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WO2017114489A1 - Mobile phone having health-monitoring and feedback treatment function - Google Patents

Mobile phone having health-monitoring and feedback treatment function Download PDF

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Publication number
WO2017114489A1
WO2017114489A1 PCT/CN2016/113530 CN2016113530W WO2017114489A1 WO 2017114489 A1 WO2017114489 A1 WO 2017114489A1 CN 2016113530 W CN2016113530 W CN 2016113530W WO 2017114489 A1 WO2017114489 A1 WO 2017114489A1
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Prior art keywords
mobile phone
sensor
casing
electrode
health monitoring
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PCT/CN2016/113530
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French (fr)
Chinese (zh)
Inventor
周国明
周璇
周博
唐丽春
朱立功
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周国明
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Publication of WO2017114489A1 publication Critical patent/WO2017114489A1/en

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    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B5/00Measuring for diagnostic purposes; Identification of persons
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B5/00Measuring for diagnostic purposes; Identification of persons
    • A61B5/01Measuring temperature of body parts ; Diagnostic temperature sensing, e.g. for malignant or inflamed tissue
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B5/00Measuring for diagnostic purposes; Identification of persons
    • A61B5/02Detecting, measuring or recording pulse, heart rate, blood pressure or blood flow; Combined pulse/heart-rate/blood pressure determination; Evaluating a cardiovascular condition not otherwise provided for, e.g. using combinations of techniques provided for in this group with electrocardiography or electroauscultation; Heart catheters for measuring blood pressure
    • A61B5/0205Simultaneously evaluating both cardiovascular conditions and different types of body conditions, e.g. heart and respiratory condition
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B5/00Measuring for diagnostic purposes; Identification of persons
    • A61B5/145Measuring characteristics of blood in vivo, e.g. gas concentration, pH value; Measuring characteristics of body fluids or tissues, e.g. interstitial fluid, cerebral tissue
    • A61B5/1455Measuring characteristics of blood in vivo, e.g. gas concentration, pH value; Measuring characteristics of body fluids or tissues, e.g. interstitial fluid, cerebral tissue using optical sensors, e.g. spectral photometrical oximeters
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B5/00Measuring for diagnostic purposes; Identification of persons
    • A61B5/24Detecting, measuring or recording bioelectric or biomagnetic signals of the body or parts thereof
    • A61B5/316Modalities, i.e. specific diagnostic methods
    • A61B5/318Heart-related electrical modalities, e.g. electrocardiography [ECG]
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B5/00Measuring for diagnostic purposes; Identification of persons
    • A61B5/24Detecting, measuring or recording bioelectric or biomagnetic signals of the body or parts thereof
    • A61B5/316Modalities, i.e. specific diagnostic methods
    • A61B5/369Electroencephalography [EEG]

Definitions

  • the function key group includes a call for emergency call, a remote start keyboard, an emergency call keyboard, an on or off button, a single measurement and continuous dynamic conversion button, a call button, a charging button, and a work opening key.
  • the pulmonary function detector is composed of an oral tube, a tubular airflow sensor bracket, a valve, a pressure sensor, an impeller type photoelectric flow sensor, and a digital processing module connected to the pressure sensor wire and the airflow pulse sensing wire at the same time, digitized.
  • the front end of the processing module is a USB data plug.
  • the parameter correction device in the movement is used to correct the influence of the interference factor on the measured value.
  • This one The full-wavelength photoelectric sensor can be used as a camera to realize the color camera function.
  • this X can also be used for illumination when selectively emitting white light wavelengths, selectively emitting a specific color flashing alarm signal for use in the rescue.
  • the protruding portion of 12a and 12b is a side temperature sensor, which is sent to the MCU through 12f, 12g and 4a, thereby measuring the temperature in the ear.
  • the principle of arterial pressure measurement If the pressure of the finger artery is to be measured, the MCU is started by the keyboard, and the MCU performs the inflation and deflation work of the air pump.
  • the photo-electric tube emits light normally, and the light intensity detector receives the pulse-pulsing degree as soon as it is received.
  • the light intensity signal is converted into an electrical signal.
  • the pressure value is pressed when inflated
  • the force sensor is converted into an electrical signal, which is sent to the amplifier for amplification through the interface and the input plug.
  • the signal conditioner is further amplified under the program control of the MCU and sent to the analog-to-digital converter for A/D conversion, and then the pressure value is calculated by the MCU.
  • the electrical signal received by the photoreceptor begins to pulsate from small to large as the finger artery pulsates, and the pressure value at the beginning of the pulsation point It also refers to the value of arterial systolic pressure.
  • the deflation makes the pressure in the balloon equal to the diastolic pressure of the finger artery, the amplitude received by the photoelectric receiver reaches the maximum value.
  • the pressure value in the balloon at this turning point is the diastolic pressure of the finger artery. Value, so that the sensor can measure the arterial pressure while measuring heart rate and oxygen saturation.
  • the fingertip sensor tip is a set of percutaneous blood oxygen concentration monitoring sensors, including a thermostat and an oxygen electrode.
  • the thermostat is heated to a set value and then thermostated.
  • the oxygen molecules in the tissue are released due to the increase of temperature, and the molecular concentration is a function of the blood oxygen concentration of the arteries.
  • the oxygen molecules are used for the oxygen measuring electrode, an oxidation reaction occurs with the molecules on the surface of the electrode, and this reaction is generated on the surface of the electrode.
  • the micro-current and the current value are a function of the blood oxygen concentration.
  • the mobile phone with health monitoring and feedback therapy function includes a casing and a display screen, and the so-called display screen 2 is directly connected to the casing 1 through a line.
  • the inside of the casing 1 is connected by the USB connector; the left and right sides of the casing 1 are respectively metal plates 5 and 6 as two electrodes; the battery 1 is provided with a rechargeable battery 3, a circuit board 4 and a USB plug.

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  • Health & Medical Sciences (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Physics & Mathematics (AREA)
  • Animal Behavior & Ethology (AREA)
  • Public Health (AREA)
  • Pathology (AREA)
  • Engineering & Computer Science (AREA)
  • Biomedical Technology (AREA)
  • Heart & Thoracic Surgery (AREA)
  • Medical Informatics (AREA)
  • Molecular Biology (AREA)
  • Surgery (AREA)
  • Veterinary Medicine (AREA)
  • General Health & Medical Sciences (AREA)
  • Biophysics (AREA)
  • Cardiology (AREA)
  • Physiology (AREA)
  • Psychiatry (AREA)
  • Psychology (AREA)
  • Pulmonology (AREA)
  • Spectroscopy & Molecular Physics (AREA)
  • Optics & Photonics (AREA)
  • Measuring And Recording Apparatus For Diagnosis (AREA)
  • Measuring Pulse, Heart Rate, Blood Pressure Or Blood Flow (AREA)

Abstract

Provided is a mobile phone having a health-monitoring and feedback treatment function; the display screen (2) of said mobile phone is directly connected to a housing (1), or is connected to and inlaid in the housing (1) by means of a USB connector; the left and right outer sides of the housing (1) are metal panels (5, 6), which serve as two electrodes; the housing (1) is internally provided with a rechargeable battery (3), a circuit board (4), and a USB plug (9); the bottom of the housing (1) is provided with a USB jack (10), and the exterior is provided with a set of function buttons (8), an earphone jack (7), and a spare jack (11); externally connected are a headset sensor (12) and an integrated finger sensor (15); the back side of the housing (1) is provided with a camera Y and a multi-wavelength light emitter X; the mobile phone is small, lightweight, and multi-purpose, has such functions as for the collection, processing, display, and transmission of life and health data, and predicts in real time several important health data concerning the human body, such as heartbeat, heart rate, cardiac rhythm, brain function state, blood oxygen saturation and blood oxygen concentration, breathing frequency, fingertip temperature, finger arterial pressure, and lung function; at the same time, it adjusts and treats some organ functions, and is used for individuals, families, community medical stations, hospitals, and emergency centers of all levels.

