CN205054186U - Remote diagnosis system is synthesized to traditional chinese medical science - Google Patents

Remote diagnosis system is synthesized to traditional chinese medical science Download PDF

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CN205054186U
CN205054186U CN201520592828.0U CN201520592828U CN205054186U CN 205054186 U CN205054186 U CN 205054186U CN 201520592828 U CN201520592828 U CN 201520592828U CN 205054186 U CN205054186 U CN 205054186U
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pulse
patient
subsystem
doctor
pressure
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刘国华
吴虹
徐锡燕
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Nankai University
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Nankai University
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Abstract

The utility model discloses a remote diagnosis system is synthesized to traditional chinese medical science, it includes data acquisition subsystem, signal processing subsystem, computer unit, pulse simulation subsystem and calibration subsystem, the pulse signal of data acquisition subsystem at the bottom of to patient's body temperature, face, tongue fur, tongue, sound and radial artery gather, the signal processing subsystem handle the data that the data acquisition subsystem was gathered to thereby transmit the long -range butt joint that realizes patient and doctor through communications network, different pressure such as the doctor can be superficial according to applying through pulse simulation subsystem according to the received pulse rate in, sink feed back the radial artery department of patient's wrist and feel the pulse. The utility model discloses synthesized traditional chinese medical science prestige, news, asked, cut the four methods of diagnosis, do not needed doctor and the face -to -face consultation of doctors of patient the sense of reality to receive patient's health, realized the tele -medicine, provide convenient for patient's prescription on individual diagnosis.

Description

The comprehensive remote diagnosis system of a kind of traditional Chinese medical science
Technical field
This utility model belongs to tele-medicine field, particularly the comprehensive remote diagnosis system of a kind of traditional Chinese medical science.
Background technology
The traditional Chinese medical science is in order to researching human body physiology, pathology and carry out Diagnosis and treatment to disease, using yin-yang and five elements as theoretical basis, human body is regarded as the entity of gas, shape, god, by hoping, hearing, ask, cut the method for comprehensive analysis of the data gained by the four methods of diagnosis, the cause of disease, characteristic of disease, sick position and pathogenesis are comprehensively analyzed, draws correct diagnosis.
In the traditional Chinese medical science four diagnostic methods, inspection, by observing patient's body, complexion, tongue body, tongue fur, determines disease position, characteristic of disease according to shape and color change; Auscultation and olfaction comprise listening and olfaction two aspect, mainly through listening the change such as the height of patient's language breath, power, pure and impure, emergency, to differentiate the deficiency and excess cold and heat of the state of an illness; Inquiring, by inquiry patient or its family members, understands the ailing place of the time of diseases related generation, reason, process, medical history, patient, and the situation that living habit, diet hobby etc. are relevant with disease; Palpation is pulse-taking, is the sense of touch that doctor uses finger tip, carries out touching, touches, by, pressure, so as to observing and learning pulse condition change by experience, distinguish function prosperity and decline, QI and blood Tianjin essence is empty stagnant at the wrist radial artery place of patient.
Along with the fast development of information technology, the traditional Chinese medical science also combines with information technology gradually, and by tele-medicine, doctor does not need can diagnose face-to-face with patient, for patient provides conveniently.Existing remote traditional Chinese medical diagnostic system and instrumental function comparatively single, all only focus in palpation, and do not coordinate inspection, auscultation and olfaction to carry out condition-inference to patient together with inquiring.In addition, existing long-range pulse-taking instrument underaction, all only float at the pulse of patient end mechanical device to cun,guan,chi three place, in, heavy etc. to exert pressure, pulse pressure signal being sent to doctor holds computer to analyze for doctor again, but when doctor repeatedly feels the pulse according to different pulse condition situation, doctor's applied pressure remotely cannot be fed back to the radial artery place of patient.
