CN206833440U - A kind of medical treatment device with data communication facility - Google Patents
A kind of medical treatment device with data communication facility Download PDFInfo
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- CN206833440U CN206833440U CN201720773536.6U CN201720773536U CN206833440U CN 206833440 U CN206833440 U CN 206833440U CN 201720773536 U CN201720773536 U CN 201720773536U CN 206833440 U CN206833440 U CN 206833440U
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Abstract
The utility model provides a kind of medical treatment device with data communication facility, including self-service detection terminal, and self-service detection terminal includes MCU single-chip microcomputers, and the MCU single-chip microcomputers connect data communication plate, RFID device, display screen and network communication device respectively;The data communication plate includes 6 pin single-chip microcomputer U15 and 6 pin single-chip microcomputer U16, communication signal output end XTX is accessed after the 6 pin single-chip microcomputer U15 crus secundas connection resistance R16, the 4th pin and the 5th pin of the 6 pin single-chip microcomputer U15 accesses power supply after connecting resistance R17 jointly, the first pin of the 6 pin single-chip microcomputer U15 connects resistance R11, the 13rd electric capacity C13 and communication signal input RX respectively, and the resistance R11 other ends are connected to power supply.
Description
Technical field
It the utility model is related to medical data management field, particularly a kind of medical treatment device with data communication facility.
Background technology
Need to be checked under the guidance in doctor in the general customary routine inspection of hospital, generally require to register, arrange
Multiple links such as team, detection, it then can just make a definite diagnosis and write a prescription, worry is brought to most of busy people, solving self-service inspection is
The trend of one medical industry.
In general medical institutions take manual toll collection mode, and cost of labor accounts for larger ratio in the spending of medical control
Example, unmanned medical system charging mode turn into the important developing direction of medical industry.
Utility model content
Purpose of utility model:Technical problem to be solved in the utility model is in view of the shortcomings of the prior art, there is provided one
Medical treatment device of the kind with data communication facility.
In order to solve the above-mentioned technical problem, the utility model provides a kind of medical treatment device with data communication facility, bag
Self-service detection terminal is included, self-service detection terminal includes MCU single-chip microcomputers, and the MCU single-chip microcomputers connect data communication plate, RFID respectively
Device, display screen and network communication device;The data communication plate includes 6 pin single-chip microcomputer U15 and 6 pin single-chip microcomputer U16, and described 6
Communication signal output end XTX, the 4th pin of the 6 pin single-chip microcomputer U15 are accessed after pin single-chip microcomputer U15 crus secundas connection resistance R16
Power supply is accessed after connecting resistance R17 jointly with the 5th pin, the first pin of the 6 pin single-chip microcomputer U15 connects resistance R11, respectively
13 electric capacity C13 and communication signal input RX, the resistance R11 other ends are connected to power supply;
Communication signal input, 6 pin single-chip microcomputer U16 are accessed after the first pin connection resistance R17 of the 6 pin single-chip microcomputer U16
The 4th pin and the 5th pin connection resistance R20 after access power supply, accessed after 6 pin single-chip microcomputer U16 crus secunda connection resistance R18 logical
Interrogate the output end of signal.
In the utility model, the MCU single-chip microcomputers are also connected with liquid crystal display circuit, electric power management circuit, RFID radio frequency moulds
Block, microphone circuit, keyboard circuit and data storage circuitry.
In the utility model, the microphone circuit includes the first active buzzer BEEP1, first active buzzer
BEEP1 positive pole connects 3rd resistor R3 and the 4th electric capacity C4 positive pole respectively, 3rd resistor R3 other ends access power supply, uses
In the operating current of regulation buzzer, the 4th electric capacity C4 negative pole ground connection, stable operating voltage is provided for buzzer, it is described
First active buzzer BEEP1 negative pole is connected to the 3rd triode Q3 colelctor electrode, and the collector of the 3rd triode Q3 connects
Connect the BEEP_CTL pins that single-chip microcomputer is accessed after second resistance R2.
In the utility model, the network communication module include the first module U1, the second triode Q2, the 4th resistance R4,
9th resistance R9, the 13rd resistance R13, the 14th resistance R14, the first Zener diode Z1, the 7th electric capacity C7 and the 8th electric capacity
C8, the second triode Q2, the 4th resistance R4, the 9th resistance R9, the 13rd resistance R13, the 14th resistance R14 form first
Module U1 on/off circuit, network communication module U1 switch is controlled by the POWER_ON pins of MCU single-chip microcomputers;Described first
The first Zener diode Z1 negative pole, the 8th electric capacity C8 positive pole and the 7th electric capacity C7 is connected on module U1 VBAT pins respectively
One end, for providing stable operating voltage to the first module U1.
