CN109893763A - A kind of device for alleviating hypertension and the portable instrument using the device - Google Patents

Abstract

The present invention provides the portable instruments of a kind of device for alleviating hypertension and the application device, and structure is simple, and hypertension can be effectively relieved, and are convenient for residential use；It includes power supply unit and the processing unit being connected electrically, it further includes data storage cell, the data detecting unit, wave generating unit, driving unit powered by power supply unit, the processing unit is electrically connected with the wave generating unit, driving unit sequence, the data storage cell is connected to the processing unit, the data detecting unit with the processing unit is two-way is electrically connected.

Description

A kind of device for alleviating hypertension and the portable instrument using the device

Technical field

The present invention relates to technical field of medical equipment, specially a kind of device for alleviating hypertension and the application device are just Take instrument.

Background technique

Hypertension (hypertension) refers to that it is main for increasing with systemic arterial blood pressure (systolic pressure and/or diastolic pressure) Feature (systolic pressure >=140 millimetress of mercury, diastolic pressure >=90 millimetress of mercury), can be with the function or device matter of the organs such as the heart, brain, kidney Property damage clinical syndrome, hypertension is the most common chronic disease and the most important risk factor of cardiovascular and cerebrovascular diseases, generally Control blood pressure is to have an injection to take medicine, and also has acupuncture/needle base therapy, and exactly at arteries and veins or proximity penetrates into acupuncture needle, but it is needed specially With instrument, and required voltage is between 35V~220V, and this instrument mainly gets through collaterals of human by adjusting current wave, To sum up, it is controlled by drug, not only there is side effect, had injury to body, also need to take for a long time, it is extremely inconvenient, and by adjusting The operation of current wave, Current Voltage to 220V have security risk, and therefore, need a kind of low pressure low frequency at present has treatment again The equipment of effect.

Summary of the invention

In view of the above-mentioned problems, the present invention provides the portable instrument of a kind of device for alleviating hypertension and the application device, Structure is simple, and hypertension can be effectively relieved, and is convenient for residential use.

Its technical solution is such that a kind of device for alleviating hypertension comprising power supply unit and is connected electrically Processing unit, it is characterised in that: it further includes data storage cell, the data detecting unit, waveform powered by power supply unit Unit, driving unit are generated, the processing unit is electrically connected with the wave generating unit, driving unit sequence, the data Storage unit is connected to the processing unit, the data detecting unit with the processing unit is two-way is electrically connected.

It is further characterized by:

Said supply unit includes management of charging and discharging device U1, voltage-stablizer U2, capacitor C1~C6, resistance R1, battery BAT, USB Interface U3, it is HM2516 management of charging and discharging device using model that the battery BAT, which uses 3.7V, the management of charging and discharging device U1,；Institute It is HX6211 voltage-stablizer that voltage-stablizer U2, which is stated, using model；4 feet of one end of described capacitor C1, C2 and the management of charging and discharging device U1 Be connected and be followed by power supply VCC, the other end of described capacitor C1, C2 be connected with 2 feet of the management of charging and discharging device U1 after Ground connection, the USB interface U3 is connected to the both ends the capacitor C1, after 6 feet of the management of charging and discharging device U1 connect the resistance R1 Ground connection, 3 feet of the management of charging and discharging device U1, one end of described capacitor C3, C4, the voltage-stablizer U2 input terminal be connected to institute State battery BAT anode, one end of described capacitor C5, C6, the voltage-stablizer U2 output end be connected to power supply 3.3V, the capacitor The other end of C3, C4, C5, C6, the ground terminal of the voltage-stablizer U2, the battery BAT cathode are connected ground；