Utility model content
This utility model provides a kind of comprehensively comprehensive remote diagnosis system of the traditional Chinese medical science for the problems referred to above existed, the traditional Chinese medical science can be hoped, hear, ask, cut the four diagnostic methods and combine long-range diagnosis and treatment are carried out to patient, and by the pulse signal of patient true reappearance in long-range pulse analog subsystem, doctor can according to the pulse data received by pulse analog subsystem apply floating, in, the different pressures such as the heavy radial artery place that feeds back to patients wrist carries out feeling the pulse diagnosis and treatment.
The utility model proposes the comprehensive remote diagnosis system of a kind of traditional Chinese medical science based on above-mentioned purpose, comprising: data acquisition subsystem, signal processing subsystem, computer unit, pulse analog subsystem and calibration subsystem;
Described data acquisition subsystem, is connected with described signal processing subsystem, for gathering at the bottom of the body temperature of patient, face, tongue fur, tongue, the pulse signal of sound and radial artery;
Described signal processing subsystem, is connected with patient end computer, transfers to patient end computer after the analogue signal of data acquisition subsystem collection is carried out digitized processing;
Patient end computer and doctor hold computer to be connected by communication network;
Described pulse analog subsystem, holds computer to be connected with doctor, for the beat pulse of simulated patient and doctor is applied floating, in, the different pressures such as heavy transfers to doctor and holds computer, and feed back to patient end by communication network and carry out long-range feeling the pulse;
Described calibration subsystem, is placed in patient end respectively and doctor holds, for calibrating the data of patient end before carrying out tele-medicine.
Described data acquisition subsystem comprises clinical thermometer, photographic head, headset, three groups of planar multiple spot distributed pressure sensors, pressure applicator;
Described clinical thermometer is for measuring the body temperature of patient; Described photographic head is for taking the face of patient, tongue fur and tongue base map picture or video; Described headset is used for exchanging between patient with doctor; Described three groups of planar multiple spot distributed pressure sensors for measuring the pressure signal of patients wrist's radial artery cun,guan,chi three place pulse, and by pulse pressure Signal transmissions to described signal processing subsystem; Described pressure applicator be used for patient's radial artery place apply floating, in, heavy equal pressure;
Described three groups of planar multiple spot distributed pressure sensors form with the pressure sensor unit of 3 × 3 arrayed by 9 respectively, often organize planar multiple spot distributed pressure sensor Multipoint synchronous gather patients wrist's radial artery cun or close or pressure signal that chi pulse is fought, namely often group can gather 9 pulse pressure signals;
Described pressure applicator is made up of three air bags, three valves and pulsometer, and three air bags are connected with three valves respectively, and pulsometer is delivered gas in corresponding air bag by valve, thus completes the course of exerting pressure to patients wrist's radial artery place;
Described air bag is connected with described planar multiple spot distributed pressure sensor.
Described signal processing subsystem comprises comparator, amplifying circuit, filter circuit and analog-digital converter;
Described comparator is connected with described amplifying circuit, described comparator is for comparing 9 cun of planar multiple spot distributed pressure sensor transmission or closing or chi pulse pressure signal, choose the pulse pressure signal of amplitude maximum, and pulse pressure signal is sent to amplifying circuit; Described amplifying circuit is for amplifying pulse pressure signal, and pulse pressure signal carries out denoising through described filter circuit, and the pulse pressure signal after denoising converts analogue signal to digital signal by described analog-digital converter, transfers to patient end computer;
Described signal processing subsystem also comprises a control circuit, and described control circuit is connected with pulsometer with the valve in described pressure applicator, for control to patients wrist's radial artery place apply floating, in, the different pressures such as heavy.
Patient end computer and doctor hold computer to be connected by communication network, and described communication network can be broadband networks, wireless network, telecommunications network etc.