In the utility model, the RFID radio-frequency modules include RFID radio frequency reading module control circuits, and RFID radio frequencies are swept
Retouch module control circuit include the first FET Q1, first resistor R1, the 5th resistance R5, the 6th resistance R6, the 7th resistance R7,
8th resistance R8, the 15th resistance R15, the 24th electric capacity C24, the 27th electric capacity C27 and the 40th electric capacity C40, it is described
First FET Q1 source electrode connects power supply and the 40th electric capacity C40 respectively, and the 40th electric capacity C40 other ends ground connection is described
First FET Q1 drain electrode connects power supply, the 24th electric capacity C24 and the 27th electric capacity of RFID radio-frequency modules respectively
C27, the 24th electric capacity C24 and the 27th electric capacity C27 other end common ground, the grid of the first FET Q1
The RF_CTL pins of MCU single-chip microcomputers are accessed after connection first resistor R1;
The resetting pin of 15th resistance R15 one end connection RFID radio-frequency modules, other end connection MCU single-chip microcomputers
RST pins, the 5th resistance R5, the 6th resistance R6, the 7th resistance R7 and the 8th resistance R8 one end connect RFID and penetrated respectively
The communication port of frequency module, communication port of the other end respectively with MCU single-chip microcomputers are connected.
In the utility model, the MCU single-chip microcomputers include being shaken by what electric capacity C2, electric capacity C3, crystal oscillator X1 and resistance R32 were formed
Circuit is swung, is grounded after the first pin connection electric capacity C2 of MCU single-chip microcomputers, is grounded after the crus secunda connection electric capacity C3 of MCU single-chip microcomputers, it is brilliant
The X1 and resistance R32 that shakes is connected in parallel on the first pin and crus secunda of MCU single-chip microcomputers;
The MCU single-chip microcomputers include by resistance R30 and electric capacity the C1 MCU formed reset circuit, the 59th of MCU single-chip microcomputers the
Pin connects resistance R30 and electric capacity C1, resistance R30 other ends access power supply, electric capacity C1 other ends ground connection respectively;
The MCU single-chip microcomputers include being examined by the stable of thermo-sensitive resistor R22 and precision resister R23 the MCU single-chip microcomputers formed
Slowdown monitoring circuit, the 14th pin of MCU single-chip microcomputers access power supply, MCU monolithics after being sequentially connected thermo-sensitive resistor R22 and precision resister R23
It is grounded after the 15th pin connection precision resister R23 of machine.
By the APP clients installed on mobile phone, the Quick Response Code in the self-service detection terminal of the basic disease of human body is scanned, automatically
Recognition user information, detection project content is selected by user self-help, and send Charging Detail Record unit and carry out charging and fee-deducting work, payer
Formula can have the modes such as wechat, Alipay.
Beneficial effect:User can by terminal and the self-service detection terminal of the basic disease of human body, can to some itself it is slow
Disease is detected in real time, remove from register, wait in line, link, the Portable high-efficiency such as window is paid.
Brief description of the drawings
The utility model is done with reference to the accompanying drawings and detailed description and further illustrated, the utility model
Above-mentioned or otherwise advantage will become apparent.
Fig. 1 is a kind of medical treatment device structural representation with data communication facility
Fig. 2 is the overall theory diagram of the self-service detection terminal of the basic disease of human body in the utility model embodiment.
Fig. 3 is the circuit part schematic diagram of data communication plate in the utility model embodiment.
Fig. 4 is blood pressure measurement module circuit schematic in the utility model embodiment.
Fig. 5 is to inflate pump circuit and gas bleeder valve circuit theory diagrams in the utility model embodiment in blood pressure measurement.
Fig. 6 is the circuit theory diagrams of MCU single-chip microcomputers in the utility model embodiment.
Fig. 7 is the circuit theory diagrams of loudspeaker in the utility model embodiment.
Fig. 8 is the circuit theory diagrams of RFID radio frequency reading modules in the utility model embodiment.
Fig. 9 is the circuit theory diagrams of network communication module in the utility model embodiment.
Embodiment
The utility model is elaborated below in conjunction with accompanying drawing.
