CN209236188U - A kind of cardiopulmonary detection instruction record statistical system - Google Patents

Abstract

The utility model provides a kind of cardiopulmonary detection instruction record statistical system, the system is acquired by the recording that key module controls cardiopulmonary biological information, and the cardiopulmonary biological information of patient is sent to by controller by wireless transport module, it is able to display cardiopulmonary biological information on the controller, and detection information can also store, the cardiopulmonary biological information of patient can also be uploaded by WIFI module simultaneously, it solves patient not knowing about to the case where oneself, problem of the doctor to the state of an illness collect statistics difficulty of patient；This system includes controller and processor；Controller includes control chip, power supply module I, key module, memory module, display screen and ZigBee module I；Dividing processor includes processing chip, power supply module II, cardiopulmonary information acquisition module and ZigBee module II；The cardiopulmonary information acquisition module includes relay, Mike, amplification module and filter module.

Description

A kind of cardiopulmonary detection instruction record statistical system

Technical field

The utility model relates to medical treatment and nursing product technical fields, are in particular a kind of cardiopulmonary detection instruction record systems Meter systems.

Background technique

In CPR detection process, real-time heartbeat index, heartbeat index etc. is all extremely important, but usual patient To also less understanding the case where oneself, patent CN102973254A provides a kind of non-contact apparatus for monitoring cardiopulmonary activity, It includes one to generate a high frequency string pulse sequence pulse generator, one to from the high frequency vibrating pulse sequence produce A raw detection high frequency string pulse sequence and divider, the transmitting detection high frequency string with reference to high frequency string pulse sequence The detection high frequency string wave arteries and veins that pulse sequence is scattered to the transmitting antenna in the cardiopulmonary portion of a person under test, a reception through the cardiopulmonary portion Rush the receiving antenna of sequence, one be coupled in the receiving antenna and generate a cardiopulmonary active signal balance mixer and a coupling It is connected to the signal processing module of the balance mixer, the balance mixer, which includes that a reception is described, refers to the wave impulse of high frequency string The first input end of sequence and one be electrically connected in the receiving antenna the second input terminal；The patent passes through radio wave pair Tester carries out cardiopulmonary detection, has certain radiation intensity, is unfavorable for the physical and mental health of medical worker and tester, therefore more It should be studied for applicable cardiopulmonary detection system；

The utility model provides a kind of cardiopulmonary detection instruction record statistical system, which controls the heart by key module The recording of lung biological information acquires, and the cardiopulmonary biological information of patient is sent to controller by wireless transport module, Display cardiopulmonary biological information is able on controller, and detection information can also store, while can also believe the cardiopulmonary biology of patient Breath is uploaded by WIFI module, solves the problems, such as patient to uncomprehending the case where oneself.

Summary of the invention

The utility model provides a kind of cardiopulmonary detection instruction record statistical system, which controls the heart by key module The recording of lung biological information acquires, and the cardiopulmonary biological information of patient is sent to controller by wireless transport module, Display cardiopulmonary biological information is able on controller, and detection information can also store, while can also believe the cardiopulmonary biology of patient Breath is uploaded by WIFI module, solves the problems, such as patient to uncomprehending the case where oneself.

To achieve the above object, the utility model provides a kind of cardiopulmonary detection instruction record statistical system, cardiopulmonary inspection Surveying instruction record statistical system includes controller and processor；Controller includes control chip, power supply module I, key module, deposits Store up module, display screen and ZigBee module I；Point processor include processing chip, power supply module II, cardiopulmonary information acquisition module and ZigBee module II；The cardiopulmonary information acquisition module includes relay, Mike, amplification module and filter module；Relay Output end and the power control terminal of Mike connect, the signal output end of Mike connect with amplification module, the output of amplification module End is connect with filter module；

The described output of power supply module I is 5V direct current, the power output end of power supply module I respectively with memory module, control Coremaking piece, display screen are connected with the power input of ZigBee module I；The output of power supply module II is 5V direct current, is supplied The power output end of electric module II respectively with the power input of the control terminal of the processing power input of chip, relay, The power input of ZigBee module II, the power input of Mike, the power input of amplification module and the electricity of filter module Source input terminal；ZigBee module I and ZigBee module II pass through wireless connection；

The signal input part of the control chip connects with the signal output end of key module and ZigBee module I respectively It connects, the signal output end of the control chip is connect with the signal input part of memory module and display screen respectively；The place The signal output end of the signal input part and filter module of managing chip connects, and handles the signal output end and ZigBee module of chip II signal input part connection.