Description

一种具有健康监护及反馈治疗功能的手机Mobile phone with health monitoring and feedback therapy
本申请要求于2015年12月30日提交中国专利局、申请号为CN201521110632.X、名称为“一种具有健康监护及反馈治疗功能的手机”的中国专利申请的优先权,其全部内容通过引用结合在本申请中。This application claims priority to Chinese patent application filed on Dec. 30, 2015, with the application number CN201521110632.X, entitled "A mobile phone with health monitoring and feedback therapy functions", the entire contents of which are incorporated by reference. Combined in this application.
技术领域Technical field
本申请属于生命科学人体健康监测用医疗器械技术领域,具体涉及一种具有健康监护及反馈治疗功能的手机。The present application belongs to the technical field of medical device for life science human health monitoring, and particularly relates to a mobile phone with health monitoring and feedback therapy functions.
背景技术Background technique
众所周知,临床上体温、血压、心率、心电、脑电、血氧饱和度等数据是人体机能活动的客观反映,是判断身体健康状态的基本依据和重要指标。这些生命体征的基本数据,不仅医院里医护人员需要掌握,而且出院后的患者本人与其家属以及护理人员,同样需要了解与掌握。可是,目前国内外现状:有关上述生命指标都只有在医院手术室或监护病房内才能够监测到,即只在于满足医院的医护需要,而不能惠及社会上的需求。这样,大量的老年人和需要院外或家中看护的病人便无法得到足够的监护和及时的治疗,更有一些不够住院指标确需要监护的病人在家中和工作岗位上冒险维持生活,故存在着普遍的安全隐患。除上述病人和中老年人外,随着人们生活水平的提高,有些爱好运动的青年人,虽然没有发现疾病但存在 隐患,为了保障身体健康,也有随时进行自主监测之要求。为此,近年来国内外专家都在致力于研发一些便于携带的小型健康监护仪器。It is well known that clinical data such as body temperature, blood pressure, heart rate, ECG, EEG, and oxygen saturation are objective reflections of human physical activity and are the basic basis and important indicators for judging physical health. The basic data of these vital signs are not only required by the medical staff in the hospital, but also the patients themselves after discharge and their families and nursing staff need to understand and master. However, the current status quo at home and abroad: The above-mentioned life indicators can only be monitored in the hospital operating room or in the intensive care unit, that is, only to meet the medical needs of the hospital, but not to meet the needs of the society. In this way, a large number of elderly people and patients who need out-of-hospital or home care can not get adequate supervision and timely treatment, and there are some patients who do not need hospitalization indicators and need to be supervised to take risks in their homes and jobs. Security risks. In addition to the above-mentioned patients and middle-aged and elderly people, with the improvement of people's living standards, some young people who are sporty, although there is no disease, but exist Hidden dangers, in order to protect the health of the body, there are also requirements for independent monitoring at any time. To this end, in recent years, domestic and foreign experts are working on the development of small portable health monitoring instruments.
例如,中国专利CN201310124629公告的“一种远程健康监护手表”,CN201120073585公告的“一种可佩戴式无线生命信息装置”,CN201310238024公告的“基于穿戴式传感器的老年人健康监护背心”,它们分别是利用腕带、头带、背带、腰带以及背心等采集人体信息,通过移动通讯网络系统以及中心处理器、终端显示器等提供脉搏、血压、心率、体温等数据,使位于终端的人们随时能看到相关资料,明了该人的生命及健康状态,满足当前人们对体征参数监护的需求。它们的共同缺陷,不仅在信息采集方面存在有不便,而且对体征参数也存在着局限性,即每一种装置都只能提供一两项或两三项技术参数,故仍无法满足实际需要。再如苹果公司的IWATCH,只能被动监测计步器和脉搏数,苹果IPHONE6上有一个健康软件,但是不能采集心电图、脑电图、血氧、血压等医生可用的生命体征的实时数据,也只能通过记步器信息粗估计运动量,只是个健康的概念,不能提供医院可用的健康监测指标。市场上也有带CRT或LCD屏的便携式监护仪,但体积庞大,不便于被检测人员的携带。近年来,人们普遍注意到手机功能的开发利用,固有设想利用智能手机作为人体信息监测终端的信息公开。例如CN103347078A公开的“基于安卓手机系统的家庭健康监护的方法”,CN103462598A公开的“一种基于智能手机的人体信息监测终端及监测方法”,它们都是从概念上扩大了现有手机的功能,或者说从总体上给出了实现利用手机作为人体信息监测终端的可能性或方 法,但是尚没有实现这种方法的具体技术措施,因此还不能落实到产品上,即还无法将这些技术作为监测人体生命体征信息的仪器设备使用。For example, "a remote health monitoring watch" announced by the Chinese patent CN201310124629, "a wearable wireless life information device" announced by CN201120073585, "wearing sensor based elderly health monitoring vest" announced by CN201310238024, respectively Use wristbands, headbands, straps, belts, and vests to collect body information, and provide data such as pulse, blood pressure, heart rate, and body temperature through mobile communication network systems, central processors, and terminal monitors, so that people at the terminal can see them at any time. Relevant information, to understand the person's life and health status, to meet the current needs of people to monitor the physical parameters. Their common defects are not only inconvenient in information collection, but also have limitations on the parameters of the physical signs. That is, each device can only provide one or two or three technical parameters, so it still cannot meet the actual needs. Another example is Apple's IWATCH, which can only passively monitor the pedometer and pulse rate. There is a health software on Apple IPHONE6, but it can't collect real-time data of vital signs available to doctors such as ECG, EEG, blood oxygen, blood pressure, etc. The amount of exercise can only be roughly estimated by the pedometer information. It is only a healthy concept and cannot provide health monitoring indicators available to the hospital. There are also portable monitors with CRT or LCD screens on the market, but they are bulky and are not easy to carry by the inspectors. In recent years, people have generally noticed the development and utilization of mobile phone functions, and it is inherently envisaged to use smart phones as information disclosure of human body information monitoring terminals. For example, CN103347078A discloses a "home health monitoring method based on Android mobile phone system", "a smart phone-based human body information monitoring terminal and monitoring method" disclosed in CN103462598A, which all conceptually expand the functions of existing mobile phones. Or, in general, the possibility or the way to realize the use of the mobile phone as a human body information monitoring terminal is given. Law, but there are no specific technical measures to achieve this method, so it can not be implemented on the product, that is, these technologies cannot be used as instruments for monitoring vital signs of human body.
发明内容Summary of the invention
本申请的目的是,提供一种具有健康监护及反馈治疗功能的手机,它小型轻便、一机多用,通过信息采集、处理、存储、显示及通讯功能,同时可以实时预报人体心电图、心率、心律、脑电图、血氧饱和度、指端血氧浓度、呼吸频率、指端温度、指动脉压、肺功能等多项重要健康数据,并且能根据测试数据制定出相应的调整方案,发出电信号通过传感器进行远程和/或近程调整治疗,尽可能使人体恢复健康,减少猝死发生率。The purpose of the application is to provide a mobile phone with health monitoring and feedback therapy function, which is small and light, multi-purpose, and can simultaneously predict human electrocardiogram, heart rate and heart rate through information collection, processing, storage, display and communication functions. , EEG, blood oxygen saturation, fingertip blood oxygen concentration, respiratory rate, fingertip temperature, finger arterial pressure, lung function and other important health data, and can make corresponding adjustment plans based on test data, send electricity The signal is remotely and/or closely adjusted by the sensor to restore the health of the human body and reduce the incidence of sudden death.