The processing unit includes controller U4, voltage-stablizer U5, capacitor C7~C14, resistance R2~R23, light emitting diode D0~D12, crystal oscillator Y1, key S1, S2, interface P1, the controller U4 are STM32F405OGY6TR controllers using model, The voltage-stablizer U5 is RT9013 voltage-stablizer using model；1,9,24,36,48 feet of the controller U4 are all connected with the power supply 44 feet of 3.3V, the controller U4 are grounded after connecting the resistance R23, and 8,23,35,47 feet of the controller U4 connect Ground, one end of the capacitor C9, the crystal oscillator Y1 1 foot be connected be followed by 5 feet of the controller U4, the capacitor C10's One end, the crystal oscillator Y1 3 feet be connected be followed by 6 feet of the controller U4, the other end of described C9, C10, the crystal oscillator Y1 2,4 feet be connected after be grounded, 18 feet of the controller U4 connect the power supply 3.3V, and the control after connecting the resistance R3 18 feet of device U4 processed are connected with 5 feet of the management of charging and discharging device U1；After one end of the capacitor C14 connects the resistance R5 The power supply 3.3V, the other end ground connection of the capacitor C14 are connected, the key S1 is connected to the both ends the capacitor C14；The electricity Hold C13, one end of resistance R4 is followed by through the key S2 in the power supply 3.3V after being connected, the capacitor C13, resistance R4 it is another One end is grounded after being connected, and one end of the resistance R4 is followed by through the resistance R2 in 14 feet of the controller U4, the capacitor One end of C14 connects 7 feet of the controller U4；The input terminal of the voltage-stablizer U5 connects the battery BAT anode, the electricity The output end of one end, the voltage-stablizer U5 for holding C11, C12, which is connected, to be followed by power supply 1.5V, and described capacitor C11, C12's is another It holds, the ground terminal of the voltage-stablizer U5 is grounded after being connected；One end of described capacitor C7, C8, which are connected, to be followed by the power supply 3.3V, The other end of described capacitor C7, C8 are grounded after being connected；1 foot of the interface P1 connects the power supply 3.3V, 5 feet of the interface P1 Ground connection, 2,3,4 feet of the interface P1 respectively correspond 34,37,7 feet for meeting the controller U4；One end of the resistance R7 passes through The resistance R6 is followed by battery BAT anode, and the other end of the resistance R7 connects 12 feet of the controller U4, the controller 11 feet of U4 are connected between described resistance R6, R7, and one end of the resistance R8 is followed by the power supply VCC, institute through the resistance R9 The other end ground connection of resistance R8 is stated, 13 feet of the controller U4 are connected between described resistance R8, R9；The light emitting diode The anode of D0, D1, D2 connect the power supply 3.3V, the light-emitting diodes after being connected respectively described resistance R10, R11, R12 The cathode of pipe D0, D1, D2 are connected respectively 27,26,25 feet of the controller U4, the light emitting diode D3~D12's Anode connects the power supply 3.3V after being connected respectively the resistance R13~R22, and the light emitting diode D3~D12's is negative Extremely it is connected to 29 feet of the controller U4；

The data storage cell includes memory U6, field-effect tube Q1, resistance R24, capacitor C15, the memory U6 It is AT24C32 memory using model, the 4 feet ground connection of the memory U6,5,6 feet of the memory U6 are connected respectively 20,21 feet of the controller U4,8 feet of the memory U6, the capacitor C15 one end, the field-effect tube Q1 leakage Extremely it is connected and is followed by power supply SVDD, the other end of the capacitor C15 is grounded, the source electrode of the field-effect tube Q1 and the resistance R24 One end be connected and be followed by the power supply 3.3V, the grid of the field-effect tube Q1 connects the other end of the resistance R24, and with institute 22 feet for stating controller U4 are connected；

The wave generating unit includes amplifier U7, resistance R25, R26, capacitor C16, C18, C19, the driving unit Including inductance L0, capacitor C17, it is TLV2761 amplifier that the amplifier U7, which uses model, and the one end the capacitor C25 connects institute 16 feet of controller U4 are stated, the other end is successively followed by with described capacitor C18, C19 series connection in 3 feet of the amplifier U7, An end of the resistance R26 is connected between described capacitor C18, C19, the other end ground connection of the resistance R26, the capacitor C16 One end, amplifier U7 7 feet be all connected with the power supply 3.3V, the other end of the capacitor C16,4 feet of amplifier U7 connect Ground, 1 foot of the amplifier U7 connect power supply 1.5V, and 2,5,6 feet of the amplifier U7 connect the inductance L0 after being connected One end, the other end of the inductance L0 is grounded after the capacitor C17；

