CN202355412U - Remote measurement module for related physiological information in rehabilitation trainning process - Google Patents

Abstract

The utility model discloses a remote measurement module for related physiological information in the rehabilitation trainning process, which comprises a myoelectricity detection module, a blood oxygen detection module, a muscular tension detection module, a breathing detection module, a microprocessor module, a wireless sending module, a wireless reception module, a local computer and a remote comoputer. The myoelectricity detection module, the blood oxygen detection module, the muscular tension detection module, the breathing detection module, the microprocessor module and the wireless sending module are arranged at a data collection end, while the wireless reception module and the local computer are arranged at a data reception end. The wireless reception module receives a wireless data signal sent out by the wireless sending module and then transmits the received wireless data signal to the local computer. The local computer is in communication with the remote computer through Internet. The remote measurement module provided by the utility model can measure a plurality of physiological signals, while the users' trouble of wiring is avoided. The remote measurement module is also convenient to wear and meets the requirements of remote rehabilitation training.

Description

The remote measurement module of relevant physiological information in the rehabilitation training process

Technical field

This utility model relates to a kind of physiologic information monitoring technology, relates to a kind of device that is used for the relevant human body physiologic information of remote measurement rehabilitation training process particularly.

Background technology

In recent years, owing to the increase of apoplexy sickness rate and increasing of athletic injury patient, greatly promoted the development and the demand of rehabilitation medical apparatus.And the patient often needs remote real time monitoring patient's physiologic information in the process of carrying out rehabilitation training, so that for the doctor correctly diagnoses the state of an illness and the rehabilitation training scheme of the science of formulation basic foundation is provided.But; The employed physiologic information measuring device of hospital costs an arm and a leg usually, volume is big and use inconvenience; When measuring the multiple physiological signal; User must connect all pick offs through electric wire on one's body, possibly also need a huger main frame usually, and this will seriously limit the action of user.Moreover if need during measuring, move the time, medical personnel just must connect connecting line again, and this also causes a lot of troubles to medical personnel.

Monitoring how to carry out physiologic information simply, easily is the trend of current research always; Miniaturization, portable physiological monitoring device have appearred on the market; On one's body when measuring, can being placed at one's side or directly being worn on, but the part portable product does not fundamentally alleviate the heavy burden of user, and most products have but been simplified its function when pursuing miniaturization; Often can only measure single physiological signal, and not support remote monitoring physiologic information.Therefore, still need strengthen the simplicity and the practicality of physiologic information monitoring device, solve the demand of special occasions remote monitoring.

Summary of the invention

The main purpose of this utility model promptly is to provide a kind of multiple physiological information measurement module, and its volume is little, and is in light weight, under the prerequisite that does not increase the user burden, can accomplish the extraction to multiple physiological signal.

Another purpose of this utility model is to provide a kind of multiple physiological information remote measurement module; It can carry out wireless connections through wireless transmission interface and local PC; Through network the relevant physiological information of user is sent to far-end monitoring center by local PC again, can realize the purpose of long distance monitoring.

The another purpose of this utility model is to provide a kind of multiple physiological information remote measurement module that is used for the rehabilitation training process, and it uses simple, is convenient to wear with mobile, can measure the multiple physiologic information of user in the rehabilitation training process by remote live.For achieving the above object, the technical scheme of this utility model specifically is achieved in that

The remote measurement module of relevant physiological information in a kind of rehabilitation training process comprises:

The checking with EMG method module of a, data acquisition end, blood oxygen detection module, muscular tension detection module, respiration detection module, microprocessor module and wireless sending module;

The wireless receiving module of b, data receiver and local side computer;

C, far-end computer;

The signal input part of the signal input part of the signal input part of checking with EMG method module, blood oxygen detection module, the signal input part of muscular tension detection module and respiration detection module is connected with corresponding myoelectricity, blood oxygen, muscular tension and breath signal pick off respectively; The signal output part of the signal output part of the signal output part of checking with EMG method module, blood oxygen detection module, the signal output part of muscular tension detection module and respiration detection module connects the input of microprocessor module respectively through the A/D modular converter; Data reception/the transmitting terminal of microprocessor module connects the cable data reception/transmitting terminal of wireless sending module; The external transmitting/receiving wireless data signal of the wireless data reception/transmitting terminal of wireless sending module;

