TWM296027U - Smart physiology monitoring device - Google Patents

Description

M296027 VIII. New description: [New technical field] This creation is related to a kind of intelligent physiological monitoring device, especially a smart physiological monitoring device with four or more physiological signals. The second meter is portable and convenient. It is easy to carry and easy to use, and it has multiple functions. It can be used for multi-function, wireless transmission (4) and network connection to achieve home telemedicine. [Prior technology] & advances in technology's design and development of medical equipment is getting more and more refined, special = when you are sent to a medical institution, if necessary, you can monitor the patient's ^: value 'so in order to get instant patients Important physiological signals, medical P疋 or # emergency department, intensive care unit or a 笙 quot , , 丨 丨 丨 丨 丨 里 里 工 方 方 飞 飞 飞 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 一般 一般 一般 一般 一般 一般 一般 一般 一般 一般 一般 一般Function, its measurement function is mostly to measure the heart 10 electric graph, beer suction, temperature, blood pressure main 'and the measurement results directly displayed in the physiological monitoring device ΐ ΐ砚 : 1 : If necessary, the medical staff will record the measurement results.暮1, Guangli 1 measuring device monitoring 'medical staff can quickly watch the firefly: wide:: the state of the person, can also monitor the patient's state at any time, once found that the physiological signal value of f is abnormal, you can proceed Appropriate treatment, or the physiological monitoring device of the mouth P knife is provided with 憨: when the value of the signal is abnormal, it will send out a sweet report, doctor 3 =, when the patient's physiological abnormality, however, when the medical staff = personnel can immediately The patient law was found to hear the alarm and delay the timing of the treatment. When there is a nearby physiological person, it is possible that the physiological monitoring device has no function of measuring and displaying the M296027 result, and there is no peripheral connection for further ί: and the medical staff can only The measurement results are viewed on the screen, but not: the patient's physiological signal value is directly obtained from the withdrawal, or some medical institutions: in the ward: the camera is installed on the remote TV through the camera. Once the medical staff is not in the vicinity of the patient or is unable to pay attention to the shadow of the camera material at any time, it will face a situation in which the string cannot be timely and the situation is hidden, posing a hidden danger. ~ Sighing the advent of the aging society, in the past few years, the health photo 4 spears, the way has been (four) unified hospital bedside services, turned to discharge patient care to develop, many medical institutions or care centers actively promote telemedicine 2 Hope, many medical equipment can be used in home care, and then achieve: good long-range medical care. Therefore, the conventional physiological monitoring device is not suitable for telemedicine use because it has no peripheral input and output connection itch and cannot transmit the measurement result to the distal end. Therefore, how to make a physiological monitoring device suitable for telemedicine use is related to manufacturing. The industry must improve. “New Content】 μ In order to improve the above-mentioned defects, this creation provides a smart physiological monitoring device, especially a physiological monitoring device with four or more physiological signals, which is designed to be portable and easy to carry with handles. Carrying and using ρ and having multiple ports to increase its peripheral functions, and having a radio frequency identification system for secure data reading and writing actions, using physiological monitoring devices and system services that can be connected to the network, Through the network, computer and video system, the physiological signals and images can be transmitted to a remote health care professional, medical institution or care center, and the M296027 can be taken care of from afar. ^ ι ^目# #—的智慧型生理监测外μ' includes a handle and a display, the handle is disposed on the 钿 and the display is disposed on one side of the outer casing; a plurality of physiological value measuring modules, And carry out physiological value measurement; 〃 (4) contact electricity, "1^理器单7", which is related to the plurality of physiological values measuring mode; ? = receiving physiological number And the data processing, in addition, the central processing state controls the display early; ^ ^ 11, the connection: the field transmission " face connection 埠' is electrically connected to the central processor unit and used to transmit data; Lu Lianlin, the system and the central processor unit electrical value transmission; and! The biometric device transmits a physiological number to the radio frequency identification reader via the network, and is electrically connected to the central processing unit and is configured to take a data in a matching RFID tag. In the intelligent physiological monitoring device of the present invention, each of the physiological value measuring modules includes a sensing unit, a signal level/analog conversion unit, and a microcontroller unit, and the sensing unit is used; Physiological value measurement is carried out by the contact of the measured object and produces: = numerical signal, the song is singularly reserved - MA >; ~ Wang Lili electrical signal and signal processing ^ analog conversion is received earlier by the signal processing unit It is a digital signal, and the microcontroller unit receives and controls the digital M296027 signal, and the microcontroller unit is electrically connected to the central processing unit. Preferably, the plurality of physiological value measuring modules include a sensor measuring module, a temperature measuring module, an oximetry module, an electrocardiogram measuring module, a blood pressure measuring module and/or Or a vascular property assessment module. In a preferred embodiment, the sensing unit of the biosensor measuring module is a bio-sensing unit and is configured to contact a test strip, and the test strip is provided with a reaction zone and a conductive film in contact with the reaction zone. a layer, when a pyrite fluid is introduced into the test strip reaction zone, the biosensing unit is in contact with the membrane layer and electrochemically changes to transmit a signal, and the microcontroller unit calculates the received signal result. " ^ The sensing unit of the temperature measuring module can be a temperature sensing unit for measuring the temperature of a measured object and obtaining a corresponding temperature sensing signal, and the microcontroller unit receives the signal and A corresponding temperature is generated. Preferably, the temperature sensing unit can be an infrared sensor. In addition, the sensing unit of the oximetry module is a blood oxygen detecting probe, which emits a first-wavelength light source and a second-wavelength light source, and respectively operates the two-wavelength light source to illuminate the subject and converts it into Representing the blood oxygen concentration of the subject = the first electrical signal and the second electrical signal, and the microcontroller unit calculates the hemorrhagic oxygen concentration by the root and the second electrical signal, preferably, the blood The oxygen detecting probe is an infrared sensor, which comprises a light source and a light receiver, the light source is a light emitting diode emitting red light and infrared light, and the light receiver is a light one body, which converts the received light into a current. . In addition, the sensing unit of the electrocardiogram measuring module can be an ECG sensor, 7 M296027 is obtained by ECG sensor to obtain ECG data, and the sensing unit of the blood pressure measuring module is a pressure sensing unit, and the blood pressure measuring module The group further includes a thin bag in contact with the subject to be tested, wherein the pressure sensing unit is configured to detect the pulsation generated by the back pressure of each artery at each different pressure value of the thin bag during each period of pressure release, and Obtaining a pulse wave at each non-time point, and the microcontroller unit is used for controlling the inflation and deflation of the thin bag, and converting the pulsation obtained by the pressure sensing unit into a pressure signal, and processing the voltage signal to form A series of amplitude waves, and thereby determining a constriction and a relief pressure, preferably, the blood pressure measurement module further includes a motor for inflating and a deflating valve for deflating. The blood vessel characterization module may include a blood pressure measurement module and a blood milk measurement module for detecting an arterial pulse wave of the arm, and the