本申请提供一种具有健康监护及反馈治疗功能的手机,其包括机壳和显示屏,显示屏通过线路直接与机壳联接,或者通过USB接插件与机壳联接镶嵌其内;机壳外左右两侧分别为金属板,并将所述金属板作为两个电极;在机壳内设有充电电池、线路板和USB插头;在机壳的外正面下部及侧面或显示屏上设有功能键组,底部设有USB插孔,两侧面分别设有耳机插孔和备用插孔;而耳麦传感器通过耳机插孔与USB插孔连接,集成指套式传感器与备用插孔连接;此外,在机壳的背面孔洞内设有多波长摄像头Y,摄像头Y的侧面装有多波长光发射器X和参数校正器Z;肺功能检测器与USB插孔联接。The application provides a mobile phone with health monitoring and feedback therapy function, which comprises a casing and a display screen, and the display screen is directly connected to the casing through a line, or is embedded in the casing through a USB connector; The two sides are respectively a metal plate, and the metal plate is used as two electrodes; a rechargeable battery, a circuit board and a USB plug are arranged in the casing; and a function key is arranged on the outer front side and the side of the casing or on the display screen The group has a USB jack at the bottom, and a headphone jack and a spare jack respectively on the two sides; and the headset sensor is connected to the USB jack through the headphone jack, and the integrated finger-type sensor is connected with the spare jack; A multi-wavelength camera Y is disposed in the back hole of the shell, and a multi-wavelength light emitter X and a parameter corrector Z are mounted on the side of the camera Y; the lung function detector is coupled to the USB jack.
所述显示屏有两种模式:其一,当显示屏直接与机壳连接时为普通模式;其二,当显示屏通过USB接插件与机壳联接镶嵌其内时为智能手机模式。 The display has two modes: one, when the display is directly connected to the case, the normal mode; and the other, when the display is connected to the chassis through the USB connector, it is in the smart phone mode.
所述线路板上布设有工作模块,所述工作模块被配置成能够完成人体生理信息采集、信号放大、信号调理、A/D模数转换、MCU中央处理的模块,即所述工作模块包括人体信息采集输入模块、放大电路模块、信号调理电路模块、A/D模数转换模块、MCU中央处理模块,这些模块可在一个集成板上完成;所述线路板上还设有通用通话工作模块,其包括麦克风、扬声器,以及蓝牙模块、网络传输模块、存储器与微气泵伐系统、参数效正器Z,并组成电路工作系统。A working module is disposed on the circuit board, and the working module is configured to perform a module for human body physiological information collection, signal amplification, signal conditioning, A/D analog-to-digital conversion, and MCU central processing, that is, the working module includes a human body. Information acquisition input module, amplification circuit module, signal conditioning circuit module, A/D analog-to-digital conversion module, MCU central processing module, these modules can be completed on one integrated board; the circuit board also has a universal call working module, It includes a microphone, a speaker, and a Bluetooth module, a network transmission module, a memory and a micro gas pumping system, a parameter effector Z, and constitutes a circuit working system.
所述功能键组包括急求拨号呼救键、远传启动键盘、紧急呼叫键盘、开或关屏键、单次测量与连续动态转换键、呼叫键、充电键、工作开关键。The function key group includes a call for emergency call, a remote start keyboard, an emergency call keyboard, an on or off button, a single measurement and continuous dynamic conversion button, a call button, a charging button, and a work opening key.
所述耳麦传感器是在耳机支撑架上并接着脑电极的简易脑电帽,基本电极有右耳电极、左耳电极、左颞脑电电极、右颞脑电电极、顶电极,并通过多芯耳机柔性电缆汇集到耳机插头。The headset sensor is a simple brain electric cap on the earphone support frame and then the brain electrode, and the basic electrode has a right ear electrode, a left ear electrode, a left camphor electric electrode, a right camphor electric electrode, a top electrode, and a multi-core The headphone flexible cable is integrated into the headphone plug.
所述集成指套式传感器是一个由弹性绝缘材料制成的扁型弹性指套架,其上镶嵌有指动脉压气囊、气体导管、光电发射管、光强检测器、皮肤温度传感器、检测值校正传感觉器、皮血氧浓度监测传感器,并通过多芯柔性导线排汇集到指套传感器插头,且指套传感器插头与机壳的外左右两侧的金属板这两个电极连接。The integrated finger-type sensor is a flat elastic finger sleeve made of elastic insulating material, which is embedded with a finger artery pressure balloon, a gas conduit, a photo-emission tube, a light intensity detector, a skin temperature sensor, and a detection value. The sensor sensor and the skin blood oxygen concentration monitoring sensor are corrected, and are collected by the multi-core flexible wire row to the finger sleeve sensor plug, and the finger sleeve sensor plug is connected with the two electrodes of the outer left and right sides of the casing.
所述肺功能检测器由口腔管、管式气流传感器支架、活瓣膜、压力传感觉器、叶轮式光电气流传感器以及同时与压力传感器导线和气流脉冲传感导线相连接的数字化处理模块构成,数字化处理模块的前端是USB数据插头。 The pulmonary function detector is composed of an oral tube, a tubular airflow sensor bracket, a valve, a pressure sensor, an impeller type photoelectric flow sensor, and a digital processing module connected to the pressure sensor wire and the airflow pulse sensing wire at the same time, digitized. The front end of the processing module is a USB data plug.
本申请有两种产品模式:一种模式是常规式,即它是一个独立手机;另一种模式是组合式,即它是将智能手机镶嵌在充电背壳内。前者,电路和显示集于一体,成本较高;后者,电路集于充电背壳,而显示利用现有手机,可节约成本。其工作原理是:利用机壳表面与机壳外接的两个传感器及特制摄像头等采集人体生命信号,通过电路转换处理并存储,利用功能键组盘于显示屏显示相应结果及/或传送相关数据。其中包括:心电图、心率、心律、脑电图、血氧饱和度、指端血氧浓度、呼吸频率、指端温度、耳内温度、指动脉压、肺功能检测等。分述如下:There are two product modes in this application: one mode is conventional, that is, it is a stand-alone phone; the other mode is a combination, that is, it is embedded in the charging back case. The former, the circuit and the display are integrated, and the cost is high; the latter, the circuit is integrated in the charging back shell, and the display uses the existing mobile phone, which can save cost. The working principle is: collecting the life signal of the human body by using two sensors connected to the surface of the casing and the external camera, and processing the human life signal through the circuit conversion, and displaying the corresponding result and/or transmitting the relevant data by using the function key group disk on the display screen. . These include: electrocardiogram, heart rate, heart rate, electroencephalogram, blood oxygen saturation, fingertip blood oxygen concentration, respiratory rate, fingertip temperature, ear temperature, finger arterial pressure, lung function test, etc. The description is as follows:
1)心电图测量原理:机壳两侧的金属板是左右手的两个电极,与右耳电极、左耳电极分别作为心电电极的RA、LA、RL、LL电极使用。在医院监护仪上LL、RL应该装在左、右下肢方向才标准,但经实验证明右耳电极、左耳电极两个电极是等等电位点,在测量标准I导联时心电图结果没有显著差异,不影响健康监测的使用。1) Electrocardiogram measurement principle: The metal plates on both sides of the casing are the two electrodes of the left and right hands, and the right ear electrode and the left ear electrode are used as the RA, LA, RL, and LL electrodes of the electrocardiographic electrode, respectively. On the hospital monitor, LL and RL should be installed in the left and right lower limbs. However, it has been proved by experiments that the two electrodes of the right ear electrode and the left ear electrode are equal potential points. The ECG results are not significant when measuring the standard I lead. Differences do not affect the use of health monitoring.