Wireless receiving module receives the wireless data signal from wireless sending module, passes to the local side computer then; The local side computer is communicated by letter with far-end computer through the Internet;

Said checking with EMG method module comprises that pre-amplification circuit, bivalent high-pass filter, second-order low-pass filter, second amplifying circuit and level raise circuit; Pre-amplification circuit receives the signal from myoelectric sensor, and amplifies; Amplifying the back exports after signal is raised circuit through bivalent high-pass filter, second-order low-pass filter, second amplifying circuit and level successively;

Said blood oxygen detection module comprises sensor drive driving circuit, D/A change-over circuit, I/V change-over circuit and amplifying circuit;

The control signal output ends of said microprocessor module is through the control end of D/A change-over circuit connection sensor drive driving circuit, and the drive output of sensor drive driving circuit connects the light source input of blood oxygen transducer; The light sensor outfan of blood oxygen transducer connects the input of I/V change-over circuit, and the outfan of I/V change-over circuit connects the input of microprocessor module through amplifying circuit;

Said muscular tension detection module comprises the first dividing potential drop follow circuit and the second dividing potential drop follow circuit; The input of the first dividing potential drop follow circuit links to each other with the fore-set force signal outfan of muscular tension pick off, and the outfan of the first dividing potential drop follow circuit is muscular tension signal Fb; The input of the second dividing potential drop follow circuit applies the force signal outfan with muscular tension pick off binder and links to each other, and the outfan of the second dividing potential drop follow circuit is muscular tension signal Ft;

Said respiration detection module comprises compensating circuit and pre-amplification circuit; Compensating circuit compensates the signal from the breath signal pick off, and the signal after the compensation is exported through pre-amplification circuit.

Microprocessor module is the mixed signal single-chip microcomputer;

Wireless sending module is the Bluetooth wireless transmission module; The UART interface of mixed signal single-chip microcomputer and the UART interface of Bluetooth wireless transmission module communicate;

Wireless receiving module comprises that USB interface, serial ports change USB circuit and Bluetooth wireless transmission module; The wireless data signal that the Bluetooth wireless transmission module receives is passed to USB interface after serial ports changes the USB circuit conversion; The local side USB interface of computer is connected with the USB interface of wireless receiving module.

For the checking with EMG method mould, the shared same double operational circuit of said bivalent high-pass filter and second-order low-pass filter, secondary amplify with level raises the shared same double operational circuit of circuit; The outfan of myoelectric sensor is connected with the input of pre-amplification circuit with the differential signal form through behind the capacitance-resistance filter earlier.

Light source for blood oxygen detection module comprises red diodes and infrared light diode;

Said sensor drive driving circuit comprises PNP audion Q1, PNP audion Q2, NPN audion Q3 and NPN audion Q4;

The colelctor electrode of Q1 connects the red diodes anode respectively and is connected red diodes negative electrode and infrared light diode anode respectively with the colelctor electrode of infrared light diode cathode, Q2; The emitter stage of Q1, Q2 connects high level;

The colelctor electrode of Q3 connects the red diodes anode respectively and is connected red diodes negative electrode and infrared light diode anode respectively with the colelctor electrode of infrared light diode cathode, Q4; The grounded emitter of Q3, Q4;

The base stage of Q1, Q2 links to each other with the control signal output ends pin of microprocessor module through a resistance respectively, by the infrared light diode of microprocessor module control blood oxygen transducer and the alternately light on and off of red diodes; The base stage of Q3, Q4 is connected with voltage output end VOUTB, the VOUTA of D/A change-over circuit respectively, and the size of its output voltage is used to regulate the luminous intensity of red diodes and infrared light diode, and voltage is big more, and the brightness of light emitting diode is strong more.。

For blood oxygen detection module, the I/V change-over circuit is a current-to-voltage convertor; The negative electrode of the light sensor of blood oxygen transducer connects the first input end of I/V change-over circuit, is biased voltage between second input of I/V change-over circuit and the light sensor anode; The outfan of I/V change-over circuit is connected to an input of amplifying circuit, and another input of amplifying circuit connects an outfan of D/A change-over circuit.