hem measurement module is for detecting a finger. The arterial pulse wave, # receives the pulse wave signal from the central processing unit and calculates the time difference of the same pulse wave, and receives the distance between the two detection parts 'into (four) to obtain the blood vessel pulse wave velocity. In the smart physiological monitoring device described in this creation, the section is a broadband network or a telephone network transmission port, and the network is connected to the Internet or the Internet. In addition, the transport medium ϊ R or Rs 2 3 2 port 埠. In addition, a smart physiological monitoring device can further include - the single two = network unit is electrically connected to the central processing unit, thereby allowing the network route to be inserted early and directly connected via the wireless network. The intelligent physiological monitoring device including the above may further adopt a H-mode to electrically connect with the central processing unit and M296027 to read the barcode, and the barcode can store the data in the barcode for reading by the reader. The wireless signal module and the central processing unit two signal module of the present invention are obtained by means of a smart physiological monitoring device. The wireless signal module is a radio frequency module, a smart device, preferably, a physiological value. Transfer via wireless transmission: = face:: memory that can obtain the value, the record == used to store the result or parameter "Also, the memory is writable memory, and more preferably, the body is electronic The program can remove the stylized read-only memory (heart pr〇grammable read-〇nly mem〇ry? E£pR〇M) 〇^ The intelligent physiological monitoring device described above can further include a speech module ί = Electrically connected to the central processing unit, the design of the voice module can achieve the function of playing voice. In the case of the car, in the smart physiological monitoring device described in the present creation, the central Processor unit and the plurality of The numerical measurement module transmits data by the transmission protocol, and the transmission protocol is "Taid〇cBus". In the intelligent physiological monitoring device described in the present application, the central processing unit further includes - for controlling A display driving unit of the display, and the display can be used to display a charge-coupled device (CCD). More preferably, the display can include a touch panel. The intelligent physiological monitoring device described in the present application The housing further includes a button for pressing operation and/or a power socket, and the power socket M296027 is disposed on the side of the housing, so that the power socket can be plugged into the power socket or powered by the battery. In addition, the intelligent physiological monitoring device of the present invention further includes a backlight unit electrically connected to the processor unit and configured to provide a backlight function, thereby facilitating the user to be in a poor light environment. In use, the intelligent physiological monitoring device of the present invention can be used as a home care, a nursing home or a care center, not only The barcode reader reads the data in the barcode, and can also obtain the encrypted data through the RFID system. Furthermore, the intelligent physiological monitoring device of the creation has the function of surfing the Internet, so that the measurement can be performed without using a computer. The physiological data obtained directly from the physiological monitoring device is uploaded to the remote end via the network, which is convenient for home use. In addition, the creation also has the function of wireless transmission, so the data can be transmitted to the data receiving place via the wireless method, facilitating the medical staff or the caregiver. The physiological state of the user is monitored by the remote end. [Embodiment] Please refer to the first figure, which is a perspective view of the preferred embodiment of the present invention, and cooperates with the second figure, which is a preferred embodiment of the present invention. Functional Block Diagram 'The intelligent physiological monitoring device of the present invention comprises a casing (丄0), a plurality of physiological value measuring modules (20) and a central processing crying unit (80). The casing (10) has a handle (1i: a display (13) and at least one button (14). The handle (1) is connected to one end of the casing (10), preferably The handle (1 1 ) is disposed at an upper end of the outer take-up (10) for convenient gripping. The display (13) is disposed on one side of the outer casing (10), and the display (1 3) 10 The M296027 can be a touch display and can be used to display a charge-coupled device (CCD). The display (丄3) further includes a touch panel, and the button (i 4 ) is disposed on the outer casing. (丄〇7) and used to press into various measurement modes, which may include power supply pressing, measuring start button, stop control button, storage button, H force button or drop button, etc. The plurality of physiological values Each of the measurement modules (2 〇) includes a sensing unit (2 2 ), a signal processing unit (2 4 ), a digital 'analog conversion unit (26), and a microcontroller unit (MCU) (2 8). The sensing unit (2 2) is a unit for contacting or measuring the measured object, and The number is transmitted to the signal processing unit (2 4 and then processed by the signal processing unit (2 4) to the digital signal (analog conversion unit (26), and the digital/analog conversion unit (2 6 converts the analog signal to digital) The signal is transmitted to the microcontroller unit (2 8 ) to complete a single measurement module (2 〇 旦 旦. Several physiological value measurement modules (2 q Λ, the way of reconstruction) can be inserted (4) ^式:,! The central processing is the early (80) phase-connected communication. The 4th is the first picture of the 'the original creation' - the preferred embodiment, the plurality of physiological value measurement modules (2 1 4 Number 〇) ECG measurement module (, 6 〇), blood = 里 module (5 0), vascular property evaluation module (9 2 ). 9 reading group € 7 Q ) and / or the biosensor measurement The model fq 2), the signal county (^) includes a biosensing unit (3 〇X) or 70 3 4), and the digit/analog conversion unit U is controlled as early (3 8 ), the biosensor measurement mode The group (3 M296027 $ is used to measure the results of the biosensor 2) is used to contact the test strip (33), the test strip (3 3 ), the scoop, and the Ib The area is connected to the network and includes a reaction zone and a conductive film layer and the reaction: 4 code card (3 5 ) can store at least - group parameter value \ gate δ Λ is - the test paper is obtained after testing The parameter value of L Λ is suitable for operation. If the test paper (1) is inserted, the biosensing sheet A ( 3 2 ) can detect the electrochemical sputum produced by the test strip (3 3 ). 〇d" Han Ying Houyi, the 5 Hai reaction zone has specificity with the substance to be tested, such as enzymes, when the sample containing the substance to be tested reacts with the reaction; D: The signal is transmitted by the conductive film layer. In addition, the bio-sensing list = ... η can be used to insert the type of the card and transmit the micro-control 22, 8) ‘If the cipher card (3 5 ) is inserted, the cipher is micro-controlled 2. The inner=number is transmitted into the workmanship*(3 8 ) via the bio-sensing unit (3 2 ) for reading, judging or controlling, and the like. For example, the substance to be tested is blood sugar, and when the blood is dripped or after the capillary is sucked into the reaction zone towel, the current is changed after reacting with the enzyme of the reaction zone and other substances required for the anti-f reaction. After the biosensing (3 2 ) dereliction of duty, it is passed to the signal processing unit (3 4 ) for signal processing, and then converted by the digital/analog conversion unit (3 6 ) into a digital signal transmission to the microcontroller unit ( 3 8). The temperature measuring module (40) includes a temperature sensing unit (42), a signal processing unit (4 4), a digit, an analog conversion unit (46), and a controller unit (48). The temperature sensing unit (42) is configured to measure the temperature of the bifurcated object and obtain a corresponding temperature sensing signal. Preferably, the temperature sensing unit S(42) can be infrared sensing. And the temperature of the M296027::target, the temperature sensing unit (42) will be processed by the analog processing unit (44), and then the ratio of the signal = 3 ? Unit (46) will count after signal conversion. k to U controller single 70 ( 4 8 ). The temperature sensing unit (4 is intended to measure the temperature of the target #', such as the individual's skin, forehead or object 4, the temperature of the target can be detected.

