CN100488447C - Electronic sphygmomanometer - Google Patents
Electronic sphygmomanometer Download PDFInfo
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- CN100488447C CN100488447C CNB2005100969919A CN200510096991A CN100488447C CN 100488447 C CN100488447 C CN 100488447C CN B2005100969919 A CNB2005100969919 A CN B2005100969919A CN 200510096991 A CN200510096991 A CN 200510096991A CN 100488447 C CN100488447 C CN 100488447C
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Abstract
The invention relates to an electric blood pressure meter, which comprises automatic aerator, pressure device, measurer, controller and display. Wherein, it uses aerator to aerate the pressure device, uses sensor to sense the pressure of air bubble to obtain the pressure valve, and display the valve on analogue mercury ruler; the ruler is divided into several sections, based on pressure values to display the section at said pressure value, and indicate relative ruler scale. Therefore, the electric blood pressure meter can avoid display whole mercury ruler, but display segmented, to reduce the cost and avoid hand-operated aerating, to simplify the operation, and uses the automatic discharge valve to uniformly discharge air to improve the accuracy.
Description
[technical field]
The present invention relates to a kind of electric sphygmomanometer, refer in particular to a kind ofly, be used the simulation hydrargyrum pillar electric sphygmomanometer that stethoscope accurately reads blood pressure values for the gauger by liquid crystal indicator simulation mercury column display of blood pressure change in value state.
[background technology]
Carry out traditionally human blood-pressure when measuring the most normal use be desk-top mercurial sphygmomanometer, its using method is, air bag is twined the upper arm place of tying up at the measured, stethoscopic chest piece is placed on the ancon brachial artery, give airbag aeration by ball, mercury column is risen, when mercury pressure surpasses systolic pressure (when for example the superb supercontraction of post presses 20~30mmHg), gasbag pressure blocking-up upper arm artery blood flow, pulse sound disappears.Stop inflation this moment, opens drain tap venting, and mercury column descends, and when gas pressure in the air bag drops to when equating with systolic pressure, blood can pass through oppressed upper arm blood vessel under the cardiac contractile force effect.Therefore hear from stethoscope that mercury column indication scale is systolic pressure when beating for first.The sound of beating subsequently exists and increases, and reduces to gradually when equating with diastole pressure when intracapsular pressure, and the sound of beating dies down suddenly or disappears, and mercury column indication scale is a diastolic pressure at this moment.This mercurial sphygmomanometer have tolerance accurately, stablize durable advantage, be a kind of blood pressure measuring device that is most widely used for a long time.Yet, because hydrargyrum is a kind of heavy metal with severe contamination and toxic, human body and environment all had sizable harm, in many countries and regions by or with disabled, for example European Parliament and council instructed by RoHS on January 23rd, 2003, from on July 1st, 2006, all electronic electric equipments of selling on European Union market must ban use of materials such as lead, hydrargyrum.
Another kind of blood pressure measuring device commonly used is an electronic digital sphygmomanometer, comprise semiautomatic electronic digital measuring apparatus and full-automatic digital survey meter of blood pressure, wherein semiautomatic electronic numeral survey meter of blood pressure needs the operator to push ball so that air bag is inflated with hands, fully automatic electric sub-figure survey meter of blood pressure is then controlled air pump to airbag aeration by circuit, exits by circuit controling electromagnetic valve.This electric sphygmomanometer is that the gas pressure vibration that utilizes pressure transducer to detect in the air bag involves pressure, change the different wave of oscillation of corresponding generation according to intracapsular pressure, indirectly ask for systolic pressure and diastolic pressure by central processing unit through computing by certain method, and by liquid crystal display screen display of blood pressure value and pulse value.As Chinese utility model patent the 99236693.3rd and No. 00240652.7 disclosed electronic digit blood pressure measuring device, detect measured's blood pressure signal and, the mode of measurement result with numerical value directly is presented on the LCDs by pressure transducer through the central processing unit calculation process.And at No. the 00218510.5th, Chinese utility model patent and United States Patent (USP) the 6th, 168,567 and 6,699, wait in the patent documentation for No. 196, disclosed several mercury columns that utilize liquid crystal (or light emitting diode) display screen to simulate traditional mercurial sphygmomanometer and indicated blood pressure values and be aided with the electronic digit blood pressure measuring device that numerical value shows.
