: 80% asphalt, 5% dioctyl phthalate, 5% atactic polypropylene, 3% styrene-butadiene latex %, poly(3,4-ethylenedioxythiophene) 5%, nano-scale vanadium 2%; the second anti-jamming layer 306 is composed of the following substances by weight percentage: pitch 50%, bisphenol F resin 13%, silane di Joint agent 17%, phenalkamine 5%, polyaniline 5%, nano-scale ferric oxide 5%, nano-scale ferric oxide 5%. The thicknesses of the first anti-interference layer 304 and the second anti-interference layer 306 are both equal to 0.2 mm. The particle diameter of the nanometer vanadium is 30-80 nanometers, the particle diameter of the nanometer iron ferric oxide is 10-50 nanometers, and the particle diameter of the nanometer ferric oxide is 10-100 nanometers. According to the standard SJ20524-1995 "Test Method for Material Shiel...

Embodiment 3

[0047] The difference between this embodiment and Embodiment 1 is that the first anti-jamming layer is composed of the following substances by weight percentage: 70% asphalt, 10% dioctyl phthalate, 7% atactic polypropylene, and 3% styrene-butadiene latex , poly(3,4-ethylenedioxythiophene) 8%, nano-scale vanadium 2%; the second anti-interference layer is composed of the following substances by weight percentage: pitch 60%, bisphenol F resin 13%, silane coupling agent 6%, phenalkamine 4%, polyaniline 10%, nano-scale ferric oxide 4%, nano-scale ferric oxide 3%. The thicknesses of the first anti-interference layer 304 and the second anti-interference layer 306 are both equal to 1 mm. The particle diameter of the nanometer vanadium is 30-80 nanometers, the particle diameter of the nanometer iron ferric oxide is 10-50 nanometers, and the particle diameter of the nanometer ferric oxide is 10-100 nanometers. According to the standard SJ20524-1995 "Test Method for Material Shielding E...

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Abstract

The invention discloses a human health remote mobile communication monitoring system which comprises a brain electricity motoring module, a body temperature detection module, an electrocardio motoring module, a blood pressure monitoring module, a blood oxygen monitoring module, a mobile communication device central processing unit (CPU), a display module, a storage module and a health care center. An output end of the brain electricity motoring module, an output end of the body temperature detection module, an output end of the electrocardio motoring module, an output end of the blood pressure monitoring module and an output end of the blood oxygen monitoring module are respectively connected with an input end of the mobile communication device CPU. An output end of the mobile communication device CPU is respectively connected with an input end of the display module, an input end of the storage module and an input end of the health care center. The human health remote mobile communication monitoring system is capable of measuring brain electricity, body temperature, electrocardio, blood pressure and blood oxygen anytime and anywhere, and a patient is enabled to be capable of monitoring body conditions at any time and acquiring professional therapy opinions and suggestions of a doctor anytime and anywhere.

Description

technical field [0001] The invention relates to a medical device, in particular to a human health remote mobile communication monitoring system for remote detection of human health. Background technique [0002] In the prior art, when the EEG detection device is used to detect the EEG of the patient, the patient needs to go to a medical institution equipped with EEG detection equipment such as a brain computer. If it is necessary to track and detect the EEG of the patient, the patient needs to go back and forth many times Medical institutions, which will bring additional burden to patients. In addition, the EEG signal is very weak, and the EEG detection device in the prior art is easily disturbed by environmental signals during the detection process, and the reliability of the detection result is poor. [0003] The current thermometer is an independent device, which is inconvenient to carry around and cannot measure body temperature anytime and anywhere. [0004] The tradi...

Claims

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Application Information

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IPC IPC(8): A61B5/01A61B5/0402A61B5/0476A61B5/0225A61B5/1455
Inventor 翟文喜
Owner YIJIALE COMM TECH BEIJING CO LTD
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