The control principle of blood oxygen transducer is; Sensor drive driving circuit can be connected respectively with infrared light diode anode end with infrared light diode cathode end, red diodes negative electrode with the red diodes anode of blood oxygen transducer; Under the effect of microprocessor module; The red diodes and the infrared light diode of control blood oxygen transducer are alternately luminous, and under the effect of D/A change-over circuit, regulate the luminous intensity of HONGGUANG and infrared light light emitting diode; To guarantee light after seeing through the finger of different crowd, intensity is in suitable scope;

The data input of above-mentioned D/A change-over circuit, clock signal input terminal are connected with data outfan, the clock signal output terminal of microprocessor module respectively; The faint light current signal of the light sensor negative electrode output of blood oxygen transducer is connected to an input of I/V change-over circuit; And on the light sensor anode of another input of I/V change-over circuit and blood oxygen transducer, add a bias voltage and disturb to eliminate dark current; The I/V change-over circuit amplifies the faint light current signal that receives and converts voltage signal into, exports the blood oxygen DC component and the atomic weak AC compounent signal that are superimposed; The outfan of I/V change-over circuit is connected to an input of amplifying circuit; Another input of amplifying circuit connects the DC component signal of an outfan of D/A conversion chip with subduction blood oxygen, and amplifying circuit extracts the atomic weak AC compounent signal and the AC compounent signal of amplification back output blood oxygen.

The principle of checking with EMG method module is; Pre-amplification circuit receives the differential potential signal (myoelectric sensor of for example being made up of three electrodes from myoelectric sensor; The signal of these three electrode outputs is the signal of myoelectric sensor), and amplify the electromyographic signal that obtains the millivolt level; Mixing in the electromyographic signal of this moment has more High-frequency Interference and low-frequency disturbance, through bivalent high-pass filter and second-order low-pass filter filtering well; After second amplifying circuit amplifies, obtain disturbing the electromyographic signal of less volt level again; Raise circuit through level at last the negative voltage composition in the electromyographic signal is lifted to the positive voltage scope, can be with the respective pins of the electromyographic signal input A/D conversion that obtains.

The principle of this remote measurement module is explained as follows:

It comprises: multiple physiological signal sensing element; It comprises a plurality of pick offs: a pulse oximetry sensor, a myoelectric sensor, a respiration pickup and a muscular tension pick off; In the rehabilitation training process, user can be worn one or more pick offs in above-mentioned 4 pick offs as required to obtain its corresponding physiological signal;

Connecting interface is used to connect above-mentioned physiological signal sensing element;

The checking with EMG method module, it comprises, and electromyographic signal is amplified, the Filtering Processing circuit, is used to detect electromyographic signal;

Blood oxygen detection module, it comprises the amplification of blood oxygen saturation coherent signal, processing and sensor control circuit, is used to detect the blood oxygen saturation coherent signal;

The muscular tension detection module mainly comprises the muscular tension signal amplification circuit, is used to detect the muscular tension signal;

The respiration detection module, it comprises, and breath signal is handled, amplifying circuit, is used to detect breath signal;

Microprocessor module is used for gathering and handling above-mentioned physiological signal, and communicates by letter with wireless sending module foundation through serial ports;

Wireless sending module is used for the relevant physiological information of extracting is sent to the local side PC;

Power module is used for to entire circuit system power supply, and said power module comprises joint lithium battery, battery charge interface and a power supply processing module, and wherein, power supply processing module provides the battery function with the Circuits System power supply of charging;

Wireless receiving module is used to set up the wireless connections between said physiologic information measurement module and the local PC, receives the physiologic information that is sent by wireless sending module;