For the electric sphygmomanometer that need not adopt direct numerical value to show by stethoscope; its numerical value generally is to obtain indirectly through after certain mathematical method computing; for example use fitting process, rule of three or additive method; Different Individual is had diversity, therefore can not guarantee to obtain accurate blood pressure values.And on price, electric sphygmomanometer is about ten times of common desk-top mercurial sphygmomanometer.And adopt the electric sphygmomanometer of LCDs simulation mercury column indication blood pressure values, can cooperate stethoscopic use simultaneously and obtain accurate blood pressure values, and be accepted by medical personnel and ordinary consumer also easier traditionally.But in the design of the electric sphygmomanometer of aforementioned simulation mercury column indication blood pressure values, the scale of virtual mercury column is to copy the mercury column scale of existing mercurial sphygmomanometer to design, generally be designed to 0~300mmHg, if represent 1mmHg as a scale unit with 1mm, then the entire length of virtual mercury column reaches 30cm, need to adopt the LCDs of size more than 30cm to show, this must cause the LCDs of this type of electric sphygmomanometer oversize, because overlength or super wide liquid crystal display screen are compared its price with the liquid crystal display screen of stock size and are differed greatly, thereby the expensive and high price that causes sphygomanometer, outward appearance is also too heavy, is difficult to realize industrialization.Even if represent 2mmHg as a scale unit with 1mm, the size of LCDs is also at least more than 15cm.And as No. the 00218510.5th, Chinese utility model patent and United States Patent (USP) the 6th, 168, the mode of the more high range unit (1mm represents 5mmHg) that is adopted in No. 567, though the effect that can reach miniaturization and reduce cost, but be cost with the measuring accuracy that brings high blood pressure down, obviously, this mode is not a best mode.
[summary of the invention]
The objective of the invention is to solve the problem that measurement numerical value is accurate inadequately, oversize and cost and price is too high that aforementioned existing electronic digit blood pressure measuring device exists, providing a kind of can charge and discharge gas automatically and meet traditional blood pressure measurement operating habit, can obtain accurate blood pressure measurement numerical value, and the simulation hydrargyrum pillar electric sphygmomanometer that profile is small and exquisite, cost and price is more competitive.
For achieving the above object, the present invention proposes following technical scheme:
A kind of electric sphygmomanometer, include automatic aerating and exhaust device, pressure apparatus, measuring device, control device and display device, wherein automatically aerating and exhaust device is connected with air bag as pressure apparatus and can air bag be inflated and exits, and it includes inflator pump and air bleeding valve; Control device includes central processing unit, liquid crystal display drive circuit and fill pressure-releasing control circuit, measuring device includes the signaling conversion circuit that is electrically connected with central processing unit, signal amplification circuit and pressure transducer, wherein but pressure transducer is to be connected and the pressure signal and the input control device of pressure sensor device with air bag, control device carries out calculation process to pressure signal and obtains force value and export display device to being presented in the simulated pressure scale, wherein, control device is according to predefined program, the simulated pressure scale is divided into some scale sections, and force value compared judgement, drive and control the simulated pressure scale section that display device shows this force value place at least according to judged result, and force value is indicated to scale corresponding on the scale with explicit identification.