The blood oxygen measurement module (5 〇 ) includes an oxygen detection probe (5 2 ), a signal processing unit it (54), a digital/analog conversion unit (5 6), and a single unit (5 8 ). The blood oxygen detecting probe (52) is used to measure the blood oxygen concentration by measuring the oxygenated hemoglobin in the finger vein and the three parts without oxygenated hemoglobin. The blood oxygen detecting probe (52) transmits the received signal to the processing unit (5 4 ) for signal processing and then to the digital/analog conversion unit (5 6 ), the digital/analog conversion unit (5 6 ) Converting the signal into a digital signal and transmitting it to the microcontroller unit (5 8 ), emitting a first-wavelength source and a second-wavelength source, and respectively operating the two-wavelength source to illuminate the subject and converting it into a representative test The first and second electrical signals corresponding to the blood oxygen concentration. Preferably, the blood oxygen detecting probe (52) is an infrared sensor, and includes a light source and a light receiver, and the light source part has red and infrared light emitting diodes, and the light emitting spectrum is red light. The peak value is _, and the peak value of infrared light is at a wavelength of 94Gnm, which can meet the wavelength requirement of the blood oxygen concentration measurement. The light receiver of the probe is a light diode, which converts the received light into a current. The photodiode should have a good linear response to the different wavelengths of light, from red to infrared. The subject's finger can open the blood oxygen detecting probe (5 2 ) and insert M296027. The microcontroller unit (5 8) is used for the light source of the helium, and according to the blood probe ((1), the blood oxygen concentration is calculated. Telegraph