The local side man-machine interactive system is used to receive and show in real time the relevant physiological information of user, and can store, manage the personal information and the relevant physiological information of user, also can above-mentioned information be sent to the monitoring center of far-end through network;

Far-end monitoring center man-machine interactive system; Through Internet network real-time or regular personal information and the relevant physiological information that receives from the local side user; And can carry out storage and management to above-mentioned information; Make the doctor at monitoring center can in time grasp the relevant physiological information of user in the rehabilitation training process, and can be used as the basic foundation of rehabilitation situation that the doctor diagnoses user and next step rehabilitation training scheme of formulation.

Compare with existing physiologic information monitoring device, the utlity model has following advantage:

(1) this utility model connects local side PC and far-end monitoring center through the Internet network, realizes the physiologic information of doctor's long distance monitoring user, has satisfied the demand of remote rehabilitation training.(2) between physiologic information measurement module and the local side PC through wireless connections, do not influence user moving in the rehabilitation training process, reduced the trouble of user wiring.(3) can measure multiple physiological signal.(4) through selecting for use little encapsulation components and parts to reduce the volume and the weight of measurement module, easy to use wearing.

Description of drawings

Fig. 1 shows the composition structural representation of relevant physiological information remote measurement module in this utility model rehabilitation training process;

Fig. 2 shows the checking with EMG method module circuit diagram of this utility model physiologic information measurement module;

Fig. 3 shows the blood oxygen detection module circuit diagram of this utility model physiologic information measurement module;

Fig. 4 shows the muscular tension detection module circuit diagram of this utility model physiologic information measurement module;

Fig. 5 shows the respiration detection module circuit diagram of this utility model physiologic information measurement module;

Fig. 6 shows the microcontroller circuit figure of this utility model physiologic information measurement module;

Fig. 7 shows the wireless sending module circuit diagram of this utility model physiologic information measurement module;

Fig. 8 shows the power module circuitry figure of this utility model physiologic information measurement module;

Fig. 9 shows the wireless receiving module circuit diagram of this utility model physiologic information measurement module.

The specific embodiment

Below will combine accompanying drawing and concrete embodiment that this utility model is done further explain.

The remote measurement module of relevant physiological information in a kind of rehabilitation training process comprises:

The checking with EMG method module of a, data acquisition end, blood oxygen detection module, muscular tension detection module, respiration detection module, microprocessor module and wireless sending module;

The wireless receiving module of b, data receiver and local side computer;

C, far-end computer;

Wireless receiving module receives the wireless data signal from wireless sending module, passes to the local side computer then; The local side computer is communicated by letter with far-end computer through the Internet;

The signal input part of the signal input part of the signal input part of checking with EMG method module, blood oxygen detection module, the signal input part of muscular tension detection module and respiration detection module is connected with corresponding myoelectricity, blood oxygen, muscular tension and breath signal pick off respectively; The signal output part of the signal output part of the signal output part of checking with EMG method module, blood oxygen detection module, the signal output part of muscular tension detection module and respiration detection module connects the input of microprocessor module respectively through the A/D modular converter; Data reception/the transmitting terminal of microprocessor module connects the cable data reception/transmitting terminal of wireless sending module; The external transmitting/receiving wireless data signal of the wireless data reception/transmitting terminal of wireless sending module;

Said checking with EMG method module comprises that pre-amplification circuit, bivalent high-pass filter, second-order low-pass filter, second amplifying circuit and level raise circuit; Pre-amplification circuit receives the signal from myoelectric sensor, and amplifies; Amplifying the back exports after signal is raised circuit through bivalent high-pass filter, second-order low-pass filter, second amplifying circuit and level successively;

Said blood oxygen detection module comprises sensor drive driving circuit, D/A change-over circuit, I/V change-over circuit and amplifying circuit;