Described pulse analog subsystem comprises pulse emulator, pressure transducer, pressure signal processing module;
Described pulse emulator is used for beating of simulated patient wrist radial artery cun,guan,chi pulse; The fingertip pressure that described pressure transducer applies pulse emulator for measuring doctor; Described pressure signal processing module is used for carrying out digitized processing to the analogue signal that pressure transducer records;
Described pulse emulator comprises three air bags, three valves, pulsometer and controllers, three air bags are connected with three valves respectively, pulsometer delivers gas in corresponding air bag by valve, controller is connected with three valves and pulsometer, thus is beated by inflation/deflation frequency analog patient pulse;
Described pressure signal processing module comprises amplifying circuit, filter circuit and analog-digital converter, described amplifying circuit is for amplifying doctor's applied pressure signal, pressure signal carries out denoising through described filter circuit, pressure signal after denoising converts analogue signal to digital signal by described analog-digital converter, transfers to doctor and holds computer.
As can be seen from such scheme, this utility model has the following advantages:
1, the planar multiple spot distributed pressure sensor that adopts of this utility model can gather patients wrist radial artery cun or closes or pressure signal that chi pulse is fought, the problem that the pulse signal that sensor and pulse location can be avoided to occur to cause when offseting gathering is faint by Multipoint synchronous.
2, this utility model is by true reappearance in the pulse emulator of the pulse signal of patient in long-range pulse analog subsystem, the pulse condition information of reduction patient, doctor can according to pulse condition information to pulse emulator apply floating, in, the different pressures such as the heavy radial artery place that feeds back to patients wrist carries out feeling the pulse diagnosis and treatment, hold a consultation face-to-face just as doctor and patient.
3, this utility model combines the traditional Chinese medical science and hopes, hears, asks, cuts the four diagnostic methods, by inquiry patient profiles, listen patient's sound, observe at the bottom of patient complexion, tongue fur, tongue and long-range feeling the pulse carries out diagnosis and treatment to patient, and do not need doctor and patient to hold a consultation face-to-face and get final product the health of sense of reality to patient, realize tele-medicine, for the medical of patient provides conveniently.
4, patient pulse's signal of collection has been carried out digitized converting transmission in computer by this utility model, facilitate the data message that store patient is medical, for check provides reference in the future, also can be used as tcm teaching data, disease data base is sentenced in pulse-taking pulse signal being sent to medical service center by communication network in addition, be analyzed according to the data in data base, provide with reference to for doctor or provide diagnosis report and health guidance information for patient.
Accompanying drawing explanation
Fig. 1 is the comprehensive remote diagnosis system schematic diagram of the traditional Chinese medical science of a kind of embodiment of this utility model;
Fig. 2 is the pulse collection assembly schematic diagram of a kind of embodiment of this utility model;
Fig. 3 is the planar multiple spot distributed pressure sensor arrangement schematic diagram of a kind of embodiment of this utility model;
Fig. 4 is the pulse emulator schematic diagram of a kind of embodiment of this utility model;
Fig. 5 is doctor's pulse-taking schematic diagram of a kind of embodiment of this utility model.
Detailed description of the invention
For making the purpose of this utility model, technical scheme and advantage clearly, below this utility model embodiment is described in further detail.
As shown in Figure 1, the comprehensive remote diagnosis system of the traditional Chinese medical science described in the utility model, is made up of five major parts, comprises data acquisition subsystem, signal processing subsystem, computer unit, pulse analog subsystem and calibration subsystem.
In this utility model, data acquisition subsystem is positioned at patient end, realizes at the bottom of the body temperature of patient, face, tongue fur, tongue, the collection of the pulse signal of sound and radial artery.This subsystem comprises clinical thermometer, photographic head, headset, three groups of planar multiple spot distributed pressure sensors and pressure applicator.
Wherein, clinical thermometer is for measuring the body temperature of patient; Photographic head is for taking the face of patient, tongue fur and tongue base map picture or video, and doctor, by observing complexion, tongue body, the tongue fur of patient, determines disease position according to shape and color change, process that characteristic of disease completes inspection; Headset is used for exchanging between patient with doctor, and doctor, by listening and inquiry patient, understands its existing disease and resembles and medical history, complete the process of auscultation and olfaction and inquiring with this; Three groups of planar multiple spot distributed pressure sensors are for measuring the pressure signal of patient's arm radial artery cun,guan,chi three place pulse; Pressure applicator be used for patient's radial artery place apply floating, in, heavy equal pressure, doctor by observing and learning pulse condition change by experience, distinguish its function prosperity and decline and QI and blood Tianjin essence empty stagnant, complete the process of palpation with this.