The map measurement group (6〇) includes an ECG sensor (62), a heart-to-heart treatment (64), and a digital/analog wide J controller unit (68). The ECG sense, :(") and micro ECG signals and pass the signal to the signal processing list: 6 2 for measurement processing, and then the digit/analog conversion unit (6 6 ) transmits the number_bit signal to the microcontroller Unit (6 8 ) . , ° , is a number of measurements and f 7 Π > 4 k ίδϊ, i ^ signal processing unit (; 4 7, = pressure sensing unit (72), microcontroller unit (78 and conversion unit (76), f motor A gas valve ("). This repeated pressure is applied to each different pressure value per-arterial anti-factory production itd Π::::: rational unit (74) conversion The pulsation is performed by the digital/analog conversion unit (76), and finally output to the microcontroller unit (the second 'two micro controller unit (7 8 ) controls the motor, the factory...the gas' and the motor / coffee (79) control makes 丄 9 thin): 2 1 inflatable pressure and coffee pressure. When the user needs to carry blood pressure = 'that is, use a thin bag (η) set on the arm or wrist measurement. i = early ( 7 8) The digital signal obtained is formed into a series of amplitude waves: it is determined that one heart pressure reduction and one heart pressure relief. The vibration of the blood vessel characteristic evaluation module (9 2) The system includes an oximetry module (50) and a blood pressure measurement module (7〇). Since the vascular parameters are from the active 14 M296027

The pulse to the periphery is different white h g #垂lL - and the parameter f is large, and it is actually difficult to directly determine i. Therefore, the average speed of the pulse wave is generally measured. The vascular characteristics evaluation module (9 2 ) provided by this creation is through synchronous detection and collection of arms.