Compared to the prior art, electric sphygmomanometer of the present invention utilizes inflator pump and air bleeding valve to realize filling automatically, exitting air bag, and the simulated pressure scale is divided into some scale sections, and force value compared judgement, drive and control the simulated pressure scale section that display device demonstrates this force value place according to judged result, and pressure is indicated to corresponding scale with explicit identification.As being example with simulation mercury column scale, it is three scale sections of a section length that the standard mercury post scale of 300mmHg is divided into 100mmHg, if force value is between 0-100mmHg, then show the first scale section, 0-100mmHg, and according to force value display simulation mercury column and be indicated to corresponding scale, if force value is increased between 100-200mmHg, then show the second scale section, 100-200mmHg, and according to force value display simulation mercury column and be indicated to corresponding scale.Like this, adopt the electric sphygmomanometer of technical solution of the present invention not need whole mercury column scale (0-300mmHg) is shown with long column form complete, that link up, but the mode that shows with segmentation shows, thereby can effectively solve the oversize and expensive problem that causes of LCDs in the aforementioned prior art, and because the scheme that adopts segmentation to show also can have enough resolution to guarantee that the scale unit of simulating the mercury column scale reaches high-precision requirement.In addition the present invention have automatically fill, the venting function, do not need inflation of survey crew manual squeezing ball and the aerofluxus of manual adjustments spiral valve, can reduce the operational motion of measuring process, and in measuring process by control air bleeding valve at the uniform velocity aerofluxus improve the accuracy of measurement.Moreover aspect measurement and reading, cooperate the stethoscopic pulse signal that is used for testing the measured that makes, and then from the shown simulation mercury column scale of LCDs, accurately read blood pressure values, meet medical personnel's tradition blood pressure measurement operating habit.
[description of drawings]
Fig. 1 is the structural representation of the analog electric sphygmomanometer of the present invention.
Fig. 2 is the structure block chart of analog electric sphygmomanometer first embodiment of the present invention.
Fig. 3 is the flow chart that the segmentation of the analog electric sphygmomanometer gas replenishment process of the present invention shows.
Fig. 4 is the display screen sketch map of the analog electric sphygmomanometer of the present invention, has shown the first scale section of simulation mercury column.
Fig. 5 is the display screen sketch map of the analog electric sphygmomanometer of the present invention, has shown the second scale section of simulation mercury column.
Fig. 6 is the display screen sketch map of the analog electric sphygmomanometer of the present invention, has shown the 3rd scale section of simulation mercury column.
Fig. 7 is the flow chart that the segmentation of the analog electric sphygmomanometer deflation course of the present invention shows.
Fig. 8 is the structure block chart of analog electric sphygmomanometer second embodiment of the present invention.
[specific embodiment]
Electric sphygmomanometer provided by the invention comprises aerating and exhaust device, pressure apparatus, measuring device, control device and display device etc., see also Figure 1 and Figure 2, wherein, comprise trachea and air bag (cuff) at interior gas passage 2 as pressure apparatus, directly act on the limbs of the measured and block the pulse of these limbs by gas pressure.Inflator pump 11, electromagnetic valve 13 and mechanical valve 15 as aerating and exhaust device are connected with gas passage 2 respectively, and for example, inflator pump 11, electromagnetic valve 13 and mechanical valve 15 can be connected with cuff by some tracheas respectively, so that air bag is inflated, exitted.Measuring device includes pressure transducer 31, the signal amplification circuit 32 that is connected with pressure transducer 31 successively and mould/number (A/D) signaling conversion circuit 33, pick out a trachea from air bag and be connected, thereby can utilize variation of gas pressure in the pressure transducer 31 sensing air bags with pressure transducer 31.Understand easily, pressure transducer 31 also can be arranged in the cuff, and is connected with signal amplification circuit 32, A/D change-over circuit 33 by lead.Control device include central processing unit 30, the liquid crystal display drive circuit 34 that is connected with central processing unit 30 respectively and fill, pressure-releasing control circuit 12,14, wherein, drive and control inflator pump 11 startups by ventilating control circuit 12 gas passage 12 is inflated, utilize mechanical valve 15 at the uniform velocity to exit.Aforementioned A/D change-over circuit 33 is connected with central processing unit 30, the pressure signal that pressure transducer 31 can be sensed input central processing unit 30 after amplification and A/D conversion carries out calculation process, and by sending instruction to liquid crystal display drive circuit 34, and the LCDs 4 that drives as display device shows correlation values in specified mode.