The control signal output ends of said microprocessor module is through the control end of D/A change-over circuit connection sensor drive driving circuit, and the drive output of sensor drive driving circuit connects the light source input of blood oxygen transducer; The light sensor outfan of blood oxygen transducer connects the input of I/V change-over circuit, and the outfan of I/V change-over circuit connects the input of microprocessor module through amplifying circuit;

Said muscular tension detection module comprises the first dividing potential drop follow circuit and the second dividing potential drop follow circuit; The input of the first dividing potential drop follow circuit links to each other with the fore-set force signal outfan of muscular tension pick off, and the outfan of the first dividing potential drop follow circuit is muscular tension signal Fb; The input of the second dividing potential drop follow circuit applies the force signal outfan with muscular tension pick off binder and links to each other, and the outfan of the second dividing potential drop follow circuit is muscular tension signal Ft;

Said respiration detection module comprises compensating circuit and pre-amplification circuit; Compensating circuit compensates the signal from the breath signal pick off, and the signal after the compensation is exported through pre-amplification circuit.

Microprocessor module is the mixed signal single-chip microcomputer;

Wireless sending module is the Bluetooth wireless transmission module; The UART interface of mixed signal single-chip microcomputer and the UART interface of Bluetooth wireless transmission module communicate;

Wireless receiving module comprises that USB interface, serial ports change USB circuit and Bluetooth wireless transmission module; The wireless data signal that the Bluetooth wireless transmission module receives is passed to USB interface after serial ports changes the USB circuit conversion; The local side USB interface of computer is connected with the USB interface of wireless receiving module.

For the checking with EMG method mould, the shared same double operational circuit of said bivalent high-pass filter and second-order low-pass filter, secondary amplify with level raises the shared same double operational circuit of circuit; The outfan of myoelectric sensor is connected with the input of pre-amplification circuit with the differential signal form through behind the capacitance-resistance filter earlier.

Light source for blood oxygen detection module comprises red diodes and infrared light diode;

Said sensor drive driving circuit comprises PNP audion Q1, PNP audion Q2, NPN audion Q3 and NPN audion Q4;

The colelctor electrode of Q1 connects the red diodes anode respectively and is connected red diodes negative electrode and infrared light diode anode respectively with the colelctor electrode of infrared light diode cathode, Q2; The emitter stage of Q1, Q2 connects high level;

The colelctor electrode of Q3 connects the red diodes anode respectively and is connected red diodes negative electrode and infrared light diode anode respectively with the colelctor electrode of infrared light diode cathode, Q4; The grounded emitter of Q3, Q4;

The base stage of Q1, Q2 links to each other with the control signal output ends pin of microprocessor module through a resistance respectively, by the infrared light diode of microprocessor module control blood oxygen transducer and the alternately light on and off of red diodes; The base stage of Q3, Q4 is connected with voltage output end VOUTB, the VOUTA of D/A change-over circuit respectively, and the size of its output voltage is used to regulate the luminous intensity of red diodes and infrared light diode, and voltage is big more, and the brightness of light emitting diode is strong more.。

For blood oxygen detection module, the I/V change-over circuit is a current-to-voltage convertor; The negative electrode of the light sensor of blood oxygen transducer connects the first input end of I/V change-over circuit, is biased voltage between second input of I/V change-over circuit and the light sensor anode; The outfan of I/V change-over circuit is connected to an input of amplifying circuit, and another input of amplifying circuit connects an outfan of D/A change-over circuit.

Specific in this example,

See also Fig. 1, it shows the composition structural representation according to the remote measurement module of relevant physiological information in the rehabilitation training process of this utility model.As shown in Figure 1, it comprises connecting interface, checking with EMG method module, blood oxygen detection module, muscular tension detection module, respiration detection module, microprocessor module, wireless sending module, power module, wireless receiving module, local side computer and the far-end computer that is used to connect pick off.A myoelectric sensor, a blood oxygen transducer, a muscular tension pick off are connected with corresponding connecting interface respectively with a respiration pickup; Checking with EMG method module, blood oxygen detection module, muscular tension detection module and respiration detection module be respectively through the output signal of corresponding connecting interface receiving sensor, detects behind myoelectricity, blood oxygen, muscular tension and the breath signal with the pin of the integrated A/D modular converter of microprocessor internal to be connected; The UART input/output terminal of microprocessor is connected with the I/O of wireless sending module respectively; Wireless receiving module is connected with the local side computer through USB interface, sets up with the local side man-machine interactive system and communicates by letter; The local side computer is connected with far-end computer through the Internet network.