Such as Fig. 1, mobile phone first passage scans the Quick Response Code in the self-service detection terminal of the basic disease of human body, downloads installation APP
After client software, on mobile phone after registered user's relevant information, APP client softwares will be noted by server network interface
Health worker's information transfer of volume carries out archive processing to health servers.
The Response Code scan module is used to be scanned the Quick Response Code in the self-service detection terminal of the basic disease of human body, from
It is dynamic to download APP clients, and read the machine information of detection terminal.The user profile Registering modules establish personal health shelves
Case.The charging system is according to medical detection project, is completed by payment systems such as wechat, Alipay, Web banks corresponding
Expense.The server network interface is used for cell phone application client functionality and carries out network communication with health servers, by user institute
There are information and detection demand to be transferred to health servers.
Smart mobile phone APP clients include Response Code scan module, Charging Module, personal health information network management terminal and
The self-service control basic disease detection terminal of human body, the personal health information network management terminal of cell phone application client, solves Healthy People
The promptness of member's information and comprehensive, including name, ID card No., contact method, address, health status etc.;Cell phone application visitor
After family end scanning health and fitness information terminal Quick Response Code, blood pressure detecting, breathing detection, blood testing, urine detection, body temperature inspection can be carried out
Survey;The self-contained health service of cell phone application client, healthy network port aspect can provide weather forecast information, hospital expert
System, travel guide, health service are assessed and suggested, video diagnoses etc..
The health servers are the management systems with specified medical institutions or the foundation of corresponding management mechanism, and management is personal
All one's life health status, the testing result of the personal basic self-service detection terminal of disease can be all automatically uploaded in health servers,
Storage, retain, analyze, information reminding, that pays each time detects all by being operated on the charging platform of health servers,
All historical archives are stored in health service end, are easy to inquire about at any time and compare.
The health servers provide the network interface of cell phone application client and health servers, health servers respectively
With the network interface of the self-service detection terminal of personal basic disease.When user's request is tested some fitness programme, in hand
The fitness programme is selected in machine APP clients, is transferred to by server network interface in health servers, health servers ratio
After user profile and charge situation, the health contents that user needs to ask are transferred to by personal basic disease by network interface
In self-service detection terminal, the personal basic self-service detection terminal of disease measures according to the fitness programme of request.
Such as Fig. 2, the utility model discloses the self-service detection terminal of personal basic disease, by MCU single-chip microcomputers 1, data communication
Plate 2, liquid crystal display circuit 3, electric power management circuit 4, RFID radio-frequency modules 5, microphone circuit 6, keyboard circuit 7, data storage
Circuit 8, network communication module 9, antenna 10, sphygmomanometer measurement module 11, blood detector 12, urine detection instrument 13, body temperature inspection
Instrument 14, breathing detection instrument 15, electronic scale 16, pedometer 17, arm band 18, inflation pump circuit 19, gas bleeder valve circuit 20 is surveyed to form.Institute
State detection and collection that blood pressure test module is used for blood pressure.The network communication module is used for and the webserver carries out channel radio
News.
MCU single-chip microcomputers, connect liquid crystal display circuit, RFID frequency sweep scan modules, network communication module.
The MCU single-chip microcomputers connect blood pressure detecting module while can connect blood detector, urine detection instrument, body temperature inspection
Survey the equipment such as instrument, breathing detection instrument, electronic scale, pedometer.
The network communication module and health servers are wanted to connect, and the data of various measuring apparatus are sent to by network
In health servers.
The liquid crystal display circuit uses the microprocessor of dot matrix display screen driving, can directly display and read test equipment
Data result.
The data communication plate 2 connects the detecting instrument of various medical detection projects, for controlling various detecting instruments
Detection and data acquisition, detecting instrument include blood detector 12, urine detection instrument 13, temperature monitor 14, breathing detection instrument
15th, electronic scale 16, pedometer 17.
The blood pressure test module 11 passes through arm band 18, the aeration speed and gas bleeder valve circuit 20 of control inflation pump circuit 19
The power of blood of human body pulse is detected and gathered, and all data are transferred to MCU single-chip microcomputers 1.
The MCU single-chip microcomputers 1 analyze and process to all data, connection data storage circuitry 8, liquid crystal display circuit
3rd, RFID radio-frequency modules 5, microphone circuit 6, key circuit 7, network communication module 9.The data storage circuitry 8 enters to data
Row storage backup, the liquid crystal display circuit 3 controls liquid crystal display, and is shown on screen, and the RFID radio-frequency modules 5 are carried out
The data of external intact card or Citizen Card Item are read in detection, and the microphone circuit 6 is prompted by sending the sound of various frequencies
Various test modes, the key circuit 7 is used to inquire about data, and is sent out available for various external medical detection devices
Go out control command, the network communication module 9 and antenna 10 pass through network interface protocols wireless connection health servers.