As advanced optimizing for the utility model, a kind of cardiopulmonary detection instruction record statistical system of the utility model, institute The control chip and processing chip stated are STM32 series STM32F103ZET6 single-chip microcontroller.

As advanced optimizing for the utility model, a kind of cardiopulmonary detection instruction record statistical system of the utility model, institute The key module stated is MS-666 self-locking type key.

As advanced optimizing for the utility model, a kind of cardiopulmonary detection instruction record statistical system of the utility model, institute The relay stated is the Omron single-pole double-throw relay of model G2R-1-SN.

As advanced optimizing for the utility model, a kind of cardiopulmonary detection instruction record statistical system of the utility model, institute The amplification module stated is LM358 amplification module.

As advanced optimizing for the utility model, a kind of cardiopulmonary detection instruction record statistical system of the utility model, institute The filter module stated is RC filter module.

As advanced optimizing for the utility model, a kind of cardiopulmonary detection instruction record statistical system of the utility model, institute The display screen stated is TFT-LCD display screen.

As advanced optimizing for the utility model, a kind of cardiopulmonary detection instruction record statistical system of the utility model, institute The ZigBee module I and ZigBee module II stated are CC2530 radio receiving transmitting module.

As advanced optimizing for the utility model, a kind of cardiopulmonary detection instruction record statistical system of the utility model, institute The controller for the cardiopulmonary detection instruction record statistical system stated further includes WIFI module I, the power output end of power supply module I with The power input of WIFI module I connects, and the signal input part for controlling chip is connect with the signal output end of WIFI module I, controls The signal output end of coremaking piece is connect with the signal input part of WIFI module I；The cardiopulmonary detection instruction record statistical system Processor further include WIFI module II, the power output end of power supply module II is connect with the power input of WIFI module II, The signal input part of processing chip is connect with the signal output end of WIFI module II, handles the signal output end and WIFI mould of chip The signal input part of block II connects；WIFI module I and WIFI module II are the WIFI module of model USR-WIFI232.

A kind of cardiopulmonary detection instruction record statistical system of the utility model has the beneficial effect that

1. the utility model provides a kind of cardiopulmonary detection instruction record statistical system, which is controlled by key module The recording of cardiopulmonary biological information acquires, and the cardiopulmonary biological information of patient is sent to controller by wireless transport module, It is able to display cardiopulmonary biological information on the controller, and detection information can also store, while can also be by the cardiopulmonary biology of patient Information is uploaded by WIFI module, solves the problems, such as patient to uncomprehending the case where oneself.

3. the utility model reduces error, the inspection conducive to medical staff to patient information is gone back simultaneously by uploading twice It may know that the error rate of actually detected value and patient and doctor's observation.

4. the utility model has the data of the cardiopulmonary detection information uploaded twice, its doctor can also be checked such as heartbeat The information such as number compare, and doctor is it is possible that verification and measurement ratio is low in the state of tired out, and the problems such as accuracy, this is System can carry out auxiliary detection and treatment, improve medical staff's working efficiency.

Detailed description of the invention

The utility model is described in more detail with specific implementation method with reference to the accompanying drawing.

Fig. 1 is a kind of structural schematic diagram of the controller of cardiopulmonary detection instruction record statistical system of the utility model；

Fig. 2 is a kind of processor structure schematic diagram of cardiopulmonary detection instruction record statistical system of the utility model；

Fig. 3 is the circuit diagram of the control chip of the utility model；

Fig. 4 is the circuit diagram of the key module of the utility model；

Fig. 5 is the circuit diagram of the display screen of the utility model；

Fig. 6 is the circuit diagram of the ZigBee module I of the utility model；

Fig. 7 is the circuit diagram of the WIFI module I of the utility model；

Fig. 8 is the circuit diagram of the memory module of the utility model；

Fig. 9 is the circuit diagram of the processing chip of the utility model；

Figure 10 is the circuit diagram of the cardiopulmonary information acquisition module of the utility model；

Figure 11 is the circuit diagram of the ZigBee module II of the utility model；

Figure 12 is the circuit diagram of the WIFI module II of the utility model.