As shown in Figure 2, electric sphygmomanometer also is provided with power supply 35 and mu balanced circuit 36 to provide electric power to whole device, and this power supply 35 adopts battery modes to realize usually.In addition, electric sphygmomanometer also can further comprise sound generator 37, thereby can send signals such as voice suggestion or alarm prompting by the control of control device.Be understood that easily liquid crystal display drive circuit 34 can be independently, also can be incorporated in the central processing unit 30.In addition, control device also includes plurality of keys 5, for example shown in Figure 1, can comprise on ﹠ off switch 51, initiating key 52, display key backlight 53 and aligning key 54 etc., wherein initiating key 52 is available for users to start the blood pressure measurement program, display key 53 backlight is available for users to use when externally light influences LCDs displaying contents definition, and 54 of aligning keies are used for electric sphygmomanometer is proofreaied and correct.Understand easily, also can need increase and decrease relevant function key in the specific implementation according to condition.
The display packing of electric sphygmomanometer of the present invention mainly is according to predefined program, the simulated pressure scale is divided into some scale sections, and force value compared judgement, drive and control the simulated pressure scale section that display device shows this force value place at least according to judged result, and be indicated to corresponding pressure scale with explicit identification.It comprises the steps: substantially by on ﹠ off switch 51, the primer fluid crystal display screen, and the display simulation pressure scale, initial scale section is 0-X
1MmHg; Press initiating key 52, start the blood pressure measurement program, drive 11 pairs of air bags of inflator pump (cuff) and inflate, and utilize air bleeding valve at the uniform velocity to exit, utilize in the pressure transducer 31 sensing air bags gas pressure signal and pressure signal is imported central processing unit 30 carry out calculation process, draw pressure value P; Pressure value P is compared the demonstration of judging and controlling simulated pressure scale section: if X
0=0mmHg<P<X
1MmHg, then display simulation pressure scale section 0-X at least
1MmHg; If X
1MmHg<P<X
2MmHg, then display simulation pressure scale section X at least
1-X
2MmHg; If X
2MmHg<P<X
3MmHg, then display simulation pressure scale section X at least
2-X
3MmHg; ... if pressure value P surpasses preset value, then stops inflation; If pressure value P exceeds the simulated pressure scale maximum of setting, signal then gives the alarm; In shown simulated pressure scale section, pressure value P is indicated to corresponding scale with explicit identification.
Fig. 3 is a scale segment length and to represent 1mmHg with 1mm be example as a scale unit with 100mmHg, and with simulation mercury column scale as the simulated pressure scale, shown the gas replenishment process segmentation displaying principle of electric sphygmomanometer of the present invention.After starting initiating key 52, central processing unit 30 sends instruction to pressure-releasing control circuit 14, closes electromagnetic valve 13, sends instruction to ventilating control circuit 12 and starts inflator pump 11, and gas passage 2 (air bag) is inflated.See also shown in Figure 4, this moment, LCDs 4 demonstrated the first scale section 421 (0-100mmHg) of simulation mercury column scale, pressure transducer 31 carries out calculation process with the pressure signal input central processing unit 30 after amplification and A/D conversion that senses, draw pressure value P, and pressure value P compared judgement, if pressure value P is between 0-100mmHg, for example P is 92mmHg, then continue to show the first scale section 421, and be indicated to as explicit identification with simulation mercury column 41 on the corresponding scale of this scale section 421 to show force value.If pressure value P is greater than 100mmHg, judge relatively that then this pressure value P is whether between 100-200mmHg, if judged result is, for example the P value is 188mmHg, then show the second scale section 422 (100mmHg-200mmHg), and be indicated on the corresponding scale of this scale section 422 to show force value, as shown in Figure 5 with simulation mercury column 41.If pressure value P is greater than 200mmHg, judge relatively that then this pressure value P is whether between 200-300mmHg, if judged result is, for example the P value is 233mmHg, then show the 3rd scale section 423 (200mmHg-300mmHg), and be indicated on the corresponding scale of this scale section 423 to show force value, as shown in Figure 6 with simulation mercury column 41.In gas replenishment process, central processing unit 30 judges further also whether the pressure value P that is sensed reaches or surpass a preset value, for example preset value is 180mmHg, if judged result meets or exceeds, then send instruction to ventilating control circuit 12, close inflator pump 11 and stop inflation, otherwise continue inflation.Because the scale of existing mercurial sphygmomanometer is typically designed to 0-300mmHg, therefore it is standard compliant in general implementation process the simulation mercury column scale maximum of analog electronic blood pressure being set at 300mmHg, if pressure value P exceeds the maximum 300mmHg of simulation mercury column scale, then sphygomanometer will send the superpressure alarm signal, for example simulating mercury column 41 warns with the certain frequency flicker, perhaps set up voice device to send voice alarm at measure and control device 3, close inflator pump 11 by ventilating control circuit 12 simultaneously and stop inflation, and exit to reduce the pressure of gas passage 2 fast by pressure-releasing control circuit 14 opens solenoid valve 13.