2)呼吸测量原理:从工作过程与心电图测试所用的电极,通过软硬件提取出随电搏变化电极间的阻抗值,即可计算出呼吸频率等参数。2) Respiratory measurement principle: From the working process and the electrode used in the electrocardiogram test, the impedance value between the electrodes with the electrical impulse change is extracted by the software and hardware, and the parameters such as the respiratory rate can be calculated.
3)机芯自带X与Y自动血氧与脉波原理:此功能是机芯自带的脉搏数与血氧饱和度测量装置,当手指按在X与Y上面时,这些指标就会在手机显示出来。其工作原理是:当×按MCU指令轮流发出不同的波长的光,Y在MCU指令控制下同步接受不同波长的光强并且变成电信号分类采集并存储,根据氧和血红蛋白与还原血红蛋白对不同波长光的吸收率变化运算可得出血氧饱和度值,同时根据因脉波变化引起的光强波动峰值检测出脉波次数。机芯中的参数校正装置用于校正干扰因素对测量值的影响。这个 全波长光电传感器平时可做摄像头实现彩色摄像头功能。另外,这个X还可以选择性地发出白光波长时可做照明用,选择性地发出特定色的闪光报警信号,以便求救时使用。3) The movement comes with X and Y automatic blood oxygen and pulse wave principle: This function is the pulse rate and blood oxygen saturation measuring device that comes with the movement. When the finger is pressed on X and Y, these indicators will be The phone shows up. The working principle is: when × according to the MCU instruction, different wavelengths of light are emitted in turn, Y synchronously accepts the light intensity of different wavelengths under the control of the MCU command and becomes an electrical signal classification acquisition and storage, according to the difference between oxygen and hemoglobin and reduced hemoglobin. The change of the absorption rate of the wavelength light can obtain the value of the blood oxygen saturation, and the number of pulse waves is detected according to the peak of the light intensity fluctuation caused by the pulse wave change. The parameter correction device in the movement is used to correct the influence of the interference factor on the measured value. This one The full-wavelength photoelectric sensor can be used as a camera to realize the color camera function. In addition, this X can also be used for illumination when selectively emitting white light wavelengths, selectively emitting a specific color flashing alarm signal for use in the rescue.
4)指套血氧饱和度和心率、心律的测量原理:当手指伸入指套式传感器中后,双波长发光管在MCU控制下使其交替发出双波长光,光透过手指前端被光电接收管接收,其光强信号强弱随着脉搏搏动转换成与之相一致的搏动性电信号,通过电极输出、输入插头送入放大器中先进行预放大,经放大器初步放大的电信号再送入信号调理器,在MCU的指挥下进行数据调理再送入A/D模数转换器中进行模数转换,然后再将数字量信号送入MCU进行运算,即可以得出脉搏频率值HR。最后根据氧合血红蛋白与非氧合血红蛋白对双波长光吸收率的变化算出血氧饱和度值SPO2。4) Measuring the oxygen saturation and heart rate, heart rate measurement principle: When the finger is inserted into the finger-type sensor, the dual-wavelength light-emitting tube alternately emits dual-wavelength light under the control of the MCU, and the light is transmitted through the front end of the finger. Receiving tube receiving, the intensity of the light intensity signal is converted into a pulsating electric signal consistent with the pulse pulsation, and is pre-amplified by the electrode output and the input plug into the amplifier, and then the electric signal preliminarily amplified by the amplifier is sent again. The signal conditioner performs data conditioning under the command of the MCU and then sends it to the A/D analog-to-digital converter for analog-to-digital conversion, and then sends the digital signal to the MCU for calculation, that is, the pulse frequency value HR can be obtained. Finally, the blood oxygen saturation value SPO2 was calculated from the change of the two-wavelength light absorption rate of oxyhemoglobin and non-oxyhemoglobin.
5)指尖温度的测量原理:温度传感器上面的温敏元件输出的电信号水平与其所接触的皮肤温度成线性关系,输出的电信号通过电极输出、输入插头送入相对应的放大器进行初步放大,再经过输入插头完成数据调理后送给模数转换器完成A/D转换,MCU对其数字信号按程序规则进行运算,得出指头温度值供临床参考。其意义在于指头的温度能最有效的反应微循环状态,同时在一定条件下其与体温呈函数关系,间接推算出体温数值。5) The principle of measuring the temperature of the fingertip: the electrical signal level outputted by the temperature sensitive element above the temperature sensor is linear with the temperature of the skin it is in contact with. The output electrical signal is amplified by the electrode output and the input plug is sent to the corresponding amplifier for preliminary amplification. After the data is processed through the input plug, it is sent to the analog-to-digital converter to complete the A/D conversion. The MCU calculates the digital signal according to the program rules, and obtains the temperature value of the finger for clinical reference. The significance is that the temperature of the finger can most effectively reflect the microcirculation state, and at a certain time, it has a function relationship with body temperature under certain conditions, and indirectly derives the body temperature value.
6)耳内温度的测量原理:12a与其12b的突起部分是侧温传感器,经过12f、12g和4a送入MCU,从而测得耳内温度。6) Measurement principle of temperature in the ear: The protruding portion of 12a and 12b is a side temperature sensor, which is sent to the MCU through 12f, 12g and 4a, thereby measuring the temperature in the ear.
7)指动脉压测量原理:如需测量指动脉压力,通过键盘启动MCU,MCU执行对气泵的充气和放气工作,平时光电发射管发光,光强检测器接收到随脉搏搏动张度一至的光强信号转换成电信号。充气时其压力值被压 力传感器转换成电信号,经接口和输入插头送到放大器放大,信号调理器在MCU的程序控制下进一步放大并送到模数转换器完成A/D转换,再通过MCU计算出压力值。在冲气与放气的过程中根据成熟技术记录柯氏音变化特点即可测量出指动脉的收缩压及舒张压。这里,在充气过程中,当压力值达到等于并大于指动脉压的界点时,放在气囊远端指头部位的光电接收器收到的电信号停止搏动,此时的压力值是指动脉压收缩压值。在放气过程中,当气囊内压力达到等于并小于指动脉压的界点时,光电接收器接收到的电信号开始由小到大地随着指动脉搏动而搏动,这个开始搏动点的压力值也是指动脉收缩压值,当放气使气囊内压力等于指动脉舒张压时,此时光电接收器所接收到的波幅达到最大值,这个转折点的气囊内压力值即是该指动脉的舒张压值,这样这个传感器在测心率及血氧饱和度的同时,还可测得指动脉压力。其意义:指动脉压直接反应手指供血情况,间接反应末端微循环情况,指动脉压与血压值有一定的函数关系,可据此与检测值校正传感觉器所测得的校正值通过MCU间接算出此人的血压值,用以指导临床实践。7) The principle of arterial pressure measurement: If the pressure of the finger artery is to be measured, the MCU is started by the keyboard, and the MCU performs the inflation and deflation work of the air pump. The photo-electric tube emits light normally, and the light intensity detector receives the pulse-pulsing degree as soon as it is received. The light intensity signal is converted into an electrical signal. The pressure value is pressed when inflated The force sensor is converted into an electrical signal, which is sent to the amplifier for amplification through the interface and the input plug. The signal conditioner is further amplified under the program control of the MCU and sent to the analog-to-digital converter for A/D conversion, and then the pressure value is calculated by the MCU. The systolic and diastolic pressures of the finger artery can be measured by recording the changes in Korotkoff sound according to the mature technique during the process of venting and deflation. Here, during the inflation process, when the pressure value reaches a point equal to or greater than the finger artery pressure point, the electrical signal received by the photoelectric receiver placed at the distal end of the balloon stops the pulsation, and the pressure value at this time refers to the arterial pressure. Systolic pressure value. During the deflation process, when the pressure in the balloon reaches a point equal to and less than the finger artery pressure, the electrical signal received by the photoreceptor begins to pulsate from small to large as the finger artery pulsates, and the pressure value at the beginning of the pulsation point It also refers to the value of arterial systolic pressure. When the deflation makes the pressure in the balloon equal to the diastolic pressure of the finger artery, the amplitude received by the photoelectric receiver reaches the maximum value. The pressure value in the balloon at this turning point is the diastolic pressure of the finger artery. Value, so that the sensor can measure the arterial pressure while measuring heart rate and oxygen saturation. Its significance: refers to the arterial pressure directly respond to the finger supply, indirect reaction microcirculation, the arterial pressure has a certain functional relationship with the blood pressure value, according to which the correction value measured by the sensory correction sensor can be indirectly through the MCU. Calculate the person's blood pressure value to guide clinical practice.