Specific embodiment

Illustrate present embodiment below with reference to Fig. 1,2,3,4,5,6,7,8,9,10,11,12, the utility model provides one Kind cardiopulmonary detect instruction record statistical system, which is acquisition by the recording that key module controls cardiopulmonary biological information, and The cardiopulmonary biological information of patient is sent to controller by wireless transport module, is able to display cardiopulmonary biology letter on the controller Breath, and detection information can also store, while can also upload the cardiopulmonary biological information of patient by WIFI module, solve Patient is to problem uncomprehending the case where oneself.

To achieve the above object, the utility model provides a kind of cardiopulmonary detection instruction record statistical system, cardiopulmonary inspection Surveying instruction record statistical system includes controller and processor；Controller includes control chip, power supply module I, key module, deposits Store up module, display screen and ZigBee module I；Point processor include processing chip, power supply module II, cardiopulmonary information acquisition module and ZigBee module II；The cardiopulmonary information acquisition module includes relay, Mike, amplification module and filter module；Relay Output end and the power control terminal of Mike connect, the signal output end of Mike connect with amplification module, the output of amplification module End is connect with filter module；

The described output of power supply module I is 5V direct current, the power output end of power supply module I respectively with memory module, control Coremaking piece, display screen are connected with the power input of ZigBee module I；The output of power supply module II is 5V direct current, is supplied The power output end of electric module II respectively with the power input of the control terminal of the processing power input of chip, relay, The power input of ZigBee module II, the power input of Mike, the power input of amplification module and the electricity of filter module Source input terminal；ZigBee module I and ZigBee module II pass through wireless connection；