An effective method and apparatus for measuring the average pulse wave velocity by an arterial pulse signal and a finger artery signal. The X pulse wave velocity is calculated as the average velocity, ie —Λ/ i 37 where: the distance Δ1 is the actual distance between the two measured sites; and • the time difference between the arterial pulse waves at the two sites tested. The vascular characteristic evaluation module (9 2 ) utilizes the measurement principle of the arm artery _ finger vascular pulse wave velocity, and is used in the measurement of the arm artery pulse wave by using the blood pressure detecting technique and measuring the blood pressure at the same position in the arm. The pressure sensing unit (7 2 ) and the system program control, start measuring the blood vessel pulse wave, and measure the pulse wave by the photoplethysmography (PPG) technique in the measurement of the hand buckle arterial pulse wave. The blood oxygen _ Detective Detector (5 2 ), such as the infrared sensor (IRsensor), is placed on the finger part and the control of the system, and at the same time, the blood vessel pulse is measured and the pulse wave velocity is calculated. In this way, the original measuring device can be used to measure the pulse wave velocity, which not only achieves a multi-physiological value measurement function, but also does not require designing other measuring units, and can reduce the manufacturing cost. The PPG technique used in the finger arterial pulse wave is a penetrating light Z-shape obtained by infrared light entering the finger and absorbed or scattered by the tissue blood vessel. The change in blood flow is mainly determined by the expansion and relaxation of blood vessels caused by pulsating blood pressure waves. The blood pressure waveform is caused by the heartbeat synchronization, so the 15 M296027 light volume change description waveform can be used to detect each pulse. The infrared rays emitted by the transmissive sensing as 'LED (light emitting diode) pass through the finger tissue, and the signal is received by the lower detector. According to this principle, the pulse wave of the finger movement can be measured. Therefore, the pressure sensor is used to measure the pulse wave at the arm position and the position of the hand is detected by the infrared sensor, and the control and measurement functions are performed by the microcontroller unit, and the pulse signals respectively obtained are respectively performed. Analysis and timing calculations. Finally, the time difference between the arm measurement and the finger measurement position and the pulse wave travel is converted into the arm artery _ finger artery pulse wave velocity. PWV = Δ1 / At; A1 · hand # artery measurement site - the distance of the finger artery site; △ t · hand artery _ finger artery pulse wave time difference. The distance between a finger and the measuring part of the finger can be input into the physiological monitoring device of the creation by the measurement, or the physiological condition of the creation:: the f is further included with a distance measuring unit The distance between the early pressure (7 2 ) and the blood oxygen detecting probe (52) is automatically detected. The central processing unit (8 〇) receives the pulse wave measured by the oximetry module (5 i i ^ ^ measurement module (7 Q ), and counts: = time difference between jobs, and then by button (Η) Enter the distance between the P-bits of the two-in-one test port, or the distance between the two sensors to detect the amtra motion, which can be calculated from the # artery_finger arterial pulse wave velocity. Quantitative mode: 夕(卜处理器单*( 8 〇) is the signal input unit (8 0) that receives the physiological value measurement, and C 2 0) includes: 显干:理和和或或异异's central processing display driver Μ9〇=Γ] Γ^(9ϋ), by this & system display device (1 3 ). In addition, the physiological monitoring device created by M296027 - connection 8 (8 2 ), R s 2 = body (8 1 ), USB 槔 (8 4), network connection 妾埠 (妾埠 / 83), telephone connection wireless Signal module (87), barcode reader, (R"D) reader (89), backlight, radio frequency identification wireless network unit (94). Early (91) and / or the memory (8 1 Preferably, an a 圮 体 体 body (8 1 ) is used for storing complex 冩 冩 , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , (8 1) Read the memory for Ray mi (electricall,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,, MB connection 埠 (8 get the data to connect 璋 (8 3) into the connection line to transfer the measured physiological data to the computer, mobile phone, inside <» and telephone connection 埴Γ Q /, P DA or 苇Recording computer, etc. ^ r . R . 4 ) Providing a telephone network connection interface, the network (8 5 ) can provide a network connection... The transport interface (8 5 ) can be a thin line a. Preferably, the Network connection b) for the transmission network of the video network璋, I think that the WAN, the zone test, the network that can be used can be m-protocol or the Internet, and the other selected network protocol can be the transmission control protocol (the Tcp/i physiological monitoring system can be connected) : #1的疗院所或护理中心, compared to the = pass to the remote doctor can directly use __^^ $ 盘 Measure device 'The creative work of this creation is transmitted via the network, thereby, this Doctors P Department 4, Tushan Wan can also transfer data to the Western Hospital or the Center for Care through the computer. The wireless signal module (87) allows the measured measurement to be M296027 via the wireless signal mode signal. Module (8 7): 2; can omit the use of the transmission line 'The no or the blue bud to value the gum group or the RF module, can use the RF f to enter the peak' and achieve wireless transmission (4) When the physiological monitoring sound function i ===)± can increase the language of the physiological monitoring device, the field user is elderly, the eyesight may be poor, when there is voice: to help the elderly to measure Even if the user is not older, it is still convenient for the user to use. You don't need to look at the display ▲ stand ) 斤 员 员 不 不 不 不 不 不 不 不 不 不 不 不 不 不 不 不 不 不 不 不 不 不 不 不 不 不 不 不 不 不 不 不 不 不 不 不 不 不 不 不 不 不 不 不 不 不 不 不 不 不 不 不 不 不 不 不 不 不 不 不 不 不 不 不 不 不 不 不 不 不 不 不 不 不 不 不 不 不 不 不 不 不 不 不 不You can use the = to store the user's data in the barcode, and then use the (4) barcode reader (8 8) to read the barcode, you can get the user's poor material. When used in non-personal hospitals When the user uses the same-physiological monitoring device, the user needs to perform the user data. It is convenient to store and transmit the results learned by the test to the remote system to save time for the medical staff or the caregiver to input the data. Furthermore, the newly developed RFID identification system can also be applied to the physiological gamma measurement system of the present invention. The RF ID identification system includes an RF ID tag and a heart ID reader (8 9 ), and the data is stored in the RFTD tag. The RF ID reader (8 9 ) reads the data in the tag to achieve the equivalent of the barcode, and the storage capacity is larger than the barcode capacity. Therefore, the data that can be remembered is larger. In addition, RF j D can also be added to the authentication/encryption function, thus preventing the leakage of data. M296027 and the backlight single it (9 1) is associated with the central processing unit, and the intelligent physiological monitoring device backlight function allows the borrower to view the display (13). Moreover, it is more convenient for the elderly to use the wireless network unit (94) to be electrically connected to the central processing unit and to provide wireless Internet access function, thereby, the monitoring device can be directly connected via the wireless network, and the physiological The value, and the number are uploaded from the network to the remote end. = The central processor unit (80) communicates with a plurality of physiological value measurement modules: (20), and the physiological value measurement module (the result obtained by the measurement is processed by the central processing unit (8 Q)) On the display device (1 3 ), the transmission protocol of the central processing unit (sub-group 4 (2 Q) (four) system is used for the transmission of the material, and the content of the transmission agreement can be detailed in the application of Zhonghua Minli. The transmission agreement of the money 94128862, the transmission agreement "Taidoc Bus". The transmission protocol specification described by my horse is used for transmission between mastei (master device) and "π. (slave device), if it is under spi-based architecture The signal line that is transmitted by ϋ is shown in the following table.