The data detecting unit includes diode D13, D14, and the model that the diode D13 is used is that D203S shines Diode, the model that the diode D14 is used are the infrared photodiode of D203R, the anode connection institute of the diode D13 13 feet of controller U4 are stated, the anode of the diode D14 connects one end of the resistance R2, described diode D13, D14's Cathode, which is connected, to be followed by 10 feet of the controller U4.

A kind of portable instrument of the device of the application alleviation hypertension, it is characterised in that: it includes being attached at human body surface Monitoring device, the device for alleviating hypertension are assemblied in the monitoring device.

It is further characterized by:

The monitoring device includes framework, and the framework is provided with PCB circuit board, and the framework outboard end is equipped with key, The device integrated installation for alleviating hypertension is buckled with glass lens on the framework top end face in the PCB circuit board, Spiral-lock bottom case on bottom face is pasted with the heart rate eyeglass for attaching human body surface on the bottom case；

The monitoring device attaches and be applied at the one of human body surface or many places: breastbone, wrist, waist.

The invention has the advantages that first passing through data detecting unit detection collects human body condition information, in processing unit It after receiving the data information, is compared with the somatic data stored in data storage cell, being followed by subsequent processing unit can produce Frequency, and after wave generating unit tailored waveforms and Sasser, it is regular to generate that signal is enhanced by driving unit Electromagnetic wave can reach the purpose for adjusting blood pressure, to have by the regular Electromagnetic Field of generation in acupuncture point related on body Effect alleviates hypertension, significant effect.

Detailed description of the invention

Fig. 1 is structural block diagram of the invention；

Fig. 2 is the circuit diagram of power supply unit；

Fig. 3 is the circuit diagram of processing unit；

Fig. 4 is the circuit diagram of data storage cell；

Fig. 5 is the circuit diagram of wave generating unit；

Fig. 6 is the circuit diagram of data detecting unit；

Fig. 7 is the decomposition texture schematic diagram of portable instrument；

Fig. 8 is the clinical verification data graphs to blood pressure；

Fig. 9 is the clinical verification data graphs to heart rate.

Specific embodiment

Angiosteosis is a kind of disease accumulated on extracellular matrix and arterial wall cell along with hydroxylapatite crystal Reason process is atherosclerosis, the common pathological manifestations of hypertensive vasculopathy, has been recognized that vascular smooth muscle cells at present (Vascular Smooth Muscle Cell, VSMC) proliferation is one of factor for influencing blood pressure or heart rate, and VSMC increases The most important condition grown is exactly Phenotypic change, and the phenotype of VSMC can be divided into the higher shrinkage type of differentiation degree (differentiated) and differentiation journey Lower secreting type (undifferentiated type or dedifferentiated) is spent, in vascular wall, VSMCs breaks up osteoblast and causing hypertension During played important function, conversely, VSMCs can play adjust blood pressure function, be since vascular smooth muscle cells are It constitutes vascular wall tissue structure and maintains the main cellular of antiotasis, the change of structure and function is to lead to high blood The cell pathology basis of a variety of cardiovascular diseases such as pressure, atherosclerosis and postangioplasty restenosis, clinically, blood The structure of pipe smooth muscle cell once changes, and just will affect/causes the more serious illness such as hypertension and occur, and this hair Open-birth is to block endothelium by blocking the calcium channel expansion artery blood vessel of vascular smooth muscle cells to reduce blood pressure at frequency Angiotensin Converting Enzyme-aldosterone system (RAAS) expansion artery and vein decompression, the two collaboration decompression, and have one to blood vessel and cardiac muscle Fixed protection, to blood glucose, blood lipid metabolism without what adverse effect, in adjusting smooth muscle cell transition and utilizing The channels and collaterals of doctor are to lead to combine, and the regular Electromagnetic Field of generation reaches in related body's channels and collaterals adjusts blood pressure purpose.