In the above-described embodiments, be with the form of simulation mercury column as explicit identification, understand easily, in concrete enforcement, also can adopt the explicit identification of other forms, for example sign such as box-shaped vernier, arrow-shaped pointer form.
Fig. 7 is a scale segment length and to represent 1mmHg with 1mm be example as a scale unit with 100mmHg still, has shown the segmentation displaying principle of electric sphygmomanometer deflation course of the present invention.Inflator pump 11 be closed and stop the inflation after, along with gas is at the uniform velocity discharged from mechanical valve 15, the outgassing rate that for example can set mechanical valve 15 is 2~4mmHg, pressure value P descends gradually, with similar process shown in Figure 3 be, pressure value P is compared judgement, determine that pressure value P drops on 200-300mmHg, 100-200mmHg, in which numerical range among 0-100mmHg, thereby correspondingly show corresponding the 3rd scale section 423 by liquid crystal display drive circuit 34 control LCDs 4, the second scale section 422 or the first scale section 421, respectively as Fig. 6, Fig. 5 and shown in Figure 4, and make simulation mercury column 41 drop to corresponding scale with force value.In this process, the same with the occupation mode of traditional mercurial sphygmomanometer, the operator can use the pulse signal of stethoscope test the measured and read systolic pressure and diastolic pressure according to the Ke Shi sound of hearing from LCDs from stethoscope.When pressure value P drops to preset value of the diastolic pressure that is lower than the measured, 40mmHg for example, because this moment, blood pressure measurement was finished, systolic pressure, the diastolic pressure of the measured are all read, there is no need at the uniform velocity to exit, at this moment, central processing unit 30 sends instruction to pressure-releasing control circuit 14 again, opens solenoid valve 13 is exitted fast, and the gas in the gas passage 2 is all discharged fast.
Shown in Figure 8 is the structure block chart of the electric sphygmomanometer of second embodiment of the invention, different with first embodiment is, the mechanical valve 15 and the electromagnetic valve 11 that adopt linear valve 16 to replace among first embodiment among second embodiment, by the control of pressure-releasing control circuit 14, linear valve 16 can realize that the blood pressure measurement process at the uniform velocity exits and measure the quick venting function that finishes.