The electric power management circuit 4 provides various works for all circuits of the self-service detection terminal of whole personal basic disease
Make voltage, to ensure the normal use of all parts.
Such as Fig. 3, the data communication plate includes 6 pin single-chip microcomputer U15,6 pin single-chip microcomputer U16, the 16th resistance R16, the tenth
Seven resistance R17, the 18th resistance R18, the 20th resistance R20, the 47th resistance R47, the 11st resistance R11, the 13rd electricity
Hold C13 to form.The pin 2 of the 6 pin single-chip microcomputer U15 connects the 16th resistance R16 one end, the 16th resistance R16 other ends
Connect news signal output part, the metering function for signal;The pin 4 of the 6 pin single-chip microcomputer U15 connects the 17th electricity with 5 pin
Hinder R17 one end, another termination powers of the 17th resistance R17, the pull-up for communication signal;The 6 pin single-chip microcomputer U15's
Pin 1 connects the 11st resistance R11, the 13rd electric capacity C13 one end and communication signal input, the 13rd electric capacity respectively
The C13 other ends are grounded, for the filtering of high-frequency signal, another termination powers of the 11st resistance R11, for increasing communication letter
Number driving force.The pin 1 of the 6 pin single-chip microcomputer U16 meets the 47th resistance R47 one end, the 47th resistance R47
Another terminating communications signal input part, the metering function for signal;The pin 4 of the 6 pin single-chip microcomputer U16 connects with 5 pin
20 resistance R20 one end, another termination powers of the 20th resistance R20, the pull-up for signal;The 6 pin single-chip microcomputer U16
Pin 2 connect the 18th resistance R18 one end, the output end of the 18th resistance R18 other end connecting communication signals.
Chip U15, U16 use two IMX9, the switching entered to two-way communication signal between line level, the data communication
Plate is made up of chip U15, U16, resistance R11, R16, R17, R18, R20, R47, electric capacity C13.When MCU single-chip microcomputers output XTX letters
After number, enter U15 by current-limiting resistance R16, RX signal levels are switched into external detection equipment identical by pull-up resistor R17
Operating voltage, the filtering of high-frequency signal is carried out by C13;After external detection equipment exports TX signals, enter by current-limiting resistance R47
Row U16, the operating voltage that XRX signal level MCU single-chip microcomputers are needed.
Data communication plate innovates advantage and is that a variety of detection devices can be connected, and current attachable detection device includes blood
Liquid detector, urine detection instrument, temperature monitor, breathing detection instrument, electronic scale, pedometer, can by the data communication plate
To control these equipment, and test data is transferred to MCU single-chip microcomputers, is carried out data processing, storage by MCU single-chip microcomputers and shown
Show.
As Fig. 4, pressure sensor U2 use US9111-006, the power for the signal to human pulse detects,
The blood pressure measurement module is made up of pressure sensor U2, resistance R31.Pressure sensor U2 detects human pulse signal
Afterwards, analog signal is transferred to MCU single-chip microcomputers by tetra- pins of VI+, VI-, VO+, VO-;R31 is biased using 1% high accuracy
Resistance, stable bias voltage is provided for whole pressure sensor U2.
It is that pump circuit and gas bleeder valve circuit are inflated in blood pressure measurement, inflator pump BUMP1 is used such as Fig. 5
SC3701PMDC4.5V, gas bleeder valve FA1 use SC0526GLDC4.5V, and the inflator pump drive circuit is by triode Q7, Q9, electricity
R12, R53, R54, electric capacity C9, C19 are hindered, diode D6 is formed.After MCU single-chip microcomputers export X_PD0 signals, by current-limiting resistance
R53, control triode Q7 and Q9 conducting, is powered to inflator pump, starts inflator pump and starts working.Control X_DP0 pins
Dutycycle, to adjust the aeration speed of inflator pump.Electric capacity C9, C19 and diode D6 its purpose of placement are stable in order to provide
Operating voltage is to whole system.Because the operating current of inflator pump is bigger, triode Q9 must use large power triode.Institute
State discouraged valve-driving circuit and is formed by triode Q8, resistance R55, electric capacity C53, diode D7.When MCU single-chip microcomputers export X_PD1
After signal, by current-limiting resistance R55, the Q8 conductings of control triode, it is powered to gas bleeder valve.