As shown in Fig. 1~Fig. 6, a kind of device for alleviating hypertension of the present invention, including power supply unit 1 and is connected electrically Processing unit 2 further includes the data storage cell 3 powered by power supply unit 1, data detecting unit 4, wave generating unit 5, driving unit 6, processing unit 2 are sequentially electrically connected with wave generating unit 5, driving unit 6, and data storage cell 3 is connected to place Manage unit 2, data detecting unit 4 with processing unit 2 is two-way is electrically connected.

Power supply unit 1 connects including management of charging and discharging device U1, voltage-stablizer U2, capacitor C1~C6, resistance R1, battery BAT, USB Mouth U3, it is HM2516 management of charging and discharging device using model that battery BAT, which uses 3.7V, management of charging and discharging device U1,；Voltage-stablizer U2 is used Model is HX6211 voltage-stablizer；One end of capacitor C1, C2 are connected with 4 feet of management of charging and discharging device U1 to be followed by power supply VCC, electricity Hold C1, C2 the other end be connected with 2 feet of management of charging and discharging device U1 after be grounded, USB interface U3 is connected to the both ends capacitor C1, fills It is grounded after the 6 feet connection resistance R1 of electric discharge manager U1,3 feet of management of charging and discharging device U1, one end of capacitor C3, C4, voltage-stablizer The input terminal of U2 is connected to battery BAT anode, and one end of capacitor C5, C6, the output end of voltage-stablizer U2 are connected to power supply 3.3V, electricity Hold the other end of C3, C4, C5, C6, the ground terminal of voltage-stablizer U2, battery BAT cathode and is connected ground；Power supply VCC is that input is filled Piezoelectric voltage, management of charging and discharging device U1 are management of charging and discharging IC chips, overcharge and overdischarge can all influence longevity of battery (battery) Life is controlled battery in optimum state, voltage-stablizer U2 provides stable power supply for subsequent conditioning circuit by management of charging and discharging device U1.

Processing unit 2 include controller U4, voltage-stablizer U5, capacitor C7~C14, resistance R2~R23, light emitting diode D0~ D12, crystal oscillator Y1, key S1, S2, interface P1, controller U4 are STM32F405OGY6TR controller, voltage-stablizer U5 using model It is RT9013 voltage-stablizer using model, interface P1 is jtag interface；Processing unit 2 provides operation and compares data, passes through each biography The human parameters that sensor is collected into is fed back to controller U4, and then controller U4 relatively prestores parameter, by intelligent algorithm and is added Power processing generates particular frequency pattern and is output to junior's circuit, and base is for sampling and operation when crystal oscillator Y1 is provided；Controller U4 1, 9,24,36,48 feet are all connected with power supply 3.3V, are grounded after the 44 feet connection resistance R23 of controller U4, controller U4 8,23,35, 47 feet are grounded, one end of capacitor C9, crystal oscillator Y1 1 foot be connected 5 feet being followed by controller U4, one end of capacitor C10, crystal oscillator Connected 6 feet being followed by controller U4 of 3 feet of Y1, the other end of C9, C10,2,4 feet of crystal oscillator Y1 are grounded after being connected, controller Power supply 3.3V is connected after the 18 feet connection resistance R3 of U4, and 18 feet of controller U4 are connected with 5 feet of management of charging and discharging device U1； Power supply 3.3V, the other end ground connection of capacitor C14 are connected after one end connection resistance R5 of capacitor C14, key S1 is connected to capacitor C14 two End；Capacitor C13, resistance R4 one end be connected after be followed by through key S2 in power supply 3.3V, the other end phase of capacitor C13, resistance R4 It is grounded after even, one end of resistance R4 is followed by 14 feet in controller U4 through resistance R2, one end connection controller U4's of capacitor C14 7 feet；The input terminal connection battery BAT anode of voltage-stablizer U5, after one end of capacitor C11, C12, the output end of voltage-stablizer U5 are connected It is connected to power supply 1.5V, the other end of capacitor C11, C12, the ground terminal of voltage-stablizer U5 are grounded after being connected；One end phase of capacitor C7, C8 Company is followed by power supply 3.3V, and the other end of capacitor C7, C8 are grounded after being connected；1 foot of interface P1 meets power supply 3.3V, and the 5 of interface P1 Foot ground connection, 2,3,4 feet of interface P1 respectively correspond meet controller U4 34,37,7 feet；One end of resistance R7 is followed by through resistance R6 Battery BAT anode, 12 feet of the other end connection controller U4 of resistance R7,11 feet of controller U4 are connected between resistance R6, R7, One end of resistance R8 is followed by power supply VCC through resistance R9, the other end ground connection of resistance R8,13 feet of controller U4 be connected to resistance R8, Between R9；The anode of light emitting diode D0, D1, D2 connect power supply 3.3V after being connected respectively resistance R10, R11, R12, shine The cathode of diode D0, D1, D2 are connected respectively 27,26,25 feet of controller U4, the anode of light emitting diode D3~D12 Power supply 3.3V is connected after being connected respectively resistance R13~R22, the cathode of light emitting diode D3~D12 is connected to controller U4 29 feet.