The checking with EMG method module circuit diagram is as shown in Figure 2; The checking with EMG method module is raised circuit 205 by pre-amplification circuit 201, bivalent high-pass filter 202, second-order low-pass filter 203, second amplifying circuit 204 and level and is formed; It is the low-power consumption instrumentation amplifier of AD8226 that pre-amplification circuit adopts model; The shared low-power consumption of bivalent high-pass filter and second-order low-pass filter, low noise double operational chip ADA4841-2, secondary amplifies and level is raised the also shared double operational chip ADA4841-2 of circuit.The outfan of myoelectric sensor is connected with the input of differential signal form with instrumentation amplifier AD8226 through behind the capacitance-resistance filter; The outfan of instrumentation amplifier AD8226 is connected with the input (end of capacitor C 0-4) of bivalent high-pass filter 202; The outfan of bivalent high-pass filter 202 (1 pin of ADA4841-2) links to each other with the input (end of resistance R 0-6) of second-order low-pass filter 203; The outfan of second-order low-pass filter 203 (7 pins of ADA4841-2) is connected with the input (end of R0-10) of second amplifying circuit 204; The outfan of second amplifying circuit 204 links to each other with the input (R0-15) that level is raised circuit 205; The outfan OUT1 that level is raised circuit 205 is electromyographic signal, links to each other with the respective pins (P1.3) of the A/D modular converter of microprocessor.

Blood oxygen detection module circuit diagram is as shown in Figure 3; Blood oxygen detection module is made up of sensor drive driving circuit 301, D/A change-over circuit 302, I/V change-over circuit 303 and amplifying circuit 304; It is the 12 figure place mould conversion chips of DAC7573 that D/A change-over circuit 302 is selected model for use; I/V change-over circuit 303 adopts low noise amplifier AD8663, and amplifying circuit 304 is selected single amplifier chip AD4841-1 for use.The base stage of Q1, Q2 links to each other with P0.1, the P0.0 pin of microprocessor through a resistance respectively in the sensor drive driving circuit 301, and the base stage of Q3, Q4 is connected with outfan VOUTA, the VOUTB of D/A change-over circuit 302 respectively; The data signal SDA of the I2C bus of D/A conversion chip DAC7573, clock signal SCL link to each other with P0.2, the P0.3 pin of microprocessor respectively; Control signal pin LDAC links to each other with the P0.7 pin of microprocessor, and the outfan VOUTC of DAC7573 is connected to the positive input of amplifying circuit 304; The outfan OUT2 of I/V change-over circuit 303 is the blood oxygen DC component that is superimposed and atomic weak AC compounent signal, links to each other with the respective pins (P1.0) of the A/D modular converter of microprocessor; The outfan OUT3 of amplifying circuit 304 is the AC compounent signal of blood oxygen, links to each other with the respective pins (P1.5) of the A/D modular converter of microprocessor.

Muscular tension detection module circuit diagram is as shown in Figure 4, is made up of dividing potential drop follow circuit 401 and 402, and follower adopts double operational ADA4841-2.The input SIG1 of dividing potential drop follow circuit 401 links to each other with the fore-set force signal of muscular tension pick off, and the outfan OUT4 of follower is muscular tension signal (Fb), links to each other with the respective pins (P1.6) of the A/D modular converter of microprocessor; The input SIG2 of dividing potential drop follow circuit 402 links to each other with muscular tension pick off force signal that binder applies, and the outfan OUT5 of follower is muscular tension signal (Ft), links to each other with the respective pins (P1.7) of the A/D modular converter of microprocessor.