Such as Fig. 6, using DC1001 as MCU single-chip microcomputers.Electric capacity C2, electric capacity in MCU single chip circuits described in the present embodiment
C3, crystal oscillator X1, resistance R32 form the oscillating circuit of MCU single-chip microcomputers;Resistance R30, electric capacity C1 form MCU reset circuit;It is temperature sensitive
Resistance R22, precision resister R23 form the stable detection circuit of MCU single-chip microcomputers, for carrying out temperature to data in blood pressure measurement
Compensation.The on/off circuit of the output end POWER_ON connection network communication modules of MCU single chip circuits described in the present embodiment,
The communication port of serial communication signal port RX_GSM, TX_GSM connection network communication module of MCU single chip circuits, MCU monolithics are electromechanical
The input detection mouth VCHG_INT connection electric power management circuits on road, detection function is inserted for power supply, MCU single chip circuits
SPI communication signal mouths R, T, C, B connect the communication port of RFID radio-frequency modules, and the output end RF_CTL of MCU single chip circuits is used for
The power supply circuit of RFID radio-frequency modules is controlled, communication port SCL, SDA of MCU single chip circuits connect data storage circuitry, and MCU is mono-
Serial communication signal port XTX, XRX connection network data communication plate on piece electromechanics road, VO+, VO- of MCU single chip circuits, VI+,
The pressure sensor of VI- connection blood pressure measurement modules, the output end GSM_CTL connection network communication modules of MCU single chip circuits
Electric power management circuit, the output end BEEP_CTL connection microphone circuits of MCU single chip circuits, the COM of MCU single chip circuits
Line connects liquid crystal display circuit with SEG lines.
There is discharge circuit inside the MCU single-chip microcomputers, in blood pressure measurement, after human pulse pressure data is received, lead to
Discharge circuit is crossed, to the conscientious amplification of signal, Treatment Analysis is carried out by algorithm to signal by software, so as to measure blood pressure and pulse
Data.
As Fig. 7, audio-amplifying circuit are made up of triode Q3, resistance R2, R3, electric capacity C4, buzzer BEEP1.Wherein current limliting electricity
Resistance R3 is used to adjust buzzer loudness, and triode Q3 opening and closing are controlled by the BEEP_CTL ends of MCU single-chip microcomputers, so as to
Reach the switching effect of buzzer.
Microphone circuit include the first active buzzer BEEP1,3rd resistor R3, second resistance R2, the 3rd triode Q3,
4th electric capacity C4 is formed.The first active buzzer BEEP1 of colelctor electrode connection of 3rd triode Q3 negative pole, described first
Active buzzer BEEP1 positive pole connects 3rd resistor R3 one end and the 4th electric capacity C4 positive pole, the 4th electric capacity respectively
C4 negative pole ground connection, stable operating voltage, another termination powers of 3rd resistor R3, for adjusting are provided for buzzer
The operating current of buzzer, the collector connection second resistance R2 of the 3rd triode Q3 one end, grounded emitter, described the
The BEEP_CTL pins of two resistance R2 other end connection MCU single-chip microcomputers, for controlling buzzer.
Microphone circuit innovation advantage is to judge the self-service inspection of personal basic disease by sending the sound of different frequency
End is surveyed in different states, is easy to user's more intuitively convenient use terminal.
Such as Fig. 8, RFID radio frequency reading module communication control circuit schematic diagrams.The electric routing resistance R5, R6, R7, R8, R15,
R1, electric capacity C24, C27, C40, FET Q1, RFID radio-frequency module GPM are formed.Wherein resistance R1, electric capacity C24, C27, C40,
FET Q1 forms the power supply circuit of scan module, and FET Q1 opening is controlled by the RF_CTL ends of MCU single-chip microcomputers
And closing, so as to reach the opening and closing of power supply, play electricity saving function.It is connected on by current-limiting resistance R5, R6, R7, R8, R15
Allowed in communication data line radio-frequency module and MCU microcontroller communications when it is more reliable and more stable.