Data storage cell 3 includes memory U6, field-effect tube Q1, resistance R24, capacitor C15, and memory U6 uses model It is AT24C32 memory, 4 feet of memory U6 are grounded, and 5,6 feet of memory U6 are connected respectively the 20 of controller U4,21 Foot, the drain electrode of 8 feet of memory U6, one end of capacitor C15, field-effect tube Q1, which is connected, is followed by power supply SVDD, and power supply SVDD is specific For I2C bus data power；The other end of capacitor C15 is grounded, and the source electrode of field-effect tube Q1 is connected with one end of resistance R24 to be followed by The other end of the grid connection resistance R24 of power supply 3.3V, field-effect tube Q1, and be connected with 22 feet of controller U4, the unit Can all Standard physiological data of pre-stored in memory U6 by reference, unit to be processed 2 is joined with the Human Physiology being collected into Number compares, and compares the parameter generation detected and needs frequency waveform parameter, the slow evidence of making up the number of field-effect tube Q1.

Wave generating unit 5 includes amplifier U7, resistance R25, R26, capacitor C16, C18, C19, and driving unit 6 includes electricity Feel L0, capacitor C17, amplifier U7 is TLV2761 amplifier, the frequency that wave generating unit 5 is obtained from processing unit 2 using model Rate message is set of pulses wave, cannot directly be used, which can arrange frequency message, and generation needs waveform Shape, then the inductance L0 and capacitor C17 of driving unit 6 are pushed to, resonance is generated, human body is acted on；The connection control of the one end capacitor C25 Successively 3 feet being followed by amplifier U7, one end of resistance R26 is connected in series with capacitor C18, C19 in 16 feet of device U4 processed, the other end It is connected between capacitor C18, C19, the other end ground connection of resistance R26, one end of capacitor C16,7 feet of amplifier U7 are all connected with power supply The other end of 3.3V, capacitor C16,4 feet of amplifier U7 are grounded, and 1 foot of amplifier U7 connects power supply 1.5V, amplifier U7's 2, one end of inductance L0 is connected after 5,6 feet are connected, the other end of inductance L0 is grounded after capacitor C17.