' - ~ - -------L ~-____Slave____ MOSI (1⁄4 φ ) MOSI (transfer y

) One MCLK (transfer ^ M296027

Master—REQ# (output)—_Slave_CS# (input) MCLK=Master Clock (main clock) MOSI=Master Out Slave In (master output slave input)

MlS〇=Master In Slave Out M as ter—CS=Mas ter—Chip Select Master_REQ=Master—Request _ Slave—REQUave —Request (slave request)

Slave_CS = Slave_Chip Select The master and slave transmit data via the MCLK, MOSI, MISO, Slave_REQ, and Master_REQ signal lines. If the UART is the basic architecture, the signal lines used in the transport protocol are as follows:

Master Slave Master - Tx (Output) - Slave Rx (Input) Master - Rx (Input) - Slave Tx (Output) Slave - Busy (Input) - Slave Busy (Output) Master - CS# (Input) - Slave REQ# ( Output) Master_REQ# (round) -> Slave CS# (input) Master-Tx (master transmission) Slave-Rx (slave receiver) Master-Rx (master reception) M296027

Slave—Τχ (slave by the slave)

Slave—Busy (slave device is busy) Based on the UART architecture, the slave-REQ, Master REQ, and Slave-Busy signal lines are added to transmit data. The format of the packet data in the data transfer agreement is organized as follows. Byte 1 2 3 4 5 Direction Start Code (Start) Command Code (CMD) Data J) (Data 0) Data 1 (Data 1) Data 1 2 (Data 1 2) Stop Code Check Code (Data 3) (Stop) (Check Sum) Master - Master (Slave) Master (-Slave) 51 cmd cmd

Data

Data

Data 1

DataJ

Data 2

Data 3 A3 [1..7]

Data

Data [1..7] On the other hand, the casing (1 〇) further includes a system for inserting the power cord, whereby the physiological monitoring device 4 of the present invention can be connected to the power socket using a battery or a power cord. While providing power, when the pool is out of power and there is no new battery to replace, you can plug in the power cord and plug in two: the source socket can provide power, or conversely, when used outdoors, there is no power outlet. When the battery is placed, the battery can be powered. In summary, the intelligent physiological monitoring device of the present invention has the following advantages: 1. The intelligent physiological monitoring device of the present invention is made into a portable structure and can be conveniently carried and transported and can be used at home. The smart physiological monitoring device created by Furnace 7t has the function of Bluetooth module or m wireless transmission. Therefore, it is not necessary to use the transmission line to transfer the material to the computer, notebook computer, mobile phone or PDA, etc., not M296027 Convenient and suitable for home care use. 3. The intelligent physiological monitoring device of the creation has a dual power supply system with both DC and ML power supply, thereby providing power supply by using a battery or plugging a power cord to connect to a power outlet, which is convenient for the user. 4. The intelligent physiological monitoring device of the present invention has a plurality of ports, so that the thin bag, the blood oxygen detecting probe or the E CG sensor required for measurement can be measured through the connection of the connecting port. Therefore, it is convenient for the user to perform the measurement of the physiological value by inserting the appropriate detecting device by using the daily guard, and removing it without using the ^, which is convenient for collecting, and can avoid affecting the measurement of other devices. 5. The intelligent physiological monitoring device of this creation has a telephone connection port and a network connection data communication unit, so that data and results can be transmitted via the network to a remote medical institution or a care center without going through the computer. Then transfer the # material to the remote end to facilitate the transmission of data and achieve the purpose of fast transmission. One I can't use it as a means of detecting biological sensation: fruit, temperature measurement device, measuring blood oxygen, measuring electrocardiogram, and achieving double effect. Save money. 7. The intelligent physiological monitoring device of this creation has bar code and RF workers. Therefore, the bar code or RHD tag can store the result of the physiological value of the user and be worn on the user, so that the user can directly i The reader of the measuring device reads the barcode or rf, and the user can carry the personal data or the measurement historical data with the 22 M296027 ^Using it{ or urgently sending it to the medical institution or the nursing center that is not usually inspected. Read the user's data immediately and take appropriate treatment. In the 82nd, the intelligent physiological monitoring device created has the connection port of U S B, R S 2 3 2, etc., so it can be directly connected to the computer and transmit physiological values or plug in other information of the king to facilitate receiving other materials. . 9. The intelligent physiological monitoring device of the present invention has a voice module, so that it can be directly operated via voice and directly hear the detection result, thereby achieving the purpose of humanization. ^