As shown in Figure 2, pulse collection assembly comprises signal processing subsystem, pressure transducer and pressure applicator.
Wherein, pressure applicator is made up of three air bags, three valves and pulsometer, and signal processing subsystem is made up of comparator, amplifying circuit, filter circuit, analog-digital converter and control circuit.One end of three air bags is connected with pressure transducer, and the other end is connected with three valves respectively, and three valves are connected with pulsometer, and control circuit is connected with pulsometer with three valves respectively.Controller can control pulsometer and deliver gas in corresponding air bag, simulation doctor finger is exerted pressure to patients wrist's radial artery place, controller can also make air bag inflation/deflation by by-pass valve control, thus complete to patients wrist's radial artery place apply floating, in, the different pressures such as heavy.Pressure transducer collection is floated, in, pulse pressure signal under the different pressures such as heavy, and pulse pressure signal is sent to comparator.Comparator is for more multiple cun or close or chi pulse signal, and selects the pulse pressure signal of amplitude maximum to be sent to amplifying circuit.The outfan of amplifying circuit is connected with filter circuit input, amplifies and denoising, then by analog-digital converter, analogue signal is converted into digital signal to pulse pressure signal, carries out digitized processing, transfers to patient end computer.
As shown in Figure 3, what pressure transducer adopted is planar multiple spot distributed pressure sensor, always has three groups.Often organize planar multiple spot distributed pressure sensor to form with the pressure sensor unit of 3 × 3 arrayed by 9 respectively, measure patients wrist radial artery cun for Multipoint synchronous or close or pressure signal that chi pulse is fought, namely often group can measure 9 pulse pressure signals.
In this patent embodiment, pulse collection assembly accessible site is worn on human body wrist at bracelet, and pressure transducer is built in bracelet, and often group sensor adheres on cun,guan,chi three positions inside same wrist.Pressure applicator and signal processing subsystem can be placed in the outside of bracelet.
In this patent embodiment, headset and photographic head can be configured in computer terminal, and patient end computer and doctor hold computer to carry out long-range connection by communication network, and communication network can be broadband networks, wireless network, telecommunications network etc.
In this utility model, pulse analog subsystem is positioned at doctor's end, for the beat pulse of remote analog patient, doctor can according to the patient pulse of simulation beat apply floating, in, the different pressures such as heavy, transfer to doctor and hold computer, and feed back to patient end by communication network and carry out long-range feeling the pulse.This system comprises pulse emulator, pressure transducer, pressure signal processing module.
As shown in Figure 4, pulse emulator is made up of three air bags, three valves, pulsometer and controllers, three air bags are connected with three valves respectively, three valves are connected with pulsometer, controller controls pulsometer and delivers gas in corresponding air bag by valve, also be connected with three valves with Time Controller, the uninterrupted of difference by-pass valve control and inflation/deflation frequency, thus simulated patient beat pulse.
As shown in Figure 5, the outfan of pulse emulator is connected with pressure transducer input, the fingertip pressure that this pressure transducer applies pulse emulator for measuring doctor, and pressure signal is transferred to pressure signal processing module.
Pressure signal processing module comprises amplifying circuit, filter circuit and analog-digital converter.The pressure signal collected is carried out amplification and the denoising process of signal by pressure transducer through amplifying circuit and filter circuit, then converts analogue signal to digital signal by analog-digital converter, transfers to doctor and holds computer.Doctor holds computer to be connected to patient end computer by long-range, by doctor to pulse emulator applied pressure Signal transmissions in control circuit, thus remotely to patients wrist's radial artery place apply floating, in, the different pressures such as heavy feels the pulse.
During this patent is implemented, air bag, valve, pulsometer, pressure transducer can be integrated in simulation skin, are the shape of wrist, and simulation skin and doctor three of feeling the pulse point and are connected, for doctor diagnosed.