Data detecting unit 4 includes diode D13, D14, and the model that diode D13 is used is D203S light emitting diode, The model that diode D14 is used is the infrared photodiode of D203R, 13 feet of the anode connection controller U4 of diode D13, two One end of the anode connection resistance R2 of pole pipe D14, connected 10 feet being followed by controller U4 of the cathode of diode D13, D14；It is logical One group of light pulse can be generated by crossing diode D13, and it is raw to pass through ECG algorithm from the integral energy value for reflecting or reflecting light by diode D14 Adult body parameter places diode D13, D14 close to human vas, the Infrared irradiation that diode D13 is issued to blood vessel On, light intravascular reflection in part is received and converted into electric signal by diode D14 and send to processing unit 2, measures blood flow state, blood When pipe is not by pressure, blood flow is uniform, and reflected light is also relatively uniform, therefore the sensor collectively constituted by diode D13, D14 The output of pulseless signal；When blood vessel constriction blood does not flow, sensor also non-output signal；Only when blood vessel is squeezed, When blood Generation-Atomic Fluorescence Spectrometry in blood vessel, reflected light also changes therewith, and at this moment sensor exports pulse signal, has reached measurement pulse Effect.

Meanwhile one or more sensors can be used, it is collected for one or more body physiological signal detections: the human body heart Rate BPM, blood oxygen saturation SpO2, blood pressure mmHg, skin temperature etc..

In the present invention, first passes through the detection of data detecting unit 4 and collect human body condition information, receive this in processing unit 2 After data information, be compared with the somatic data stored in data storage cell 3, be followed by subsequent processing unit 2 can produce it is required Frequency, and after 5 tailored waveforms of wave generating unit and Sasser, enhancing signal by driving unit 6 has rule to generate The electromagnetic wave of rule, wherein regular electromagnetic wave is dilatational wave, and rarefaction wave is less than the continuous wave of 30Hz frequency, can be caused strong The feeling trembled can cause contraction of muscle, improve the tension of muscle ligament because its frequency is low, gap is big, adjust the easypro contracting of blood vessel Function, improve blood circulation, promote the recovery of neuromuscular function, can make in abnormality blood pressure (hypotensive shock or Hypertension) it is converted into normal condition, and have good result to the paralytic disease of neuromuscular；Condensation wave is above the company of 30Hz frequency Continuous wave, it can make nerve generate inhibition reaction；It is reachable then by the regular Electromagnetic Field of generation in acupuncture point related on body To the purpose of adjusting blood pressure, so that hypertension is effectively relieved, significant effect.

As shown in fig. 7, a kind of portable instrument of the device of application alleviation hypertension comprising be attached at the prison of human body surface Measurement equipment, the device for alleviating hypertension are assemblied in monitoring device.

Monitoring device includes framework 7, and framework 7 is provided with PCB circuit board 8, and 7 outboard end of framework is equipped with key 9, alleviates high blood The device integrated installation of pressure is buckled with glass lens 10 in PCB circuit board 8 on 7 top end face of framework, spiral-lock bottom case on bottom face 11, the heart rate eyeglass 12 for attaching human body surface is pasted on bottom case 11；

Monitoring device attaches and be applied at the one of human body surface or many places: breastbone, wrist, waist, specifically, can be Motion bracelet, necklace hang tag, belt buckle etc., bracelet may act on nei guan point, and necklace hang tag is to act on Tianchi cave.

As shown in Figure 8, Figure 9, it is limited by the contact point area of used sensor, sensor is surrounded into whole body Blood vessel is unrealistic, and clinical data is shown has aobvious note effect after clinical data detection Electromagnetic Field in related acupuncture point, discovery For the village Gao Xue, in particular acupoint nei guan point well, the specific combination frequency stimulation of row, effect are obvious again.

Clinical data verifying:

Patient 73 years old, there is 5 years history of hypertension, in the portable instrument (bracelet) 1 for wearing the device using the alleviation hypertension The data and curves of the moon can be seen that after wearing 20 days from curve, and the fluctuation of blood pressure curve starts to tend to be steady, comparison 20 Before it curve fluctuation, it can be seen that can effectively stable wearer blood pressure, significant effect.