::: Creation has been exposed as above in the preferred embodiment, but it is not ambiguous. Anyone who is familiar with this skill can make some changes and refinements without departing from the essence of this creation. Therefore, this creation Companion:; Although the scope of the patent application is subject to the definition of the patent application. [Simple description of the diagram] A stereoscopic diagram of the arrangement. Set the block diagram. Another preferred embodiment of the first picture is the intelligent physiological monitoring device of the present invention. The second picture is the intelligent physiological monitoring device of the creation. The third picture is a block diagram of the intelligent physiological monitoring device of the creation. [Main component symbol description] 1) Lifting 4) Button (1 0) housing ((1 3,) display ((2 0) physiological value measuring module (2 2 ) sensing unit (2 4 ) signal processing unit ( 2 6 ) Digital/analog conversion unit 23 M296027 (2 8 ) Microcontroller unit (30) Biosensor measurement module (3 2 ) Biosensing unit (3 3 ) Test strip (3 4 ) Signal processing unit (3 5) Password card (3 6 ) Digital/analog conversion unit (3 8 ) Microcontroller unit (40) Temperature measurement module (4 2 ) Temperature sensing unit (4 4 ) Signal processing unit (4 6 ) Digital/analog conversion unit (4 8) Microcontroller unit (50) Blood oxygen measurement module (5 2 ) Blood oxygen detection probe (5 4) Signal processing unit (5 6 ) Digital/analog conversion unit (5 8 Microcontroller unit (60) ECG measurement module (6 2 ) ECG sensor (6 4 ) Signal processing unit (6 6 ) Digital / analog conversion unit ( 6 8 ) Microcontroller unit (7 0 ) Blood pressure Measuring module (7 1 ) Thin bag (7 2 ) Pressure sensing unit (7 4 ) Signal processing unit (7 6 ) Digital/analog conversion unit (7 8 ) Microcontroller unit (7 9 ) Motor / bleed valve ( 8 0 ) Processor unit (8 1 ) memory (82) USB connection 83 (83) RS232 connection 埠 (8 4 ) telephone connection 埠 < 8 5) network connection 8 (8 6 ) voice module (8 7) wireless signal Module (8 8 ) Bar code reader (8 9 ) RFID reader (90) Display drive unit 24 M296027 (9 1 ) Backlight unit (9 2 ) Vascular characteristic evaluation module (9 4 ) Wireless network unit

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Claims (1)