This utility model, before carrying out tele-medicine, also by calibration subsystem, is calibrated the data of patient end.Patient end and doctor hold respectively has one to calibrate subsystem.Patient end calibration subsystem is connected with signal processing subsystem, can send a known normal pulse signal, be sent to patient end computer after signal processing subsystem processes signal.Signal is sent to the computer of doctor's end by patient end computer by communication network, signal is sent to the pulse signal of pulse analog subsystem simulated patient end calibration subsystem transmission by the computer of doctor's end again.Doctor holds calibration subsystem to be connected with pulse analog subsystem, for gathering the pulse signal that patient end calibration subsystem sends, and emulation pulse signal is out sent to doctor holds computer.The pulse signal that doctor holds computer to send patient end calibration subsystem and doctor hold and calibrates the pulse signal that subsystem emulate and contrast, and calibrate errorless, can carry out tele-medicine to patient if the result of contrast, in the range of error of permission, illustrates; If the result of contrast beyond the range of error allowed, then needs to adjust until errorless the parameter in this diagnostic system.
Those skilled in the art is to be understood that; these are only that this utility model is preferably specifically implemented; not in order to limit this utility model; all within spirit of the present utility model and principle; the any amendment, equivalents, improvement etc. made, all should be included in protection domain of the present utility model.

Claims (10)

1. the comprehensive remote diagnosis system of the traditional Chinese medical science, is characterized in that, comprising: data acquisition subsystem, signal processing subsystem, computer unit, pulse analog subsystem and calibration subsystem;
Described data acquisition subsystem, is connected with described signal processing subsystem, for gathering at the bottom of the body temperature of patient, face, tongue fur, tongue, the pulse signal of sound and radial artery;
Described signal processing subsystem, is connected with patient end computer, transfers to patient end computer after the analogue signal of data acquisition subsystem collection is carried out digitized processing;
Patient end computer and doctor hold computer to be connected by communication network;
Described pulse analog subsystem, holds computer to be connected with doctor, for the beat pulse of simulated patient and doctor is applied floating, in, the different pressures such as heavy transfers to doctor and holds computer, and feed back to patient end by communication network and carry out long-range feeling the pulse;
Described calibration subsystem, is placed in patient end respectively and doctor holds, for calibrating the data of patient end before carrying out tele-medicine.
2. system according to claim 1, is characterized in that, described data acquisition subsystem comprises clinical thermometer, photographic head, headset, three groups of planar multiple spot distributed pressure sensors, pressure applicator.
3. system according to claim 2, is characterized in that, described clinical thermometer is for measuring the body temperature of patient; Described photographic head is for taking the face of patient, tongue fur and tongue base map picture or video; Described headset is used for exchanging between patient with doctor; Described three groups of planar multiple spot distributed pressure sensors for measuring the pressure signal of patients wrist's radial artery cun,guan,chi three place pulse, and by pulse pressure Signal transmissions to described signal processing subsystem; Described pressure applicator be used for patient's radial artery place apply floating, in, heavy equal pressure.
4. the system according to Claims 2 or 3, it is characterized in that, described three groups of planar multiple spot distributed pressure sensors form with the pressure sensor unit of 3 × 3 arrayed by 9 respectively, often organize planar multiple spot distributed pressure sensor Multipoint synchronous gather patients wrist's radial artery cun or close or pressure signal that chi pulse is fought, namely often group can gather 9 pulse pressure signals.
5. the system according to Claims 2 or 3, it is characterized in that, described pressure applicator is made up of three air bags, three valves and pulsometer, three air bags are connected with three valves respectively, pulsometer is delivered gas in corresponding air bag by valve, thus completes the course of exerting pressure to patients wrist's radial artery place.
6. system according to claim 5, described air bag is connected with planar multiple spot distributed pressure sensor.
7. system according to claim 1, is characterized in that, described signal processing subsystem comprises comparator, amplifying circuit, filter circuit and analog-digital converter.