The signal input part of the control chip connects with the signal output end of key module and ZigBee module I respectively It connects, the signal output end of the control chip is connect with the signal input part of memory module and display screen respectively；The place The signal output end of the signal input part and filter module of managing chip connects, and handles the signal output end and ZigBee module of chip II signal input part connection；For the utility model by controller control processor, power supply module I is each module for power supply, key Module includes information collection control key and storage button, presses information collection control key, the state of information collection control key is locked Fixed, the signal output end of information collection control key is connect with the PE9 pin of the STM32F103ZET6 single-chip microcontroller of control chip, is controlled The PE9 pin of the STM32F103ZET6 single-chip microcontroller of coremaking piece recognizes the signal output end of information collection control key by high level Become low level, illustrate that the key of information collection control key is pressed, state is locked, controls the STM32F103ZET6 of chip Single-chip microcontroller obtains the information that the key of information collection control key is pressed, and the information is passed through control chip The key of information collection control key is pressed by PA2 pin and is sent to Zigbee module I by STM32F103ZET6 single-chip microcontroller, The information that the key of information collection control key is pressed is sent to by Zigbee module I by wirelessly communicating with Zigbee module II Zigbee module II, Zigbee module II pass through the letter that the key of information collection control key is pressed by PA3 pin by the end TXD Breath is sent to the STM32F103ZET6 single-chip microcontroller of processing chip, and the STM32F103ZET6 single-chip microcontroller for handling chip receives information and adopts The information that the key of collection control key is pressed, the STM32F103ZET6 single-chip microcontroller for handling chip export low electricity by PE15 pin Flat, so that the PNP pipe of relay control terminal is connected, the end CTRL of relay is high level, and the end IN of relay and NC termination are logical, Mike is powered, and Mike is in closed circuit to the audio-frequency information of the sound of the bounce of patient's cardiopulmonary, a part of conducting wire with Magnet does cutting magnetic induction line movement, generates electric current, and when heart is in bounce, since distance is close, this is just caused in microphone Guidewire movement to produce electric current, and then may be implemented the acquisition of the bounce biological information to cardiopulmonary, be acquired and pass through The amplification of LM358 amplification module, is filtered out noise finally by filter module, obtains the activity letter of the preferable patient's cardiopulmonary of effect The biological information of cardiopulmonary is sent to processing chip through PC0 pin by the biological information of breath, the cardiopulmonary of the patient STM32F103ZET6 single-chip microcontroller, because of modulus converting means built in the PC0 pin of the STM32F103ZET6 single-chip microcontroller of processing chip It sets, directly converts analog signals into digital signal, the STM32F103ZET6 single-chip microcontroller for handling chip will be suffered from by PA2 pin The cardiopulmonary information of person is sent to Zigbee module I, and Zigbee module II with Zigbee module I by wirelessly communicating the heart of patient Lung information is sent to Zigbee module I, and the cardiopulmonary information of patient is sent to by the end TXD by PA3 pin by Zigbee module I The STM32F103ZET6 single-chip microcontroller for controlling chip, the STM32F103ZET6 single-chip microcontroller for controlling chip receive the cardiopulmonary letter of patient Breath, the cardiopulmonary information of patient is shown be used to check to patient oneself by display screen, while for the cardiopulmonary activity with standard Information is compared, and is controlled the STM32F103ZET6 single-chip microcontroller control display screen work of chip, is shown the cardiopulmonary activity letter of patient Breath, TFT-LCD display screen CLK pin connect with the PA5 pin of the STM32F103ZET6 single-chip microcontroller of control chip, believe for clock Number, TFT-LCD display screen MOSI pin is connect with the PA7 pin of the STM32F103ZET6 single-chip microcontroller of control chip, is TFT- The synchronous serial interface input pin of LCD display, when receiving data, which answers clock to keep low to TFT-LCD display screen Level, TFT-LCD display screen RES pin are connect with the PE14 pin of the STM32F103ZET6 single-chip microcontroller of control chip, to reset Pin, TFT-LCD display screen DC pin are connect with the PE11 pin of the STM32F103ZET6 single-chip microcontroller of control chip, TFT-LCD Display screen BLK pin is connect with the PE12 pin of the STM32F103ZET6 single-chip microcontroller of control chip, TFT-LCD display screen MISO Pin is connect with the PA6 pin of the STM32F103ZET6 single-chip microcontroller of control chip, is connect for the synchronous serial of TFT-LCD display screen Mouth output pin, TFT-LCD display screen CS1 pin are connect with the PA4 pin of the STM32F103ZET6 single-chip microcontroller of control chip, For chip select pin, TFT-LCD display screen CS2 pin is connect with the PE13 pin of the STM32F103ZET6 single-chip microcontroller of control chip； Acquisition finishes presses information collection control key again, and state is changed, the signal output end of information collection control key and control The PE9 pin of the STM32F103ZET6 single-chip microcontroller of chip connects, and controls the PE9 pin of the STM32F103ZET6 single-chip microcontroller of chip The signal output end for recognizing information collection control key becomes low level from high level, illustrates the key quilt of information collection control key It presses, state is locked, the STM32F103ZET6 single-chip microcontroller of the signal output end and control chip of information collection control key The connection of PE10 pin, the PE10 pin for controlling the STM32F103ZET6 single-chip microcontroller of chip detect the letter of information collection control key Number output end becomes low level from high level, and the STM32F103ZET6 single-chip microcontroller for controlling chip obtains information collection control key The information that key is pressed, and the information that information collection control key is depressed again is sent to by the information by PA2 pin Information collection control key is depressed again by Zigbee module I, Zigbee module I by wirelessly communicating with Zigbee module II Information is sent to Zigbee module II, and Zigbee module II passes through PA3 pin for information collection control key by again by the end TXD The information pressed is sent to the STM32F103ZET6 single-chip microcontroller of processing chip, and the STM32F103ZET6 single-chip microcontroller for handling chip is received The information being depressed again to information collection control key, the STM32F103ZET6 single-chip microcontroller for handling chip are defeated by PE15 pin High level out, so that the PNP pipe of relay control terminal is ended, the end CTRL of relay is low level, the end IN of relay and NO Termination is logical, and Mike's power supply circuit disconnects, and cardiopulmonary information acquisition module does not work；If the detection information needs of the patient are deposited simultaneously Storage button is then pressed in storage, and the state of storage button is locked, signal output end and the control chip of storage button The PE10 pin of STM32F103ZET6 single-chip microcontroller connects, and controls the PE10 pin identification of the STM32F103ZET6 single-chip microcontroller of chip Signal output end to storage button becomes low level from high level, illustrates that storage button is pressed, and state is locked, controls core The STM32F103ZET6 single-chip microcontroller of piece obtains the information that storage button is pressed, and controls the STM32F103ZET6 single-chip microcontroller of chip Information is stored by memory module, CD, WP, CLK, CMD, DATA0, DATA1, DATA2 and CS/DATA3 points of SD card PD11, PD12, PD13, PD14, PD15, PC6, PC7 and PC8 that the STM32F103ZET6 single-chip microcontroller of chip Lian Jie not controlled draw Foot, memory module store information, if storage is finished or is not required to otherwise stores, storage button is pressed again； Cardiopulmonary can be acquired information by PB10 pin and sent by the acquisition information of cardiopulmonary by the STM32F103ZET6 single-chip microcontroller for handling chip To WIFI module II, WIFI module II uploads the cardiopulmonary information of acquisition；Control the STM32F103ZET6 single-chip microcontroller of chip The cardiopulmonary received are acquired into information, cardiopulmonary acquisition information is sent to by WIFI module I by PB10 pin, WIFI module I will adopt The cardiopulmonary information of collection is uploaded, and dual upload is corrected inspection in order to avoid generating error, mitigates the work of medical worker Burden.