Understand easily, LCDs of the present invention can also demonstrate other guide except the display simulation mercury column, for example beat pulse cue, pulse frequency and outgassing rate.Because in measuring process, when gasbag pressure surpassed the systolic pressure of the measured, gasbag pressure can be blocked the upper arm artery blood flow, pulse sound disappears; After stopping inflation and venting, gasbag pressure descends, and when gasbag pressure drops to when equating with systolic pressure, blood can reappear pulse signal at this moment again by oppressed upper arm blood vessel under the cardiac contractile force effect.By the changing condition of the continuous sensing gasbag pressure of pressure transducer and obtain to comprise the pressure history of pulse wave, when pulse wave begins to occur, system shows a beat pulse cue on display screen, flicker pulsatile heart shape symbol for example, also can directly send the voice suggestion signal by aforementioned sound generator 37, prompting operation person notes reading blood pressure values.Pressure in the cuff can be beaten along with beat pulse, and simulation mercury column meeting bob in pressure decline process influences doctor's reading like this.By in circuit, adding low pass filter or in software, carrying out digital low-pass filtering, can eliminate this influence, make the simulation mercury column in the decline process, not be subjected to the influence of pulse.The cut-off frequency of used analog or digital low-energy filter is about 10-20Hz, and the engineer can reach this purpose according to general wave filter design knowledge.For ease of reminding the doctor in time to listen to the Ke Shi sound, can represent the frequency and the amplitude of beat pulse simultaneously with the column bar.Wherein amplitude is relevant with the post height of bar, if represent 100% pulse intensity with 〉=4mmHg, and the bar that is provided with 10 lattice shows, then the demonstration of 5 lattice bars is arranged when pulse intensity during for 2mmHg.By the pulse wave frequency is carried out the pulse frequency that statistical calculation can obtain the measured, and directly be presented on the LCDs 4 with digital form.In addition, abnormal conditions are arranged, can also directly send cues such as " arrhythmia " and be presented on the liquid crystal display screen if in monitoring pulse frequency and intensity process, find the pulse frequency or the intensity of the measured.
In addition, wish to observe more intuitively and to read the requirement of blood pressure values based on some user, also 0-300mmHg simulation mercury column scale can be divided into 100mmHg and be a scale segment length, represent three the scale sections of 1mmHg, and be simultaneously displayed on the LCDs 4 as a scale unit with 1mm.During measurement, show force value with the simulation mercury column, for example when force value was 192mmHg, the simulation mercury column appeared in 0-100mmHg and two scale sections of 100-200mmHg simultaneously, and arrives corresponding scale position.In fact, no matter be to show single hop simulation mercury column scale or show multistage simulation mercury column scale, when force value changes, the enhancement of simulation mercury column or contract to move back and all have continuity, can allow user more intuitively observed pressure change procedure and accurately read force value.
Claims (10)
1. an electric sphygmomanometer includes automatic aerating and exhaust device, pressure apparatus, measuring device, control device and display device, and wherein aerating and exhaust device is connected with pressure apparatus automatically, and this fair automatically means of deflation includes inflator pump and air bleeding valve; Control device includes central processing unit, liquid crystal display drive circuit and fill pressure-releasing control circuit, measuring device includes the signaling conversion circuit that is electrically connected with central processing unit, signal amplification circuit and pressure transducer, it is characterized in that: control device startup and control aerating and exhaust device are inflated pressure apparatus and are exitted, but pressure transducer is connected and the pressure signal and the input control device of pressure sensor device with pressure apparatus, control device carries out calculation process to pressure signal and obtains force value and export display device to being presented in the simulated pressure scale, wherein, control device is according to predefined program, the simulated pressure scale is divided into some scale sections, and force value compared judgement, drive and control the simulated pressure scale section that display device shows this force value place according to judged result, and force value is indicated to scale corresponding on the scale with explicit identification.
2. electric sphygmomanometer as claimed in claim 1 is characterized in that: described simulated pressure scale is divided into some scale sections, and described some scale sections comprise the first scale section X
0-X
1The mmHg and the second scale section X
1-X
2MmHg.
3. electric sphygmomanometer as claimed in claim 2, it is characterized in that: central processing unit compares judgement with force value and the described scale section that computing obtains, and determine to show the scale section that comprises this force value in described some scale sections, and be indicated to corresponding scale on the scale with explicit identification.
4. electric sphygmomanometer as claimed in claim 3 is characterized in that: described air bleeding valve comprises the electromagnetic valve that can exit fast that outgassing rate is adjusted to mechanical valve at the uniform velocity and is subjected to pressure-releasing control circuit control.
5. electric sphygmomanometer as claimed in claim 3 is characterized in that: described air bleeding valve is the linear valve that can realize at the uniform velocity venting and quick venting that is subjected to pressure-releasing control circuit control.