Claims (9)

1. a kind of device for alleviating hypertension comprising power supply unit and the processing unit being connected electrically, it is characterised in that: its It further include data storage cell, the data detecting unit, wave generating unit, driving unit powered by power supply unit, it is described Processing unit is electrically connected with the wave generating unit, driving unit sequence, and it is single that the data storage cell is connected to the processing Member, the data detecting unit with the processing unit is two-way is electrically connected.

2. a kind of device for alleviating hypertension according to claim 1, it is characterised in that: said supply unit includes charge and discharge Electric manager U1, voltage-stablizer U2, capacitor C1~C6, resistance R1, battery BAT, USB interface U3, the battery BAT use 3.7V, The management of charging and discharging device U1 is HM2516 management of charging and discharging device using model；The voltage-stablizer U2 is HX6211 steady using model Depressor；One end of described capacitor C1, C2 are connected with 4 feet of the management of charging and discharging device U1 to be followed by power supply VCC, the capacitor The other end of C1, C2 be connected with 2 feet of the management of charging and discharging device U1 after be grounded, the USB interface U3 is connected to the electricity Holding the both ends C1,6 feet of the management of charging and discharging device U1 are grounded after connecting the resistance R1,3 feet of the management of charging and discharging device U1, One end of described capacitor C3, C4, the voltage-stablizer U2 input terminal be connected to battery BAT anode, described capacitor C5, C6's One end, the voltage-stablizer U2 output end be connected to power supply 3.3V, the other end of described capacitor C3, C4, C5, C6, the pressure stabilizing The ground terminal of device U2, the battery BAT cathode are connected ground.

3. a kind of device for alleviating hypertension according to claim 2, it is characterised in that: the processing unit includes control Device U4, voltage-stablizer U5, capacitor C7~C14, resistance R2~R23, light emitting diode D0~D12, crystal oscillator Y1, key S1, S2, interface P1, the controller U4 are STM32F405OGY6TR controllers using model, and the voltage-stablizer U5 is RT9013 steady using model Depressor；1,9,24,36,48 feet of the controller U4 are all connected with the power supply 3.3V, and 44 feet of the controller U4 connect institute It is grounded after stating resistance R23,8,23,35,47 feet of the controller U4 are grounded, one end of the capacitor C9, the crystal oscillator Y1 1 foot be connected and be followed by 5 feet of the controller U4, one end of the capacitor C10, the crystal oscillator Y1 3 feet be connected be followed by 6 feet of the controller U4, the other end of described C9, C10, the crystal oscillator Y1 2,4 feet be connected after be grounded, the controller U4 18 feet connect the resistance R3 after connect the power supply 3.3V, and 18 feet of the controller U4 and the management of charging and discharging device 5 feet of U1 are connected；One end of the capacitor C14 connects the power supply 3.3V after connecting the resistance R5, the capacitor C14's Other end ground connection, the key S1 are connected to the both ends the capacitor C14；The capacitor C13, resistance R4 one end be connected after through described Key S2 is followed by the power supply 3.3V, the capacitor C13, resistance R4 the other end be connected after be grounded, the one of the resistance R4 End is followed by through the resistance R2 in 14 feet of the controller U4, and one end of the capacitor C14 connects the 7 of the controller U4 Foot；The input terminal of the voltage-stablizer U5 connects the battery BAT anode, one end of described capacitor C11, C12, the voltage-stablizer U5 Output end be connected and be followed by power supply 1.5V, the other end of described capacitor C11, C12, the voltage-stablizer U5 ground terminal be connected after Ground connection；One end of described capacitor C7, C8, which are connected, to be followed by the power supply 3.3V, and the other end of described capacitor C7, C8, which are connected, to be followed by Ground；1 foot of the interface P1 connects the power supply 3.3V, the 5 feet ground connection of the interface P1,2,3, the 4 feet difference of the interface P1 Corresponding 34,37,7 feet for meeting the controller U4；One end of the resistance R7 is followed by battery BAT anode, institute through the resistance R6 The other end for stating resistance R7 connects 12 feet of the controller U4,11 feet of the controller U4 be connected to described resistance R6, R7 it Between, one end of the resistance R8 is followed by the power supply VCC, the other end ground connection of the resistance R8, the control through the resistance R9 13 feet of device U4 processed are connected between described resistance R8, R9；The anode of described light emitting diode D0, D1, D2 are connected respectively institute The power supply 3.3V is connected after stating resistance R10, R11, R12, the cathode of described light emitting diode D0, D1, D2 are connected respectively 27,26,25 feet of the controller U4, the anode of the light emitting diode D3~D12 be connected respectively the resistance R13~ The power supply 3.3V is connected after R22, the cathode of the light emitting diode D3~D12 is connected to 29 feet of the controller U4.