A kind of cardiopulmonary detection instruction record statistical system of the utility model, the control chip and processing chip are STM32 series STM32F103ZET6 single-chip microcontroller, the new range of STM32 series uses LQFP104, LQFP100 or LFBGA100 Encapsulation model single-chip microcontroller, different encapsulation keeps pin arrangements consistency, in conjunction with the design concept of STM32 platform, exploitation Personnel by selection product can re-optimization function, memory, performance and pin number, met with the smallest hardware change Property application demand, STM32F103ZET6 single-chip microcontroller have 144 pins, STM32 series belong in 32 ARM micro-controls Device processed, the family chip are that (ST) company, STMicw Electronics produces, and kernel is Cortex-M3, have many advantages, such as low-power consumption, Some pin inner portions integrate analog-to-digital conversion module, conversion time be 1 μ s, STM32F103ZET6 single-chip microcontroller integrated timer, The multiple functions such as CAN, ADC, SPI, I2C, USB and UART；CD, WP, CLK, CMD, DATA0, DATA1, DATA2 of SD card and CS/DATA3 be separately connected PD11, PD12 of STM32F103ZET6 single-chip microcontroller of control chip, PD13, PD14, PD15, PC6, PC7 and PC8 pin.

A kind of cardiopulmonary detection instruction record statistical system of the utility model, the key module is that MS-666 self-locking type is pressed Key, the self-locking type key then state that is pressed is locked, self-locking to press work and be until down state just changes key again again When by order its closure when, state locking, until press again, state is just changed again, and otherwise state saves always, self-locking Key is conducive to the control to process, and state changes therewith pressing and changed, and will not automatically switch the signal output end of self-locking key.

A kind of cardiopulmonary detection instruction record statistical system of the utility model, the relay is the Europe of model G2R-1-SN Nurse dragon single-pole double-throw relay, the single-pole double-throw relay share 5 pins CTRL, GND, IN, NO and NC, and CTRL pin is control Pin processed, GND pin ground connection, IN are input pin, and NC is normally closed pin, and NO is normally opened pin, when CTRL pin is low level, IN pin and NO pin are connected, and when CTRL pin is high level, IN pin and NC pin are connected.

A kind of cardiopulmonary detection instruction record statistical system of the utility model, the amplification module is LM358 amplification module, LM358 is dual operational amplifier.Inside includes being suitble to there are two the operational amplifier that independent, high-gain, internal frequency compensate It is used in the very wide single supply of supply voltage range, is also applied for dual power supply operating mode, under the operating condition of recommendation, power supply Electric current is unrelated with supply voltage, its use scope includes sensor amplifier, DC current gain module and other all available single electricity The occasion using operational amplifier of source power supply.

A kind of cardiopulmonary detection instruction record statistical system of the utility model, the filter module is RC filter module.