8)指端血氧浓度测量原理:指套传感器尖端是一组经皮血氧浓度监测传感器,包括恒温器和氧电极组成,当系统启动后恒温器加温到设定值后恒温,指尖组织中的氧分子因温度升高而游离出来,其分子浓度与动脉血氧浓度成函数关系,氧分子做用于氧测量电极时,与电极表面的分子产生氧化反应,这个反应在电极表面产生微电流,电流值的大小与血氧浓度呈函数关系,这时机壳左右两电极板作为常温下的参比电极使用,将皮血氧浓度监测传感器产生的微电流信号与参比电极信号通过接口送入放大器放 大,再经信号调理器进行数据调理,模式转换器进行A/D转换,然后由MCU运算出指端血氧浓度。其意义:此指尖动脉化处理后经皮测氧浓度接近动脉血氧浓度,供监护者及医院参考评估病人即时的氧代谢情况,如果正常人在运动后,或某种病因导至组织缺氧时会有显著变化,如在高压氧治疗时能发现血氧浓度比室外生活时高出27倍,而血氧饱和度只能显示最大值是100%。因此血氧浓度比血氧饱和度SPO2敏感,后者测量的是红细胞内血氧饱和度,只有当游离氧耗尽,红细胞的结合氧也不足时才有变化,所以比实际缺氧时间延迟表现。8) Fingertip blood oxygen concentration measurement principle: The fingertip sensor tip is a set of percutaneous blood oxygen concentration monitoring sensors, including a thermostat and an oxygen electrode. When the system is started, the thermostat is heated to a set value and then thermostated. The oxygen molecules in the tissue are released due to the increase of temperature, and the molecular concentration is a function of the blood oxygen concentration of the arteries. When the oxygen molecules are used for the oxygen measuring electrode, an oxidation reaction occurs with the molecules on the surface of the electrode, and this reaction is generated on the surface of the electrode. The micro-current and the current value are a function of the blood oxygen concentration. At this time, the left and right electrode plates of the casing are used as reference electrodes at normal temperature, and the micro-current signal and the reference electrode signal generated by the skin blood oxygen concentration monitoring sensor are passed. The interface is sent to the amplifier Large, and then through the signal conditioner for data conditioning, mode converter for A / D conversion, and then the MCU calculates the finger oxygen concentration. The significance: the percutaneous oxygen concentration of the fingertips is close to the arterial oxygen concentration, and the custodian and the hospital can evaluate the immediate oxygen metabolism of the patient. If the normal person is in motion, or a certain cause leads to the tissue deficiency There will be significant changes in oxygen. For example, in hyperbaric oxygen therapy, blood oxygen levels can be found to be 27 times higher than in outdoor life, while blood oxygen saturation can only show a maximum of 100%. Therefore, the blood oxygen concentration is more sensitive than the blood oxygen saturation SPO2. The latter measures the oxygen saturation in the red blood cells. Only when the free oxygen is depleted and the combined oxygen of the red blood cells is insufficient, the temperature is delayed compared with the actual hypoxia time. .
9)脑电图测量原理:耳麦传感器上镶嵌有与局部皮肤通过导电物质呈电性连接的多个生物电电极:基本电极有右耳电极、左耳电极、左颞脑电电极、右颞脑电电极和顶电极,利用其反映出的麦克风信号,用来完成一般的个人健康监护。此发明中,脑电专业监护的必要性况下可放8到16个电极,这里只提到5个电极,其电极采集的电信号通过耳麦插头被输入到机壳电路,电路板上的输入插座引入生物电信号后,进入相应的信号放大器预放,通过信号调理器按MCU的要求进行滤波放大处理送入模式转换器完成模拟数字转换,再经过MCU按程序设计要求提取出脑电信号及分析出脑功能状态显示到显示屏上。9) EEG measurement principle: The headset sensor is embedded with a plurality of bioelectric electrodes electrically connected to the local skin through a conductive substance: the basic electrode has a right ear electrode, a left ear electrode, a left temporal brain electric electrode, and a right camphor The electrical and top electrodes use the microphone signals they reflect to perform general personal health monitoring. In this invention, 8 to 16 electrodes can be placed under the necessity of professional monitoring of the electroencephalogram, and only 5 electrodes are mentioned here, and the electrical signals collected by the electrodes are input to the casing circuit through the headset plug, and the input on the circuit board. After the socket introduces the bioelectric signal, it enters the corresponding signal amplifier preamplifier, and the signal conditioner performs the filtering and amplification processing according to the requirements of the MCU, and sends the analog converter to the mode converter to complete the analog and digital conversion, and then extracts the EEG signal according to the programming requirements of the MCU. The brain function status is analyzed and displayed on the display.
10)头部脉冲自动发出脉冲刺激头皮特定穴位实现神经调节治疗的原理:当MCU接到发放电脉冲指令时,会发出脉冲信号反回到程控放大驱动放大器4s实现程控放大,放大后的电脉冲通过输入插座、耳机插头及柔性电缆返回到头部的几个输入电极,这时电极的任务是向身体发放电脉冲,这个过程也可通过类似蓝牙的无线联通来实现。 10) The head pulse automatically emits a pulse to stimulate the specific acupuncture points of the scalp to realize the principle of neuromodulation therapy: when the MCU receives the discharge pulse command, it will send a pulse signal back to the programmable amplifier to drive the amplifier 4s to realize program-controlled amplification, and the amplified electrical pulse. Returning to the input electrodes of the head through the input socket, earphone plug and flexible cable, the task of the electrode is to send a discharge pulse to the body. This process can also be realized by Bluetooth-like wireless communication.
11)通话工作系统,包括麦克风、扬声器、操作键盘以及蓝牙模块、网络传输模块等,它们在MCU的统一控制下完成一般性通讯工作,相当于手机功能,以确保人机对话。11) Call working system, including microphone, speaker, operating keyboard and Bluetooth module, network transmission module, etc., they complete the general communication work under the unified control of MCU, which is equivalent to the function of mobile phone to ensure man-machine dialogue.