RFID radio frequency readings module control circuit includes the first FET Q1, first resistor R1, the 5th resistance R5, the 6th
Resistance R6, the 7th resistance R7, the 8th resistance R8, the 15th resistance R15, the 24th electric capacity C24, the 27th electric capacity C27,
40 electric capacity C40 are formed.The source electrode connection power supply of the first FET Q1, and connect the 40th electric capacity C40 one end;The
40 electric capacity C40 other end ground connection, for power filter;The drain electrode connection RFID radio-frequency modules of the first FET Q1
Power supply, and parallel connection the 24th electric capacity C24 and the 27th electric capacity C27 one end, the 24th electric capacity C24 and the 27th
Electric capacity C27 other end ground connection, for power filter;Grid connection first resistor R1 one end of the first FET Q1,
The first resistor R1 other ends connect the RF_CTL pins of MCU single-chip microcomputers, for controlling the power supply of RFID radio-frequency modules.Described tenth
Five resistance R15 one end connect the resetting pin of RFID radio-frequency modules, and the other end connects the RST pins of MCU single-chip microcomputers, and control RFID is penetrated
The reset of frequency module;The 5th resistance R5, the 6th resistance R6, the 7th resistance R7 and the 8th resistance R8 one end connect respectively
The communication port of RFID radio-frequency modules, communication port of the other end respectively with MCU single-chip microcomputers are connected.
Such as Fig. 9, network communication module is using M660_GSM as network communication module.Resistance R4, R9 in the present embodiment,
R13, R14, triode Q2 form the on/off circuit of network communication module, are controlled by the POWER_ON ends of MCU single-chip microcomputers.To protect
The reliable and stable of power supply power supply is demonstrate,proved, Zener diode Z1, electric capacity C7, C8 are added in the power unit of network communication module.Net
The communication port of TX_GSM and RX_GSM with the MCU single-chip microcomputer of network communication module is connected.
Network communication module includes the first module U1, the second triode Q2, the 4th resistance R4, the 9th resistance R9, the 13rd
Resistance R13, the 14th resistance R14, the first Zener diode Z1, the 7th electric capacity C7, the 8th electric capacity C8 are formed.Two or three pole
Pipe Q2, the 4th resistance R4, the 9th resistance R9, the 13rd resistance R13, the 14th resistance R14 form opening for network communication module U1
Shutdown circuit, network communication module U1 switch is controlled by the POWER_ON pins of MCU single-chip microcomputers;The network communication module U1
VBAT pins on connect the one of the first Zener diode Z1 negative pole, the 8th electric capacity C8 positive pole and the 7th electric capacity C7 respectively
End, for providing stable operating voltage to module U1.
Embodiment one:
Blood pressure measuring method 1:In the self-service detection terminal of the personal basic disease of scanning input after Quick Response Code, cell phone application visitor
The machine information of terminal can be read on the end of family automatically, after user selects blood pressure measurement, APP clients and health servers are entered
Row communication confirms user, end message and paid cases, and after information all confirms qualified, health servers refer to blood pressure measurement
The self-service detection terminal of personal basic disease is issued in order, and terminal can send the sound of " ticking ", while display etc. on LCD screen automatically
Treat blood pressure measurement.After user now ties up arm band, by " beginning/end " button in the personal basic self-service detection terminal of disease,
Terminal can automatically turn on inflator pump and gas bleeder valve carries out blood pressure measurement.Measurement is shown after blood pressure measurement, on LCD screen
As a result, measurement result is sent to health servers, measurement result is stored in user information profile by health servers, and will
Measurement result is transmitted in cell phone application client.
Blood pressure measuring method 2:With the RFID health card provided in advance, (health card needs user profile and card user in advance
Number it is bundled together in health servers), the region of swiping the card in the self-service detection terminal of personal basic disease, brush RFID health
Card, terminal can send the sound of " ticking " automatically, while shown on LCD screen and wait blood pressure measurement.User now ties up arm band
Afterwards, inflator pump and gas bleeder valve can be automatically turned on by " beginning/end " button in the self-service detection terminal of personal basic disease, terminal
Carry out blood pressure measurement.After blood pressure measurement, measurement result is shown on LCD screen, measurement result is sent to health service
Measurement result is stored in user information profile by device, health servers, and measurement result is transmitted into cell phone application client
On.