A kind of cardiopulmonary detection instruction record statistical system of the utility model, the display screen is TFT-LCD display screen, TFT-LCD liquid crystal display is Thin-film transistor type LCD, that is, " very color " (TFT), and TFT liquid crystal is each pixel It is designed with a semiconductor switch, each pixel can be directly controlled by a pulse, thus each node is relatively independent, And the reaction speed of display screen can be not only increased, while can accurately control display level with continuous control, so TFT liquid The characteristics of brilliant color is trueer, TFT liquid crystal display is good brightness, contrast is high, stereovision is strong, bright-colored, but there is also Compare power consumption and the excessively high deficiency of cost, TFT liquid crystal technology accelerates the development of mobile phone color screen, in colour screen handset of new generation Much 65536 colors is all supported to show, some even supports 160,000 colors to show, at this moment the high contrast of TFT, coloury advantage With regard to extremely important, 3.2 cun of TFT-LCD display screens, the STM32F103ZET6 of TFT-LCD display screen CLK pin and control chip The PA5 pin of single-chip microcontroller connects, the PA7 of the STM32F103ZET6 single-chip microcontroller of TFT-LCD display screen MOSI pin and control chip Pin connection, TFT-LCD display screen RES pin are connect with the PE14 pin of the STM32F103ZET6 single-chip microcontroller of control chip, TFT-LCD display screen DC pin is connect with the PE11 pin of the STM32F103ZET6 single-chip microcontroller of control chip, and TFT-LCD is shown Screen BLK pin is connect with the PE12 pin for the STM32F103ZET6 single-chip microcontroller for controlling chip, TFT-LCD display screen MISO pin It is connect with the PA6 pin of the STM32F103ZET6 single-chip microcontroller of control chip, TFT-LCD display screen CS1 pin and control chip The PA4 pin of STM32F103ZET6 single-chip microcontroller connects, and is chip select pin, TFT-LCD display screen CS2 pin and control chip The PE13 pin of STM32F103ZET6 single-chip microcontroller connects.

A kind of cardiopulmonary detection instruction record statistical system of the utility model, the ZigBee module I and ZigBee module II is CC2530 radio receiving transmitting module, and Zigbee I and Zigbee II pass through wireless connection.

A kind of cardiopulmonary detection instruction record statistical system of the utility model, the cardiopulmonary detection instruction record statistical system Controller further include WIFI module I, the power output end of power supply module I is connect with the power input of WIFI module I, control The signal input part of chip is connect with the signal output end of WIFI module I, controls the signal output end and WIFI module I of chip Signal input part connection；The processor of the cardiopulmonary detection instruction record statistical system further includes WIFI module II, mould of powering The power output end of block II is connect with the power input of WIFI module II, handles the signal input part and WIFI module II of chip Signal output end connection, the signal output end for handling chip connect with the signal input part of WIFI module II；I He of WIFI module WIFI module II is the WIFI module of model USR-WIFI232.

The working principle of the utility model is:

For the utility model by controller control processor, power supply module I is each module for power supply, and key module includes information Acquisition control key and storage button press information collection control key, and the state of information collection control key is locked, information collection control The signal output end of key processed is connect with the PE9 pin of the STM32F103ZET6 single-chip microcontroller of control chip, controls chip The signal output end that the PE9 pin of STM32F103ZET6 single-chip microcontroller recognizes information collection control key becomes low electricity from high level It is flat, illustrate that the key of information collection control key is pressed, state is locked, and the STM32F103ZET6 single-chip microcontroller for controlling chip obtains The information being pressed to the key of information collection control key, and the information is passed through into the STM32F103ZET6 monolithic of control chip The key of information collection control key is pressed by PA2 pin and is sent to Zigbee module I by machine, Zigbee module I by with The information that the key of information collection control key is pressed is sent to Zigbee module II by the wireless communication of Zigbee module II, The information that the key of information collection control key is pressed is sent to processing by PA3 pin by the end TXD by Zigbee module II The STM32F103ZET6 single-chip microcontroller of chip, handle chip STM32F103ZET6 single-chip microcontroller receive information collection control key by The information that key is pressed, the STM32F103ZET6 single-chip microcontroller for handling chip exports low level by PE15 pin, so that relay The PNP pipe of control terminal is connected, and the end CTRL of relay is high level, and the end IN of relay and NC termination are logical, and Mike is powered, Mike is in closed circuit to the audio-frequency information of the sound of the bounce of patient's cardiopulmonary, and a part and magnet of conducting wire do cutting magnetic Feel line movement, generates electric current, when heart is in bounce, since distance is close, this just causes the guidewire movement in microphone, thus Electric current is produced, and then the acquisition of the bounce biological information to cardiopulmonary may be implemented, is acquired and is put by LM358 amplification module Greatly, noise is filtered out finally by filter module, obtains the action message of the preferable patient's cardiopulmonary of effect, the cardiopulmonary of the patient Biological information through PC0 pin by the biological information of cardiopulmonary be sent to processing chip STM32F103ZET6 single-chip microcontroller because place Analog-digital commutator built in managing the PC0 pin of the STM32F103ZET6 single-chip microcontroller of chip, directly converts analog signals into number The cardiopulmonary information of patient is sent to Zigbee module by PA2 pin by signal, the STM32F103ZET6 single-chip microcontroller for handling chip I, the cardiopulmonary information of patient is sent to Zigbee module I by wirelessly communicating with Zigbee module I by Zigbee module II, The cardiopulmonary information of patient is sent to the STM32F103ZET6 of control chip by the end TXD by Zigbee module I by PA3 pin Single-chip microcontroller, the STM32F103ZET6 single-chip microcontroller for controlling chip receive the cardiopulmonary information of patient, by display screen by the cardiopulmonary of patient Information is shown for checking to patient oneself, while for being compared with the cardiopulmonary activity information of standard, controlling chip STM32F103ZET6 single-chip microcontroller controls display screen work, shows the cardiopulmonary activity information of patient, TFT-LCD display screen CLK pin It is connect with the PA5 pin of the STM32F103ZET6 single-chip microcontroller of control chip, is clock signal, TFT-LCD display screen MOSI pin It is connect with the PA7 pin of the STM32F103ZET6 single-chip microcontroller of control chip, is that the synchronous serial interface of TFT-LCD display screen is defeated Enter pin, when receiving data, which answers clock to keep low level, TFT-LCD display screen RES pin to TFT-LCD display screen It is connect with the PE14 pin of the STM32F103ZET6 single-chip microcontroller of control chip, is reset pin, TFT-LCD display screen DC pin It is connect with the PE11 pin of the STM32F103ZET6 single-chip microcontroller of control chip, TFT-LCD display screen BLK pin and control chip STM32F103ZET6 single-chip microcontroller the connection of PE12 pin, TFT-LCD display screen MISO pin and control chip The PA6 pin of STM32F103ZET6 single-chip microcontroller connects, and is the synchronous serial interface output pin of TFT-LCD display screen, TFT- LCD display CS1 pin is connect with the PA4 pin of the STM32F103ZET6 single-chip microcontroller of control chip, is chip select pin, TFT- LCD display CS2 pin is connect with the PE13 pin of the STM32F103ZET6 single-chip microcontroller of control chip；Acquisition is finished information Acquisition control key is pressed again, and state is changed, signal output end and the control chip of information collection control key The PE9 pin of STM32F103ZET6 single-chip microcontroller connects, and the PE9 pin for controlling the STM32F103ZET6 single-chip microcontroller of chip recognizes The signal output end of information collection control key becomes low level from high level, illustrates that the key of information collection control key is pressed, State is locked, and the PE10 of the signal output end and the STM32F103ZET6 single-chip microcontroller of control chip of information collection control key draws Foot connection, the PE10 pin for controlling the STM32F103ZET6 single-chip microcontroller of chip detect the signal output of information collection control key End becomes low level from high level, and the STM32F103ZET6 single-chip microcontroller for controlling chip obtains the key quilt of information collection control key The information pressed, and the information that information collection control key is depressed again is sent to Zigbee by PA2 pin by the information Module I, Zigbee module I are sent out by the information for being depressed again information collection control key with the wireless communication of Zigbee module II Zigbee module II is given, information collection control key is depressed again by the end TXD by PA3 pin by Zigbee module II Information is sent to the STM32F103ZET6 single-chip microcontroller of processing chip, and the STM32F103ZET6 single-chip microcontroller for handling chip receives information The information that acquisition control key is depressed again, the STM32F103ZET6 single-chip microcontroller for handling chip pass through the high electricity of PE15 pin output Flat, so that the PNP pipe of relay control terminal is ended, the end CTRL of relay is low level, and the end IN of relay and NO termination are logical, Mike's power supply circuit disconnects, and cardiopulmonary information acquisition module does not work；If the detection information of the patient needs to store simultaneously, press The state of storage button, storage button is locked, and the signal output end of storage button and the STM32F103ZET6 of control chip are mono- The PE10 pin of piece machine connects, and the PE10 pin for controlling the STM32F103ZET6 single-chip microcontroller of chip recognizes the letter of storage button Number output end becomes low level from high level, illustrates that storage button is pressed, and state is locked, controls chip STM32F103ZET6 single-chip microcontroller obtains the information that storage button is pressed, and the STM32F103ZET6 single-chip microcontroller for controlling chip passes through Memory module stores information, and CD, WP, CLK, CMD, DATA0, DATA1, DATA2 and CS/DATA3 of SD card connect respectively PD11, PD12, PD13, PD14, PD15, PC6, PC7 and PC8 pin for connecing the STM32F103ZET6 single-chip microcontroller of control chip, are deposited Storage module stores information, if storage is finished or is not required to otherwise stores, storage button is pressed again；Handle core Cardiopulmonary acquisition information can be sent to WIFI by PB10 pin by the acquisition information of cardiopulmonary by the STM32F103ZET6 single-chip microcontroller of piece Module II, WIFI module II upload the cardiopulmonary information of acquisition；The STM32F103ZET6 single-chip microcontroller for controlling chip will receive To cardiopulmonary acquisition information cardiopulmonary acquired by information by PB10 pin be sent to WIFI module I, WIFI module I is by the heart of acquisition Lung information is uploaded, and dual upload is corrected inspection in order to avoid generating error, mitigates the work load of medical worker.