8. system according to claim 7, it is characterized in that, described comparator is connected with described amplifying circuit, described comparator is for comparing 9 cun of planar multiple spot distributed pressure sensor transmission or closing or chi pulse pressure signal, choose the pulse pressure signal of amplitude maximum, and pulse pressure signal is sent to amplifying circuit; Described amplifying circuit is for amplifying pulse pressure signal, and pulse pressure signal carries out denoising through described filter circuit, and the pulse pressure signal after denoising converts analogue signal to digital signal by described analog-digital converter, transfers to patient end computer.
9. the system according to claim 1 or 7, it is characterized in that, described signal processing subsystem also comprises a control circuit, and described control circuit is connected with pulsometer with the valve in pressure applicator, for control to patients wrist's radial artery place apply floating, in, the different pressures such as heavy.
10. system according to claim 1, is characterized in that, patient end computer and doctor hold computer to be connected by communication network, and described communication network can be broadband networks, wireless network, telecommunications network etc.
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Cited By (10)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105662368A (en) * 2016-03-04 2016-06-15 中国科学院微电子研究所 Traditional Chinese medicine pulse-taking sensor, traditional Chinese medicine pulse-taking diagnosis and treatment system and a health service platform
CN105825072A (en) * 2016-05-31 2016-08-03 福州金典工业产品设计有限公司 Remote pulse feeling system and using method thereof
CN107041733A (en) * 2017-05-04 2017-08-15 刘子青 A kind of long-range pulse device
CN107693905A (en) * 2017-09-04 2018-02-16 重庆邮电大学 One kind remote control injecting systems
CN108074647A (en) * 2016-11-15 2018-05-25 深圳大森智能科技有限公司 A kind of health data collection method and apparatus
CN108652588A (en) * 2017-03-27 2018-10-16 陈湘凤 The pulse condition tactile playback system and method for long-range diagnosis by feeling the pulse
WO2019000909A1 (en) * 2017-06-29 2019-01-03 京东方科技集团股份有限公司 Telemedical device, information acquisition device, and telemedical system and method
CN110522436A (en) * 2019-08-22 2019-12-03 天津森宇科技股份有限公司 Pulse signal acquisition system
CN114631788A (en) * 2022-03-01 2022-06-17 湖南敬凯投资管理有限公司 Pulse reproduction method and device
TWI768586B (en) * 2020-12-09 2022-06-21 國立臺灣大學 Pulse reproducing mechanism

Cited By (12)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105662368A (en) * 2016-03-04 2016-06-15 中国科学院微电子研究所 Traditional Chinese medicine pulse-taking sensor, traditional Chinese medicine pulse-taking diagnosis and treatment system and a health service platform
CN105825072A (en) * 2016-05-31 2016-08-03 福州金典工业产品设计有限公司 Remote pulse feeling system and using method thereof
CN108074647A (en) * 2016-11-15 2018-05-25 深圳大森智能科技有限公司 A kind of health data collection method and apparatus
CN108652588A (en) * 2017-03-27 2018-10-16 陈湘凤 The pulse condition tactile playback system and method for long-range diagnosis by feeling the pulse
CN107041733A (en) * 2017-05-04 2017-08-15 刘子青 A kind of long-range pulse device
WO2019000909A1 (en) * 2017-06-29 2019-01-03 京东方科技集团股份有限公司 Telemedical device, information acquisition device, and telemedical system and method
US11270794B2 (en) 2017-06-29 2022-03-08 Boe Technology Group Co., Ltd. Telemedicine device, information acquiring device, and telemedicine system and method
CN107693905A (en) * 2017-09-04 2018-02-16 重庆邮电大学 One kind remote control injecting systems
CN107693905B (en) * 2017-09-04 2020-11-10 重庆邮电大学 Remote control injection system
CN110522436A (en) * 2019-08-22 2019-12-03 天津森宇科技股份有限公司 Pulse signal acquisition system
TWI768586B (en) * 2020-12-09 2022-06-21 國立臺灣大學 Pulse reproducing mechanism
CN114631788A (en) * 2022-03-01 2022-06-17 湖南敬凯投资管理有限公司 Pulse reproduction method and device

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