M296027 IX. Scope of application: The physiology monitoring device of the 丄... type includes: a casing, which includes a handle that is attached to the other end of the casing, and is disposed at the front of the forehead ==:: : Measurement module for contact with the object under test a central processing unit group communicates and receives a physiological value unit to control the display; and the plurality of physiological value measurement modules are configured to perform data processing, and the central processing unit is configured to connect at least one transmission interface to the electrical connection for transmission Data; connection ί二::路连接埠's system and the central processor unit are estimated, and the riding physiological monitoring device transmits physiological values via the network; and ^ And the central processing unit and the central processing unit are electrically connected to read a matching RF identification standard RFID reader, and the RFID identifies the data in the reader. For example, the intelligent physiological monitoring device σ, eight in the first paragraph of the patent scope includes a sensing unit, a unit, a unit, a digital/analog conversion unit, and a micro Controller unit, . The sensation unit is used for physiological value measurement in contact with the subject to be measured and generates a "corresponding physiological value electrical signal". The signal processing unit receives the electric table and performs nickname processing, the digit/analog conversion The unit receives the signal processed by the signal = f unit and converts it into a digital signal, and the micro control unit receives and controls the digital signal, and the microcontroller unit 26 M296027 is electrically connected to the central processing unit. Jin i is the intelligent physiological monitoring device described in item 2 of the patent application scope, and the blood pressure measurement module and the electrocardiogram measurement blood pressure measurement module and the tube characteristic evaluation module. The intelligent physiological monitoring device described in item 3 of the patent scope, the sensing unit of the object sensor measuring module is a biological sensing single disk-conducting two:: test test paper, the test test paper is provided with a reaction zone And the area = layer contact 'when the analyte containing the analyte enters the test strip, the biosensing unit contacts the conductive layer and detects the electrochemical effect. The signal is transmitted by the microcontroller unit. Calculate the received signal, Α: The sensing unit of the intelligent physiological monitoring device measuring module described in Item 3 of the patent target is a temperature sensing unit, and its _R port is 70 早And produce a corresponding temperature. Set, A f υ利1 (1 surrounding the intelligent physiological monitoring device mentioned in item 5; the temperature sensing unit is an infrared sensor. Set, A: The monthly patent is classified as item 3 Intelligent physiological monitoring of the cleavage system: the sensing unit of the Dijon group is a blood oxygen detecting probe, and the long light source is a1, the source and the second wavelength source, and the corresponding two waves are respectively taken. Converting it to represent the blood oxygen concentration of the test subject according to 笫%: 汛 and the second electrical signal, and the microcontroller unit calculates the bleeding oxygen degree according to the first-signal and the second electrical signal. For example, the intelligent physiological monitoring device described in item 7 of the patent application scope 27 M296027 ί light = blood oxygen sampling probe is an infrared sensor, which includes a light source 2:: the intelligent physiological body described in the eighth item of the patent scope Monitoring device::::;: Original: a light-emitting diode that emits red and infrared light, and the light is connected to the first diode, which converts the received light into a current. 1 〇·If you apply for a patent The Zhi-type physiological device described in the third item, wherein the electrocardiogram measuring module 4 ~ ^/MJ 1 Ί 4 is bitten by Sense 70 is the E c G sensor. 士1 1 . As described in the May patent scope of the third paragraph of the Zhisheng type of life 'I: the blood and dust measurement module of the sensing unit for the house list:: The module further includes a thin bag in contact with the subject to be tested, and is prepared for different pressure values - at the time of the release of the mother's section, the parental artery is back pressured at different MJ & knife values for different periods of time $ i Μ ^ ^ , And can get a pulse between each inch, and the pulse wave, and the thin bag is inflated and deflated, and the conversion six-generation early is used to control the pulsation obtained by the sensing unit. u, processing the voltage signal to determine - heart shrinkage and heart Shu invitation. A series amplitude wave, and according to this 1 2 · such as the scope of the patent application, the blood pressure measurement module into two members Hui: Physiology Jianda and - use the pain of the temperament. - Including - used to inflate the horse 1 3 · If you apply for the patent range 笫q device, and the blood of the blood ~ m 3 items of the smart physiological monitoring oxygen measurement module The system includes a blood pressure measuring module and a blood: Li Lisong 'group', the blood dust measuring module, and the blood oxygen measuring module is used, 4 Hand #动脉脉波,处理m 俏的手才日脉脉波, with the center to receive the pulse signal and calculate the time difference of the same-pulse wave, and 28 M296027 receives two detection parts private i:: The distance is further calculated to obtain the wave velocity of the blood vessel pulse. For example, the device described in the scope of the patent application, wherein the network connection is a physiological monitoring of the width d. ^ for a broadband network or telephone network transmission connection, column "The intelligent physiological ageing device described in Item 13 of the 5 苴 1 application patent scope, wherein the network is a wide-area fox] R u Η (4), a road network or an Internet. 1 6 . As described in the application of the Shenhe patent scope, JL Φ兮/Electric identification, empty physiological cover L measurement < 罝 /, 中五亥 transmission interface connection ϋ S Β D D e Q π 2 is connected to 埠. 13 connection 埠 or RS 2 3 1 7 . As claimed in the patent scope 丄 device, the system further includes a heart 孓 physiological monitoring central processing crying 雪 雪 · · 由 由 由 由 由 由 由 由 由 由 由 由 由 由 由 由 由 由 由In the center. . It is electrically connected early and is used to read the barcode. f: 1 俜Π 范围 范围 智慧 智慧 智慧 智慧 智慧 智慧 智慧 智慧 智慧 智慧 智慧 智慧 智慧 智慧 智慧 智慧 智慧 智慧 智慧 智慧 智慧 智慧 智慧 智慧 智慧 智慧 智慧 智慧 智慧 智慧 智慧 智慧 智慧 智慧 智慧 智慧 智慧 智慧 智慧 智慧 智慧 智慧Physiological values are transmitted via wireless transmission.圼 圼 | , 49 ::: 1 ' patent scope of the 18th paragraph of the intelligent physiological monitoring d clothing, 'm line signal module for the RF module or Bluetooth module. The intelligent physiological monitoring binary as described in the first paragraph of the patent application in May 1 includes a memory moon bean for storing results or parameter values, and the memory is electrically connected to the central processing unit. . The intelligent physiological monitoring device according to the second aspect of the invention, wherein the memory is a writable memory. 2 2 . As for the intelligent physiological monitoring described in item 2 of the patent scope, 4 sets #β海可写έ己忆体 is electronically erasable stylized only read 29 M296027 memory (electrically erasable pr〇grammaMe (10) & memory, EEPROM) 〇 2 3 . The intelligent physiological monitoring device of the above-mentioned item, further comprising a voice module electrically connected to the central processing unit. The invention discloses a smart physiological monitoring device according to item 23 of the patent scope, wherein the central processing unit and the plurality of physiological values are measured; :: the group transmits data by the transmission protocol, and the transmission Taidoc Busn 〇 2 5 . The intelligent physiological monitoring described in claim 2, wherein the display is used to display a charge-coupled device (CCD). 26. The intelligent physiological monitoring device according to item 23 of the patent application, wherein the central commentary is crying to dry... - the early childhood step includes - to control the display driver unit. The smart physiological monitoring and the peripheral peripherals described in Item 2 of the Patent Application No. 2-7 application include a button for pressing the operation. 8 is the side of the intelligent physiological monitoring shell described in claim 23 of the patent application. The power jack is disposed in the intelligent physiological monitoring described in claim 23 of the patent scope; the step includes a backlight unit electrically connected to the unit and configured to provide backlight function . 30. The intelligent physiological monitoring M296027 measuring device according to claim 23 of the patent scope further comprises a wireless network element system and the central processing ", green, .. Providing wireless Internet access function 3 1 · If the patent application scope is the 23rd item, the intelligent physiological monitoring device described in the station *Shanbeibei, wherein the display further includes ten, the graphic: touch panel. next page 31