The respiration detection module circuit diagram is as shown in Figure 5, is made up of compensating circuit 501 and pre-amplification circuit 502, and pre-amplification circuit 502 adopts instrumentation amplifier AD8221.An end of respiration pickup is connected with resistance R 2-7, R2-2 in the compensating circuit 501; The other end is connected with resistance R 2-2, R2-4; And being connected to the positive input of pre-amplification circuit 502 as output, resistance R 2-1, R2-3 are connected to the reverse input end of pre-amplification circuit 502; In the pre-amplification circuit 502 output pin 7 of AD8221 through the capacitance-resistance filter of forming by R2-8, C2-1 after as the outfan OUT6 of pre-amplification circuit 502, link to each other with the respective pins (P1.4) of the A/D modular converter of microprocessor.

See also Fig. 6; It is the mixed signal single-chip microcomputer of C8051F410 that microprocessor is selected model for use; The transmission pin (P0.4) of its serial ports UART receives pin with the UART of wireless sending module and links to each other, and the UART of C8051F410 receives pin (P0.5) and links to each other with the UART transmission pin of wireless sending module.Wireless sending module is as shown in Figure 7, selects BC417 Bluetooth wireless transmission module for use.

Power module circuitry figure is as shown in Figure 8, by charging inlet 801,5V booster circuit 802,3.3V reduction voltage circuit 803,3V reference voltage circuit 804 and-the 5V negater circuit.Charging inlet 801 links to each other anodal input as 5V booster circuit 802 with a joint lithium battery; 5V booster circuit 802 is selected the chip TPS61032 that boosts for use, and its peripheral circuit connects method with reference to its technical manual, and outfan 5_VDD is a 5V voltage; 3.3V reduction voltage circuit 803 adopts linear low pressure differential chip LM1117, its peripheral circuit connects method with reference to its technical manual, and input is a 5V voltage, and outfan 3.3_VDD is a 3.3V voltage; 3V reference voltage circuit 804 is selected chip AD1583 for use, and its peripheral circuit connects method with reference to its technical manual, and input is a 5V voltage, and outfan is a 3V voltage, as the reference voltage of D/A conversion chip DAC7573 and microprocessor (C8051F410) A/D modular converter;-5V negater circuit is selected chip MAX660 for use, and its peripheral circuit connects method with reference to its technical manual, and input is a 5V voltage, and outfan-5_VDD is-5V voltage.

The wireless receiving module circuit diagram is as shown in Figure 9, is made up of USB interface 901, serial ports commentaries on classics USB circuit 902 and BC417 Bluetooth wireless transmission module 903.USB interface 901 is selected the Type B USB interface for use, is connected with the local side computer; Serial ports changes USB circuit 902 and selects chip CP2102 for use; The usb data wire pin D+ of CP2102, D-are connected with D+, the D-pin of USB interface 901 respectively, and its UART receives, sends pin and links to each other with UART transmission, the reception pin of BC417 Bluetooth wireless transmission module 903 respectively.

Claims (5)

1. the remote measurement module of relevant physiological information in the rehabilitation training process is characterized in that comprising:

The checking with EMG method module of data acquisition end, blood oxygen detection module, muscular tension detection module, respiration detection module, microprocessor module and wireless sending module;

The wireless receiving module of data receiver and local side computer;

Far-end computer;

The signal input part of the signal input part of the signal input part of checking with EMG method module, blood oxygen detection module, the signal input part of muscular tension detection module and respiration detection module is connected with corresponding myoelectricity, blood oxygen, muscular tension and breath signal pick off respectively; The signal output part of the signal output part of the signal output part of checking with EMG method module, blood oxygen detection module, the signal output part of muscular tension detection module and respiration detection module connects the input of microprocessor module respectively through the A/D modular converter; Data reception/the transmitting terminal of microprocessor module connects the cable data reception/transmitting terminal of wireless sending module; The external transmitting/receiving wireless data signal of the wireless data reception/transmitting terminal of wireless sending module;