Certainly, above description is not limitation of the utility model, and the utility model is also not limited to the example above, this skill The variations, modifications, additions or substitutions that the those of ordinary skill in art field is made in the essential scope of the utility model, also belong to In the protection scope of the utility model.

Claims (9)

1. a kind of cardiopulmonary detection instruction record statistical system, it is characterised in that: cardiopulmonary detection indicates that record statistical system includes Controller and processor；Controller includes control chip, power supply module I, key module, memory module, display screen and ZigBee Module I；Dividing processor includes processing chip, power supply module II, cardiopulmonary information acquisition module and ZigBee module II；The heart Lung information acquisition module includes relay, Mike, amplification module and filter module；The output end of relay and the power supply control of Mike End connection processed, the signal output end of Mike are connect with amplification module, and the output end of amplification module is connect with filter module；

The described output of power supply module I is 5V direct current, the power output end of power supply module I respectively with memory module, control core Piece, display screen are connected with the power input of ZigBee module I；The output of power supply module II is 5V direct current, mould of powering The power output end of block II power input, the ZigBee with the control terminal of the processing power input of chip, relay respectively The power input of module II, the power input of Mike, the power input of amplification module and the power input of filter module End；ZigBee module I and ZigBee module II pass through wireless connection；

The signal input part of the control chip is connect with the signal output end of key module and ZigBee module I respectively, institute The signal output end for the control chip stated is connect with the signal input part of memory module and display screen respectively；The processing chip Signal input part and filter module signal output end connect, handle the signal output end of chip and the letter of ZigBee module II The connection of number input terminal.

2. a kind of cardiopulmonary detection instruction record statistical system according to claim 1, it is characterised in that: the control core Piece and processing chip are STM32 series STM32F103ZET6 single-chip microcontroller.

3. a kind of cardiopulmonary detection instruction record statistical system according to claim 1, it is characterised in that: the key mould Block is MS-666 self-locking type key.

4. a kind of cardiopulmonary detection instruction record statistical system according to claim 1, it is characterised in that: the relay For the Omron single-pole double-throw relay of model G2R-1-SN.

5. a kind of cardiopulmonary detection instruction record statistical system according to claim 1, it is characterised in that: the amplification mould Block is LM358 amplification module.

6. a kind of cardiopulmonary detection instruction record statistical system according to claim 1, it is characterised in that: the filtering mould Block is RC filter module.

7. a kind of cardiopulmonary detection instruction record statistical system according to claim 1, it is characterised in that: the display screen For TFT-LCD display screen.

8. a kind of cardiopulmonary detection instruction record statistical system according to claim 1, it is characterised in that: the ZigBee Module I and ZigBee module II are CC2530 radio receiving transmitting module.

9. a kind of cardiopulmonary detection instruction record statistical system according to claim 1, it is characterised in that: the cardiopulmonary inspection The controller for surveying instruction record statistical system further includes WIFI module I, power output end and the WIFI module I of power supply module I Power input connection, the signal input part for controlling chip are connect with the signal output end of WIFI module I, control the signal of chip Output end is connect with the signal input part of WIFI module I；The processor of the cardiopulmonary detection instruction record statistical system also wraps WIFI module II is included, the power output end of power supply module II is connect with the power input of WIFI module II, handles the letter of chip Number input terminal is connect with the signal output end of WIFI module II, and the signal output end for handling chip and the signal of WIFI module II are defeated Enter end connection；WIFI module I and WIFI module II are the WIFI module of model USR-WIFI232.