4. a kind of device for alleviating hypertension according to claim 3, it is characterised in that: the data storage cell includes Memory U6, field-effect tube Q1, resistance R24, capacitor C15, the memory U6 are AT24C32 memories using model, described 4 feet of memory U6 are grounded, and 5,6 feet of the memory U6 are connected respectively 20,21 feet of the controller U4, described to deposit The drain electrode of 8 feet of reservoir U6, one end of the capacitor C15, the field-effect tube Q1, which is connected, is followed by power supply SVDD, the capacitor The other end of C15 is grounded, and the source electrode of the field-effect tube Q1 is connected with one end of the resistance R24 is followed by the power supply 3.3V, The grid of the field-effect tube Q1 connects the other end of the resistance R24, and is connected with 22 feet of the controller U4.

5. a kind of device for alleviating hypertension according to claim 3, it is characterised in that: the wave generating unit includes Amplifier U7, resistance R25, R26, capacitor C16, C18, C19, the driving unit include inductance L0, capacitor C17, the amplification Device U7 is TLV2761 amplifier using model, and the one end the capacitor C25 connects 16 feet of the controller U4, and the other end is successively It is followed by with described capacitor C18, C19 series connection in 3 feet of the amplifier U7, an end of the resistance R26 is connected to the electricity Hold between C18, C19, the other end of the resistance R26 is grounded, and one end of the capacitor C16,7 feet of amplifier U7 are all connected with institute Power supply 3.3V is stated, the other end of the capacitor C16,4 feet of amplifier U7 are grounded, and 1 foot of the amplifier U7 connects power supply 2,5,6 feet of 1.5V, the amplifier U7 connect one end of the inductance L0 after being connected, the other end of the inductance L0 is through institute It is grounded after stating capacitor C17.

6. a kind of device for alleviating hypertension according to claim 3, it is characterised in that: the data detecting unit includes Diode D13, D14, the model that the diode D13 is used is D203S light emitting diode, the type that the diode D14 is used It number is the infrared photodiode of D203R, the anode of the diode D13 connects 13 feet of the controller U4, the diode The anode of D14 connects one end of the resistance R2, and the cathode of described diode D13, D14, which are connected, to be followed by the controller U4's 10 feet.

7. using a kind of any portable instrument using the device for alleviating hypertension of claim 1~6, feature exists In: it includes the monitoring device for being attached at human body surface, and the device for alleviating hypertension is assemblied in the monitoring device.

8. a kind of portable instrument using the device for alleviating hypertension according to claim 7, it is characterised in that: described Monitoring device includes framework, and the framework is provided with PCB circuit board, and the framework outboard end is equipped with key, described to alleviate high blood The device integrated installation of pressure is buckled with glass lens, spiral-lock on bottom face in the PCB circuit board on the framework top end face Bottom case is pasted with the heart rate eyeglass for attaching human body surface on the bottom case.

9. a kind of portable instrument using the device for alleviating hypertension according to claim 7, it is characterised in that: described Monitoring device attaches and be applied at the one of human body surface or many places: breastbone, wrist, waist.