Wireless receiving module receives the wireless data signal from wireless sending module, passes to the local side computer then; The local side computer is communicated by letter with far-end computer through the Internet;

Said checking with EMG method module comprises that pre-amplification circuit, bivalent high-pass filter, second-order low-pass filter, second amplifying circuit and level raise circuit; Pre-amplification circuit receives the signal from myoelectric sensor, and amplifies; Amplifying the back exports after signal is raised circuit through bivalent high-pass filter, second-order low-pass filter, second amplifying circuit and level successively;

Said blood oxygen detection module comprises sensor drive driving circuit, D/A change-over circuit, I/V change-over circuit and amplifying circuit; The control signal output ends of said microprocessor module is through the control end of D/A change-over circuit connection sensor drive driving circuit, and the drive output of sensor drive driving circuit connects the light source input of blood oxygen transducer; The light sensor outfan of blood oxygen transducer connects the input of I/V change-over circuit, and the outfan of I/V change-over circuit connects the input of microprocessor module through amplifying circuit;

Said muscular tension detection module comprises the first dividing potential drop follow circuit and the second dividing potential drop follow circuit; The input of the first dividing potential drop follow circuit links to each other with the fore-set force signal outfan of muscular tension pick off, and the outfan of the first dividing potential drop follow circuit is muscular tension signal Fb; The input of the second dividing potential drop follow circuit applies the force signal outfan with muscular tension pick off binder and links to each other, and the outfan of the second dividing potential drop follow circuit is muscular tension signal Ft;

Said respiration detection module comprises compensating circuit and pre-amplification circuit; Compensating circuit compensates the signal from the breath signal pick off, and the signal after the compensation is exported through pre-amplification circuit.

2. remote measurement module according to claim 1 is characterized in that: microprocessor module is the mixed signal single-chip microcomputer;

Wireless sending module is the Bluetooth wireless transmission module; The UART interface of mixed signal single-chip microcomputer and the UART interface of Bluetooth wireless transmission module communicate;

Wireless receiving module comprises that USB interface, serial ports change USB circuit and Bluetooth wireless transmission module; The wireless data signal that the Bluetooth wireless transmission module receives is passed to USB interface after serial ports changes the USB circuit conversion; The local side USB interface of computer is connected with the USB interface of wireless receiving module.

3. remote measurement module according to claim 1 is characterized in that: for the checking with EMG method mould, the shared same double operational circuit of said bivalent high-pass filter and second-order low-pass filter, secondary amplify with level raises the shared same double operational circuit of circuit; The outfan of myoelectric sensor is connected with the input of pre-amplification circuit with the differential signal form through behind the capacitance-resistance filter earlier.

4. remote measurement module according to claim 1 is characterized in that: the light source for blood oxygen detection module comprises red diodes and infrared light diode;

Said sensor drive driving circuit comprises PNP audion Q1, PNP audion Q2, NPN audion Q3 and NPN audion Q4;

The colelctor electrode of Q1 connects the red diodes anode respectively and is connected red diodes negative electrode and infrared light diode anode respectively with the colelctor electrode of infrared light diode cathode, Q2; The emitter stage of Q1, Q2 connects high level;

The colelctor electrode of Q3 connects the red diodes anode respectively and is connected red diodes negative electrode and infrared light diode anode respectively with the colelctor electrode of infrared light diode cathode, Q4; The grounded emitter of Q3, Q4;

The base stage of Q1, Q2 links to each other with the control signal output ends of microprocessor module through a resistance respectively; The base stage of Q3, Q4 is connected with voltage output end VOUTB, the VOUTA of D/A change-over circuit respectively.

5. remote measurement module according to claim 1 is characterized in that: for blood oxygen detection module, the I/V change-over circuit is a current-to-voltage convertor; The negative electrode of the light sensor of blood oxygen transducer connects the first input end of I/V change-over circuit, is biased voltage between second input of I/V change-over circuit and the light sensor anode;

The outfan of I/V change-over circuit is connected to an input of amplifying circuit, and another input of amplifying circuit connects an outfan of D/A change-over circuit.

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