12)肺功能检测原理:把一次性口管放入口中,当人体吸入或呼出气体时,气体经管式气流传感器支架流入肺内,气体流动过程中活瓣膜的微阻力作用使瓣膜两侧形成微压差,被压力传感器检测并转换成电压值,电压值与气体的流量和流速成函数关系,电压值经压力传感器导线送到数字化处理模块变成数字信号,再通过手机USB数据插头送入手机内部MCU,通过手机的相关程序计算后把肺功能参数显示在手机屏幕上。另一种检测形式是叶轮式光电气流传感器:当人吸入或呼出气体时,叶轮光电式气流传感器上的叶轮也会随着气体的流动而转动,安装在上的光电器件把气流速度转换成电脉冲信号,脉冲的频率与占空比与气流的强弱成函数关系,脉冲信号经气流脉冲传感导线送到数字化处理模块进行数字化处理,再通过手机USB数据插头送入手机内部MCU,通过手机的相关程序计算后把肺功能参数显示在手机屏幕上。上述两种方法同时配合使用时通过优势互补提高精度用于医疗检查,单独使用时可降低造价,满足家庭健监护与肺功能筛查。12) Principle of pulmonary function test: Put the disposable mouth tube into the mouth. When the human body inhales or exhales the gas, the gas flows into the lung through the tube air flow sensor bracket. The micro-resistance of the valve in the gas flow process makes the two sides of the valve form micro The pressure difference is detected by the pressure sensor and converted into a voltage value. The voltage value is a function of the flow rate and flow rate of the gas. The voltage value is sent to the digital processing module through the pressure sensor wire to become a digital signal, and then sent to the mobile phone through the USB data plug of the mobile phone. The internal MCU displays the lung function parameters on the screen of the mobile phone after calculation by the relevant program of the mobile phone. Another type of detection is an impeller-type photoelectric flow sensor: when a person inhales or exhales gas, the impeller on the impeller photoelectric flow sensor also rotates with the flow of the gas, and the photoelectric device mounted thereon converts the airflow speed into electricity. The pulse signal, the frequency of the pulse and the duty cycle are a function of the strength of the airflow. The pulse signal is sent to the digital processing module via the airflow pulse sensing wire for digital processing, and then sent to the internal MCU of the mobile phone through the USB data plug of the mobile phone, through the mobile phone. After the relevant program is calculated, the lung function parameters are displayed on the screen of the mobile phone. When the above two methods are used together at the same time, the precision is complemented by the advantages and complemented for medical examination, and the cost can be reduced when used alone, and the family health monitoring and lung function screening can be satisfied.
与现有技术相比,本申请提供的一种具有健康监护及反馈治疗功能的手机,虽说是手机,但却不是传统概念上的手机,虽然具有通话功能但主要不是为了接打电话。它的用途主要在于监测人体生命体征状况,为了救护生命,保障健康。它小型轻便,对应用人员来说,不分老少,无论病情轻重,只要是需要,都可以像手机一样人手一个带在身边;它一机多用, 只要持有它,即可同时实时预报人体的心电、心率、心律、脑电、血氧饱和度、指端血氧浓度、呼吸频率、指端温度、指动脉压、肺功能等多项生命体征数据。本仪器为解决个人及家人的健康监护问题,通知患者及时就诊提供了保障;并及时提供给医生可信赖的个人健康监护指标,有利于对病人的及时救治;必要时,还可通过呼救方式启动远传数据功能把数据通过无线网络送到远方的医护中心,以求得有关方面的及时救治。另外当病人检测完毕发现自己在亚健康状态时,可启动调整治疗程序,这个手机所设的部分信号输入传感器成了输出治疗调理信号的执行机构,当治疗结束后还可以再次检测自己的生理状态恢复的结果,以便决定下一部治疗方向,是自己调整还是去医院就医。Compared with the prior art, the mobile phone with health monitoring and feedback therapy function provided by the present application is a mobile phone, but it is not a traditional concept mobile phone. Although it has a call function, it is mainly not for making a call. Its purpose is mainly to monitor the vital signs of the human body, in order to save lives and protect health. It is small and light, for the application staff, no matter how old or young, no matter how serious the disease is, as long as it is needed, it can be carried around like a mobile phone; it is multi-purpose, As long as it is held, it can simultaneously predict the human body's ECG, heart rate, heart rate, EEG, blood oxygen saturation, fingertip oxygen concentration, respiratory rate, fingertip temperature, finger arterial pressure, lung function and many other life. Sign data. This instrument provides a guarantee for the health monitoring of individuals and family members, informs patients to provide timely medical treatment, and provides doctors with reliable personal health monitoring indicators in a timely manner, which is conducive to timely treatment of patients; if necessary, it can also be activated by calling for help. The remote data function sends the data to the remote medical center through the wireless network to obtain timely treatment of relevant parties. In addition, when the patient detects that he is in the sub-health state, he can start to adjust the treatment procedure. Some of the signal input sensors set by the mobile phone become the actuator for outputting the therapeutic conditioning signal, and can detect the physiological state again after the treatment is over. The result of the recovery, in order to determine the next direction of treatment, is to adjust or go to the hospital for medical treatment.
附图说明DRAWINGS
图1是本申请实施例提供的一种具有健康监护及反馈治疗功能的手机的内部立体结构示意图;1 is a schematic diagram of an internal three-dimensional structure of a mobile phone with a health monitoring and feedback therapy function according to an embodiment of the present application;
图2是图1所示的一种具有健康监护及反馈治疗功能的手机手机的后视结构示意图;2 is a rear view structural view of a mobile phone with a health monitoring and feedback therapy function shown in FIG. 1;
图3是图1所示的一种具有健康监护及反馈治疗功能的手机手机的的外部立体结构示意图;3 is a schematic external perspective view of a mobile phone with a health monitoring and feedback therapy function shown in FIG. 1;
图4是耳麦传感器的结构示意图;4 is a schematic structural view of a headset sensor;
图5是集成指套式传感器的结构示意图;Figure 5 is a schematic structural view of an integrated finger-type sensor;
图6是本申请实施例提供的一种具有健康监护及反馈治疗功能的手机的电气原理示意图; 6 is a schematic diagram of an electrical principle of a mobile phone with a health monitoring and feedback therapy function according to an embodiment of the present application;
图7是肺功能检测器的结构示意图。Figure 7 is a schematic view showing the structure of a pulmonary function detector.
图6中附图标记的说明:输入插座4a、耳麦插座4aa、输入插头4b、放大电路模块4c、信号调理电路模块4d、A/D模数转换模块4e、MCU 4f、键盘4g、USB接口4h、LCD显示屏4i、蓝牙模块4j、网络传输模块/键盘4K、存储器4I、气泵4m、POWER4n、手机工作模块4o、麦克风4p、扬声器4q、通话模块4r、程控放大驱动放大器4s;Description of the reference numerals in FIG. 6: input socket 4a, headset socket 4aa, input plug 4b, amplification circuit module 4c, signal conditioning circuit module 4d, A/D analog-to-digital conversion module 4e, MCU 4f, keyboard 4g, USB interface 4h , LCD display 4i, Bluetooth module 4j, network transmission module / keyboard 4K, memory 4I, air pump 4m, POWER4n, mobile phone working module 4o, microphone 4p, speaker 4q, call module 4r, programmable amplifier drive amplifier 4s;
图7中附图标记的说明:口腔管16a、管式气流传感器支架16b、活瓣膜16c、压力传感器16d、压力传感器导线16e、数字化处理模块16f、叶轮式光电气流传感器16g、气流脉冲传感导线16h、手机USB数据插头16i。Description of the reference numerals in Fig. 7: oral tube 16a, tubular air flow sensor holder 16b, flap 16c, pressure sensor 16d, pressure sensor lead 16e, digitization processing module 16f, impeller type photoelectric flow sensor 16g, airflow pulse sensing lead 16h, mobile phone USB data plug 16i.