Embodiment two:
The blood sugar measuring method 1 of blood:By the data terminal of the self-service detection terminal of the personal basic disease of blood-sugar detecting instrument insertion
At mouthful.In the self-service detection terminal of the personal basic disease of scanning input after Quick Response Code, it can read automatically in cell phone application client
The machine information of terminal, after user selects blood glucose measurement, APP clients and health servers carry out communication and confirm user, end
Client information and paid cases, after information all confirms qualified, blood pressure measurement instruction is issued personal basic disease by health servers
The self-service detection terminal of disease, terminal can send the sound of " ticking " automatically, while shown on LCD screen and wait blood glucose measurement.User from
A test paper (disposable) is taken out in blood sugar test paper box, inserts the test paper mouth of blood-sugar detecting instrument, is now shown on LCD Panel
Show blood sampling mark.Blood taking needle (disposable) is placed into blood collecting pen by user, and alcohol sponge (one is carried out to the thumb that needs are taken a blood sample
Secondary property) carry out disinfection, after being taken a blood sample with blood collecting pen, the blood that necessarily measures is instilled to test paper, after several seconds on terminal LCD screen
Blood glucose numerical value is shown, and measurement result is sent to health servers, measurement result is stored in user profile by health servers
In archives, and measurement result is transmitted in cell phone application client.
The blood sugar measuring method 2 of blood:By the data terminal of the self-service detection terminal of the personal basic disease of blood-sugar detecting instrument insertion
At mouthful.With the RFID health card provided in advance, (health card needs user profile and card number being bundled together in health user in advance
On server), the region of swiping the card in the self-service detection terminal of personal basic disease, RFID health card is brushed, terminal can be sent automatically
The sound of " ticking ", while shown on LCD screen and wait blood glucose measurement.User takes out a test paper (once from blood sugar test paper box
Property), the test paper mouth of blood-sugar detecting instrument is inserted, blood sampling mark is now shown on LCD Panel.User by blood taking needle (once
Property) be placed into blood collecting pen, carrying out alcohol sponge (disposable) to the thumb that needs are taken a blood sample carries out disinfection, and is taken a blood sample with blood collecting pen
Afterwards, the blood that necessarily measures is instilled to test paper, shows blood glucose numerical value after several seconds on terminal LCD screen, and measurement result is sent out
Health servers are given, measurement result is stored in user information profile by health servers, and measurement result is transmitted into hand
In machine APP clients.
After the completion of each item inspection, health servers can be automatically updated, health servers can send report to
Module, assessment report is automatically generated, while measurement result data storage, in server, user may be selected to be beaten in computer end
It print report, can also check that personal health is reported by cell phone application, also personal health filing network can be accessed by computer remote
Management end checks that personal health is reported.
Personal health archives and test data result divide individual to check to check authority with doctor, ensure that each medical institutions look into
See and manage the level difference of health worker.
The utility model provides a kind of medical treatment device with data communication facility, the method for implementing the technical scheme
Many with approach, described above is only preferred embodiment of the present utility model, it is noted that for the common of the art
For technical staff, on the premise of the utility model principle is not departed from, some improvements and modifications can also be made, these improvement
The scope of protection of the utility model is also should be regarded as with retouching.The available prior art of each part being not known in the present embodiment
Realized.
Claims (6)
- A kind of 1. medical treatment device with data communication facility, it is characterised in that including self-service detection terminal, self-service detection terminal bag MCU single-chip microcomputers are included, the MCU single-chip microcomputers connect data communication plate, RFID device, display screen and network communication device respectively;Institute Stating data communication plate includes 6 pin single-chip microcomputer U15 and 6 pin single-chip microcomputer U16, the 6 pin single-chip microcomputer U15 crus secundas connection resistance R16 Access communication signal output end XTX, the 6 pin single-chip microcomputer U15 the 4th pin and the 5th pin accesses after connecting resistance R17 jointly afterwards Power supply, the first pin of the 6 pin single-chip microcomputer U15 connect resistance R11, the 13rd electric capacity C13 and communication signal input RX respectively, The resistance R11 other ends are connected to power supply;Access communication signal input after the first pin connection resistance R17 of the 6 pin single-chip microcomputer U16, the of 6 pin single-chip microcomputer U16 Power supply is accessed after four pin and the 5th pin connection resistance R20, incoming communication is believed after 6 pin single-chip microcomputer U16 crus secunda connection resistance R18 Number output end.
- A kind of 2. medical treatment device with data communication facility according to claim 1, it is characterised in that the MCU monolithics Machine is also connected with liquid crystal display circuit, electric power management circuit, RFID radio-frequency modules, microphone circuit, keyboard circuit and data storage Circuit.