6. as claim 4 or 5 described electric sphygmomanometers, it is characterized in that: described inflator pump carries out gas replenishment process when force value reaches or surpass a preset value to pressure apparatus, and central processing unit sends instruction to the ventilating control circuit, closes inflator pump.
7. electric sphygmomanometer as claimed in claim 6 is characterized in that: described air bleeding valve deflation course is when force value is lower than a preset value, and central processing unit sends instruction to pressure-releasing control circuit, opens air bleeding valve and exits fast.
8. electric sphygmomanometer as claimed in claim 1 is characterized in that: described electric sphygmomanometer also includes sound generator to send voice suggestion or alarm signal.
9. electric sphygmomanometer as claimed in claim 1 is characterized in that: do not include the pulse signal of beating after the pressure signal that shows on the described simulated pressure scale is by low-pass filtering, the pulse signal of beating is indicated by the pulse bar of beating.
10. electric sphygmomanometer as claimed in claim 1 is characterized in that: described simulated pressure scale is the simulation mercury column for simulation mercury column scale, described explicit identification.
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CN100488447C true CN100488447C (en) | 2009-05-20 |
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Families Citing this family (15)
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CN201019740Y (en) * | 2007-04-10 | 2008-02-13 | 余宝珊 | Sphygmomanometer with light beam digital display |
CN101342077B (en) * | 2007-07-11 | 2010-06-02 | 东莞市正源电子科技有限公司 | Medical non-hydrargyrum sphygmomanometer |
WO2009033310A1 (en) * | 2007-09-10 | 2009-03-19 | Dongguan Zhengyuan Electronic Technology Co., Ltd. | No-mercury medical sphygmomanometer |
CN101881267B (en) * | 2010-05-12 | 2013-02-20 | 北京超思电子技术股份有限公司 | Air pump control circuit and electronic sphygmomanometer |
CN102293641A (en) * | 2011-09-08 | 2011-12-28 | 焦保健 | Novel self-help digital sphygmomanometer based on voice monitoring technology |
CN102657520A (en) * | 2012-05-18 | 2012-09-12 | 重庆山外山科技有限公司 | Sphygmomanometer for purifying blood |
CN103799990A (en) * | 2012-12-25 | 2014-05-21 | 常州先进制造技术研究所 | Remote monitoring system for health of senior citizens in scientific and technological community |
CN103908237A (en) * | 2012-12-28 | 2014-07-09 | 丛安 | Electronic sphygmomanometer |
CN104970783A (en) * | 2014-04-04 | 2015-10-14 | 丛安 | Electronic sphygmomanometer |
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CN107397542B (en) * | 2017-09-15 | 2020-12-18 | 中国科学院重庆绿色智能技术研究院 | Dynamic blood pressure monitoring wearable device based on pulse wave sensor and monitoring method |
CN107510445A (en) * | 2017-09-30 | 2017-12-26 | 珠海市富立信医疗设备应用技术开发有限公司 | A kind of remote ecg pressure measurement watch |
CN109745024B (en) * | 2019-01-18 | 2022-04-15 | 青岛金沙源生物科技有限公司 | Blood detection system |
CN109602408B (en) * | 2019-01-18 | 2021-08-31 | 深圳市德力凯医疗设备股份有限公司 | Finger blood pressure simulator, control method and detection method |
CN110631756B (en) * | 2019-10-30 | 2024-06-04 | 西安交通大学第二附属医院 | Mercury manometer for standardized spent action implementation for TCD acoustic contrast and control method |
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CP02 | Change in the address of a patent holder | ||
CP02 | Change in the address of a patent holder |
Address after: 518000 Nanshan District Zheng Feng Road, Nanshan District, Shenzhen, Guangdong Province, No. 16 is rich in 9 houses, 30C Co-patentee after: Huang Wei Patentee after: Pan Weijiang Address before: 312030 zhe Da Road, Xihu District, Hangzhou, Zhejiang Province, No. 20 Co-patentee before: Huang Wei Patentee before: Pan Weijiang |