具体实施方式detailed description
如图1、图2所示,本申请提供的一种具有健康监护及反馈治疗功能的手机,包括机壳和显示屏,其特征在于:所谓的显示屏2通过线路直接与机壳1联接,或者通过USB接插件与机壳1联接镶嵌其内;机壳1外左右两侧分别为金属板5、6作为两个电极;在机壳1内设有充电电池3、线路板4和USB插头9;在机壳外正面下部及侧面或显示屏上设有功能键组8,底部设有USB插孔10,两侧面分别设有耳机插孔7和备用插孔11;而耳麦传感器12通过耳机插孔7与USB插孔10连接,集成指套式传感器15与备用插孔11连接;另,在机壳1背面孔洞内设有多波长摄像头Y,摄像头Y的侧面装有多波长光发射器X和参数校正器Z。它们与摄像头Y内的 光接收器组成血氧饱和度、指端血液压力、心血管参数和指端微循环参数传感器组。As shown in FIG. 1 and FIG. 2 , the mobile phone with health monitoring and feedback therapy function includes a casing and a display screen, and the so-called display screen 2 is directly connected to the casing 1 through a line. Or the inside of the casing 1 is connected by the USB connector; the left and right sides of the casing 1 are respectively metal plates 5 and 6 as two electrodes; the battery 1 is provided with a rechargeable battery 3, a circuit board 4 and a USB plug. 9; a function key group 8 is arranged on the front lower part and the side or display screen of the outer casing, a USB jack 10 is arranged at the bottom, a headphone jack 7 and a spare jack 11 are respectively arranged on the two sides; and the headset sensor 12 passes through the earphone The jack 7 is connected to the USB jack 10, and the integrated finger-type sensor 15 is connected to the spare jack 11; in addition, a multi-wavelength camera Y is disposed in the back hole of the casing 1, and the side of the camera Y is equipped with a multi-wavelength light emitter. X and parameter corrector Z. They are inside the camera Y The light receiver constitutes a sensor group of blood oxygen saturation, fingertip blood pressure, cardiovascular parameters and fingertip microcirculation parameters.
如图6所示,这种具有健康监护及反馈治疗功能的手机,在其线路板4上布设有各种插头和工作模块,其中包括人体信息采集输入插头4b、放大电路模块4c、信号调理电路模块4d、A/D模数转换模块4e、MCU中央处理模块4f,并设有通用通话工作模块包括麦克风4p、扬声器4q,以及蓝牙模块4j、网络传输模块4K、存储器4I与微气泵4m,组成电路工作系统。As shown in FIG. 6, the mobile phone with health monitoring and feedback therapy functions is provided with various plugs and working modules on the circuit board 4, including a human body information collecting input plug 4b, an amplifying circuit module 4c, and a signal conditioning circuit. The module 4d, the A/D analog-to-digital conversion module 4e, the MCU central processing module 4f, and the universal call working module include a microphone 4p, a speaker 4q, and a Bluetooth module 4j, a network transmission module 4K, a memory 4I and a micro-pump 4m. Circuit working system.
如图1-3所示,该具有健康监护及反馈治疗功能的手机,其功能键组8包括急求拨号呼救键、远传启动键盘、紧急呼叫键盘、开或关屏键、单次测量与连续动态转换键、呼叫键、充电键、工作开关键等。这些功能键分布在机壳1的正面下部、底部及两侧。As shown in Figure 1-3, the mobile phone with health monitoring and feedback therapy function has a function key group 8 including a call for help, a remote start keyboard, an emergency call keyboard, an on or off button, and a single measurement and Continuous dynamic conversion button, call button, charging button, work switch key, etc. These function keys are distributed on the lower part, the bottom side and the both sides of the front side of the casing 1.
如图4所示,该具有健康监护及反馈治疗功能的手机,其耳麦传感器12是在耳机支撑架上并接着脑电极的简易脑电帽,基本电极有右耳电极12a、左耳电极12b、左颞脑电电极12c、右颞脑电电极12e、顶电极12d,并通过初级放大处理后变成数字信号通过多芯柔性电缆12f汇集到耳机插头12g。As shown in FIG. 4, the mobile phone with the health monitoring and feedback therapy function has a headset sensor 12 which is a simple brain electric cap on the earphone support frame and then a brain electrode. The basic electrode has a right ear electrode 12a and a left ear electrode 12b. The left sacral electric electrode 12c, the right sacral electric electrode 12e, and the top electrode 12d are integrated into the earphone plug 12g through the multi-core flexible cable 12f by the primary amplification processing.
如图5所示,该具有健康监护及反馈治疗功能的手机,其集成指套式传感器15是一个由弹性绝缘材料制成的扁型弹性指套架,其上镶嵌有指动脉压气囊15a、气体导管15b、光电发射管15c、光强检测器15d、皮肤温度传感器15e、检测值校正传感觉器15f、皮血氧浓度监测传感器15g,并通过多芯柔性导线排15h汇集到指套传感器插头,另,指套传感器插头并与机壳1外左右两侧的金属板5、6两个电极连接。当不插入此指套式传感器 15时,血氧饱和度与指动脉压的测量可自动切换到多波长摄像头Y与多波长发光组件X和参数效正传感器Z组成的传感器组测量方式。As shown in FIG. 5, the integrated fingerless sensor 15 of the mobile phone with health monitoring and feedback therapy function is a flat elastic finger sleeve made of elastic insulating material, and the finger artery pressure air bag 15a is embedded thereon. The gas conduit 15b, the photocathode 15c, the light intensity detector 15d, the skin temperature sensor 15e, the detected value correction sensor 15f, the cutaneous blood oxygen concentration monitoring sensor 15g, and are collected to the finger sleeve sensor plug through the multi-core flexible wire row 15h. In addition, the sensor plug is connected to the two electrodes of the metal plates 5 and 6 on the left and right sides of the casing 1. When this fingerless sensor is not inserted At 1500, the measurement of blood oxygen saturation and finger arterial pressure can be automatically switched to the sensor group measurement mode composed of the multi-wavelength camera Y and the multi-wavelength light-emitting component X and the parameter-effect positive sensor Z.
如图3所示,该具有健康监护及反馈治疗功能的手机,其显示屏2板面上设有显示区域和操作区域,其内设有显示器工作电路,该电路包括视频转换处理模块,其下部设有USB插孔以实现与机壳1插头9的插接。As shown in FIG. 3, the mobile phone with health monitoring and feedback therapy function has a display area and an operation area on the display panel 2, and a display working circuit is arranged therein, the circuit includes a video conversion processing module, and a lower part thereof A USB jack is provided to enable plugging with the plug 1 of the casing 1.
如图7所示,所谓的肺功能检测器,由口腔管16a、管式气流传感器支架16b、活瓣膜16c、压力传感觉器16d、叶轮式光电气流传感器16g以及同时与压力传感器导线16e和气流脉冲传感导线16h相连接的数字化处理模块16f构成,数字化处理模块16f前端是手机USB数据插头16i,以实现与手机USB插孔10的联接。除此而外,肺功能检测器也可以采用与手机的耳机插孔之连接方式。As shown in Fig. 7, the so-called pulmonary function detector is composed of an oral tube 16a, a tubular air flow sensor holder 16b, a valve 16c, a pressure transmitter 16d, an impeller type photoelectric flow sensor 16g, and a pressure sensor wire 16e and an air flow simultaneously. The digitizing processing module 16f is connected to the pulse sensing wire 16h, and the front end of the digitizing processing module 16f is a mobile phone USB data plug 16i to realize connection with the USB jack 10 of the mobile phone. In addition, the lung function detector can also be connected to the earphone jack of the mobile phone.