- A kind of 3. medical treatment device with data communication facility according to claim 2, it is characterised in that the loudspeaker electricity The positive pole on road including the first active buzzer BEEP1, the first active buzzer BEEP1 connect respectively 3rd resistor R3 and 4th electric capacity C4 positive pole, 3rd resistor R3 other ends access power supply, for adjusting the operating current of buzzer, the 4th electric capacity C4 Negative pole ground connection, provide stable operating voltage for buzzer, the negative pole of the first active buzzer BEEP1 is connected to the Three triode Q3 colelctor electrode, the collector of the 3rd triode Q3 connect the BEEP_CTL of access single-chip microcomputer after second resistance R2 Pin.
- A kind of 4. medical treatment device with data communication facility according to claim 2, it is characterised in that the network communication Module includes the first module U1, the second triode Q2, the 4th resistance R4, the 9th resistance R9, the 13rd resistance R13, the 14th electricity Hinder R14, the first Zener diode Z1, the 7th electric capacity C7 and the 8th electric capacity C8, the second triode Q2, the 4th resistance R4, the Nine resistance R9, the 13rd resistance R13, the 14th resistance R14 form the first module U1 on/off circuit, by MCU single-chip microcomputers POWER_ON pins control network communication module U1 switch;It is neat that first is connected respectively on the VBAT pins of the first module U1 Receive diode Z1 negative pole, the 8th electric capacity C8 positive pole and the 7th electric capacity C7 one end, it is stable for giving the first module U1 to provide Operating voltage.
- A kind of 5. medical treatment device with data communication facility according to claim 1, it is characterised in that the RFID radio frequencies Module includes RFID radio frequency reading module control circuits, RFID radio frequency readings module control circuit include the first FET Q1, First resistor R1, the 5th resistance R5, the 6th resistance R6, the 7th resistance R7, the 8th resistance R8, the 15th resistance R15, the 24th Electric capacity C24, the 27th electric capacity C27 and the 40th electric capacity C40, the source electrode of the first FET Q1 connect respectively power supply and 40th electric capacity C40, the 40th electric capacity C40 other ends ground connection, the drain electrode of the first FET Q1 connect RFID and penetrated respectively The power supply of frequency module, the 24th electric capacity C24 and the 27th electric capacity C27, the 24th electric capacity C24 and the 27th electric capacity C27 other end common ground, MCU single-chip microcomputers are accessed after the grid connection first resistor R1 of the first FET Q1 RF_CTL pins;The resetting pin of 15th resistance R15 one end connection RFID radio-frequency modules, the RST of other end connection MCU single-chip microcomputers draw Pin, the 5th resistance R5, the 6th resistance R6, the 7th resistance R7 and the 8th resistance R8 one end connect RFID radio-frequency modules respectively Communication port, communication port of the other end respectively with MCU single-chip microcomputers be connected.
- A kind of 6. medical treatment device with data communication facility according to claim 2, it is characterised in that the MCU monolithics Machine includes the oscillating circuit being made up of electric capacity C2, electric capacity C3, crystal oscillator X1 and resistance R32, the first pin connection electric capacity of MCU single-chip microcomputers It is grounded after C2, is grounded after the crus secundas of MCU single-chip microcomputers connection electric capacity C3, crystal oscillator X1 and resistance R32 is connected in parallel on the of MCU single-chip microcomputers On one pin and crus secunda;The MCU single-chip microcomputers include the reset circuit by resistance R30 and electric capacity the C1 MCU formed, the 59th pin point of MCU single-chip microcomputers Not Lian Jie resistance R30 and electric capacity C1, the resistance R30 other ends access power supply, the electric capacity C1 other ends ground connection;The MCU single-chip microcomputers include the stable detection electricity by thermo-sensitive resistor R22 and precision resister R23 the MCU single-chip microcomputers formed Road, the 14th pin of MCU single-chip microcomputers access power supply after being sequentially connected thermo-sensitive resistor R22 and precision resister R23, MCU single-chip microcomputers It is grounded after 15th pin connection precision resister R23.
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN107315916A (en) * | 2017-06-29 | 2017-11-03 | 江苏中讯电子科技有限公司 | A kind of medical system based on Quick Response Code identification and charging function |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
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CN107315916A (en) * | 2017-06-29 | 2017-11-03 | 江苏中讯电子科技有限公司 | A kind of medical system based on Quick Response Code identification and charging function |
CN107315916B (en) * | 2017-06-29 | 2023-09-08 | 江苏神鹰信息技术有限公司 | Medical system based on two-dimensional code identity recognition and charging functions |
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