总之,图中结构表明,本申请提供的具有健康监护及反馈治疗功能的手机,本身及附件指套和耳麦是集成式复合式多功能生命健康传感器,具有生命健康数据处理、显示、储存、远传及健康自身调理功能,附带有与手机或急救中心实现音、视频呼叫、对话、现场声光电求救等功能。适用于个人、家庭、小区医疗站、医院及各级急救中心使用。 In summary, the structure in the figure indicates that the mobile phone with health monitoring and feedback therapy function provided by the present application itself and the accessory finger sleeve and the headset are integrated composite multifunctional life health sensors, which have life and health data processing, display, storage and far. The transmission and health self-regulation function is accompanied by functions such as audio, video call, dialogue, and live sound and light rescue with the mobile phone or emergency center. Applicable to individuals, families, community medical stations, hospitals and emergency centers at all levels.

Claims (7)

  1. 一种具有健康监护及反馈治疗功能的手机,其包括机壳(1)和显示屏(2),其特征在于,所述显示屏(2)通过线路直接与所述机壳(1)联接,或者通过USB接插件与所述机壳(1)联接镶嵌其内;所述机壳(1)的外左右两侧分别为金属板(5、6),并将其分别作为两个电极;在所述机壳(1)内设有充电电池(3)、线路板(4)和USB插头(9);在所述机壳(1)的外正面下部及侧面或所述显示屏(2)上设有功能键组(8),底部设有USB插孔(10),两侧面分别设有耳机插孔(7)和备用插孔(11);而耳麦传感器(12)通过所述耳机插孔(7)与所述USB插孔(10)连接,集成指套式传感器(15)与所述备用插孔(11)连接;此外,在所述机壳(1)的背面孔洞内设有多波长摄像头Y,所述摄像头Y的侧面装有多波长光发射器X和参数校正器Z;肺功能检测器(16)与所述USB插孔(10)联接。A mobile phone with a health monitoring and feedback therapy function, comprising a casing (1) and a display screen (2), characterized in that the display screen (2) is directly connected to the casing (1) through a line, Or inlaid into the casing (1) through a USB connector; the outer left and right sides of the casing (1) are respectively metal plates (5, 6), and respectively serve as two electrodes; The casing (1) is provided with a rechargeable battery (3), a circuit board (4) and a USB plug (9); at the lower front side and the side of the outer casing of the casing (1) or the display screen (2) There is a function key group (8), a USB jack (10) is arranged at the bottom, and a headphone jack (7) and a spare jack (11) are respectively arranged on the two sides; and the headset sensor (12) is inserted through the earphone a hole (7) connected to the USB jack (10), an integrated finger-type sensor (15) connected to the spare jack (11); and a hole in the back hole of the casing (1) The multi-wavelength camera Y is equipped with a multi-wavelength light emitter X and a parameter corrector Z on the side of the camera Y; a lung function detector (16) is coupled to the USB jack (10).
  2. 根据权利要求1所述的一种具有健康监护及反馈治疗功能的手机,其特征在于,所述显示屏(2)有两种模式:其一,当所述显示屏(2)通过线路直接与所述机壳(1)连接时为普通模式;其二,当所述显示屏(2)通过USB接插件与所述机壳(1)联接镶嵌其内时为智能手机模式。The mobile phone with health monitoring and feedback therapy function according to claim 1, wherein the display screen (2) has two modes: one, when the display screen (2) is directly connected through the line The casing (1) is in a normal mode when connected; and second, when the display screen (2) is inlaid with the casing (1) through a USB connector, it is in a smart phone mode.
  3. 根据权利要求1所述的一种具有健康监护及反馈治疗功能的手机,其特征在于,在所述线路板(4)上布设有工作模块,所述工作模块被配置成能够完成人体生理信息采集、信号放大、信号调理、A/D模数转换、MCU中央处理的模块;所述线路板(4)上还设有通用通话工作模块,其包括麦 克风、扬声器,以及蓝牙、网络传输模块、存储器与微气泵伐系统、参数效正器Z,并组成电路工作系统。The mobile phone with health monitoring and feedback therapy function according to claim 1, wherein a working module is arranged on the circuit board (4), and the working module is configured to complete human body physiological information collection. , signal amplification, signal conditioning, A/D analog-to-digital conversion, MCU central processing module; the circuit board (4) is also provided with a universal call working module, which includes Wind, speaker, and Bluetooth, network transmission module, memory and micro gas pumping system, parameter effector Z, and constitute a circuit working system.
  4. 根据权利要求1所述的一种具有健康监护及反馈治疗功能的手机,其特征在于,所述功能键组(8)包括急求拨号呼救键、远传启动键、紧急呼叫键盘、开或关屏键、单次测量与转换键、呼叫键、充电键、工作开关键。The mobile phone with health monitoring and feedback therapy function according to claim 1, wherein the function key group (8) comprises a call for a call, a remote start button, an emergency call keyboard, an on or off Screen key, single measurement and conversion button, call button, charging button, work switch key.
  5. 根据权利要求1所述的一种具有健康监护及反馈治疗功能的手机,其特征在于,所述耳麦传感器(12)是在耳机支撑架上并接着脑电极的简易脑电帽,基本电极有右耳电极(12a)、左耳电极(12b)、左颞脑电电极(12c)、右颞脑电电极(12e)、顶电极(12d),并通过多芯柔性电缆(12f)汇集到耳机插头(12g)。The mobile phone with health monitoring and feedback therapy function according to claim 1, wherein the headset sensor (12) is a simple brain electric cap on the earphone support frame and then the brain electrode, and the basic electrode has a right Ear electrode (12a), left ear electrode (12b), left sacral electrode (12c), right sacral electrode (12e), top electrode (12d), and assembled to earphone plug through multi-core flexible cable (12f) (12g).
  6. 根据权利要求1所述的一种具有健康监护及反馈治疗功能的手机,其特征在于,所述集成指套式传感器(15)是由弹性绝缘材料制成的扁型弹性指套架,其上镶嵌有指动脉压气囊(15a)、气体导管(15b)、光电发射管(15c)、光强检测器(15d)、皮肤温度传感器(15e)、检测值校正传感觉器(15f)、皮血氧浓度监测传感器(15g),并通过多芯柔性导线排(15h)汇集到指套传感器插头,且所述指套传感器插头与所述机壳(1)的外左右两侧的金属板(5、6)这两个电极连接。The mobile phone with health monitoring and feedback therapy function according to claim 1, wherein the integrated finger-type sensor (15) is a flat elastic finger sleeve made of elastic insulating material, on which Inlaid with aortic pressure airbag (15a), gas conduit (15b), photoinitiated tube (15c), light intensity detector (15d), skin temperature sensor (15e), detection value correction sensor (15f), blood An oxygen concentration monitoring sensor (15g) is assembled to the finger sleeve sensor plug through a multi-core flexible wire row (15h), and the finger sleeve sensor plug and the metal plate on the outer left and right sides of the casing (1) (5 , 6) The two electrodes are connected.
  7. 根据权利要求1所述的一种具有健康监护及反馈治疗功能的手机,其特征在于,所述肺功能检测器(16)由口腔管(16a)、管式气流传感器支架(16b)、活瓣膜(16c)、压力传感觉器(16d)、叶轮式光电气流传感器(16g)以及同时与压力传感器导线(16e)和气流脉冲传感导线(16h) 相连接的数字化处理模块(16f)构成,所述数字化处理模块(16f)的前端是USB数据插头(16i)。 The mobile phone with health monitoring and feedback therapy function according to claim 1, wherein the pulmonary function detector (16) comprises an oral tube (16a), a tubular air flow sensor holder (16b), and a valve (16c), pressure transmitter (16d), impeller photoelectric flow sensor (16g) and simultaneous pressure sensor wire (16e) and airflow pulse sensing wire (16h) The connected digitization processing module (16f) is constructed, and the front end of the digitization processing module (16f) is a USB data plug (16i).
PCT/CN2016/113530 2015-12-30 2016-12-30 Mobile phone having health-monitoring and feedback treatment function WO2017114489A1 (en)

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