CN206463058U

CN206463058U - The detecting system of physiology sign simulator and health monitoring product

Info

Publication number: CN206463058U
Application number: CN201620868070.3U
Authority: CN
Inventors: 钟强; 赵豪; 郝立星; 程驰; 赵颖; 王珊; 徐传毅
Original assignee: Nazhiyuan Technology Tangshan Co Ltd
Current assignee: Nazhiyuan Technology Tangshan Co Ltd
Priority date: 2016-08-11
Filing date: 2016-08-11
Publication date: 2017-09-05
Anticipated expiration: 2026-08-11

Abstract

The utility model discloses the detecting system of a kind of physiology sign simulator and health monitoring product.Wherein, physiology sign simulator includes：Gas generating unit, control device and physiology sign output device；Gas generating unit, is connected with control device, and control device is delivered to for producing gas, and by produced gas；Control device, it is connected with physiology sign output device, flow parameter for controlling gas, the corresponding simulation physiology sign of physiology sign output device output is controlled according to flow parameter, it is possible thereby to the physiology sign information under accurate simulation human body different conditions, overcome prior art and be only capable of the stable simulation physiology sign of output, and the defect of Human Physiology sign moment change can not be reflected.

Description

The detecting system of physiology sign simulator and health monitoring product

Technical field

The utility model is related to technical field of electronic communication, and in particular to a kind of physiology sign simulator and health monitoring production The detecting system of product.

Background technology

Now, people more focus on personal health problem, therefore, also increasing to health monitoring product consumption.This Then a little health monitoring products enter typically by Human Physiology sign information is obtained to acquired Human Physiology sign information Row comparative analysis, personal health condition is judged according to analysis result is compared.According to investigations, some companies are developing or now Through developing many different types of health monitoring products, these companies need in developing or producing health monitoring product process The physiology sign output source of Human Physiology sign can truly be reflected to examine the quality of product by wanting one, and market lacks this Plant physiology sign output source.

Although having there is part company to produce physiology sign simulator, but these physiology sign simulators are simulation Sign is exported, and it can not reflect the real conditions of physiology sign.

Main reason is that, the physiology sign information of human body is unstable, for different people, its physiology sign information Difference, even same person, over time, the change of health, motion state, physiology sign information can also become Change, such as people is before motion and after motion, and breathing is just different, post exercise respiratory rate and respiratory intensity are apparently higher than before motion Respiratory rate and respiratory intensity；Existing sign simulator can only provide stable physiology sign information, and stable life Reason sign information is not enough to the quality for accurate validation, analysis health monitoring product again.

Utility model content

The utility model provides the detecting system of a kind of physiology sign simulator and health monitoring product, existing for solving Physiology sign simulator be only capable of the stable physiology sign information of output and can not reflect lacking for Human Physiology sign moment change Fall into.

The utility model provides a kind of physiology sign simulator, including：Gas generating unit, control device and physiology sign Output device；

Gas generating unit, is connected with control device, and control dress is delivered to for producing gas, and by produced gas Put；

Control device, is connected with physiology sign output device, the flow parameter for controlling gas, according to flow parameter control The corresponding simulation physiology sign of physiology sign output device output processed.

Further, flow parameter includes：Gas pressure intensity, charge air conditioning flow, blowdown gas flow, inflationtime and/ Or deflation time；Wherein, gas pressure intensity includes first gas pressure and/or second gas pressure；Charge air conditioning flow includes the One charge air conditioning flow and/or the second charge air conditioning flow；Blowdown gas flow includes the first blowdown gas flow and/or second Blowdown gas flow；Inflationtime includes the first inflationtime and/or the second inflationtime；When deflation time includes the first deflation Between and/or the second deflation time.

Further, physiology sign output device includes air bag；Wherein,

Control device is further used for：Control first gas pressure, the first charge air conditioning flow, the first blowdown gas flow Amount, the first inflationtime and/or the first deflation time, and then control air bag output simulated respiration signal.

Further, control device includes：First pressure regulator valve, choke valve, the first central control circuit and the first magnetic valve；

First pressure regulator valve, is connected with gas generating unit, the first gas for adjusting gas generating unit output gas Pressure；

Choke valve, for controlling the first charge air conditioning flow and/or the first blowdown gas flow；

First central control circuit, is connected with the first magnetic valve, for according to default first inflationtime and/or first Deflation time, exports corresponding first inflationtime to the first magnetic valve and controls electric signal and/or the first deflation time to control electricity Signal；

First magnetic valve, for controlling electric signal and/or the first deflation time to control electric signal according to the first inflationtime, The first inflationtime and/or the first deflation time of correspondence control air bag.

Further, choke valve includes：Intake-air throttle valve and outlet choke valve；

Intake-air throttle valve, is connected with the first pressure regulator valve and the first magnetic valve respectively, for controlling the first charge air conditioning flow；

Outlet choke valve, with airbags, for controlling the first blowdown gas flow, deflates to air bag.

Further, the first magnetic valve includes：First air inlet electromagnetic valve and the first outlet magnetic valve；

First central control circuit, is connected with the first air inlet electromagnetic valve and the first outlet magnetic valve respectively, for according to pre- If the first inflationtime, to the first air inlet electromagnetic valve export the first inflationtime control electric signal, control the first air inlet electromagnetism Valve is opened, and controls the first outlet closed electromagnetic valve；And according to default first deflation time, it is defeated to the first outlet magnetic valve Go out the first deflation time control electric signal, the first outlet magnetic valve of control is opened, and controls the first air inlet electromagnetic valve to close；

First air inlet electromagnetic valve, respectively with intake-air throttle valve and airbags, for controlling electricity according to the first inflationtime Signal, controls the first inflationtime of air bag；

First outlet magnetic valve, and airbags, for controlling electric signal according to the first deflation time, the of control air bag One deflation time, deflates to air bag.

Further, control device includes：First central control circuit, the first pressure regulator valve, choke valve and the first magnetic valve；

First central control circuit, is connected with the first pressure regulator valve, choke valve and the first magnetic valve respectively, for according to default First gas pressure, export first gas pressure to the first pressure regulator valve and control electric signal；According to default first charge air conditioning Flow and/or the first blowdown gas flow, export corresponding first charge air conditioning flow to choke valve and control electric signal and/or the One blowdown gas flow controls electric signal；And according to default first inflationtime and/or the first deflation time, to the first electricity Magnet valve exports corresponding first inflationtime control electric signal and/or the first deflation time control electric signal；

First pressure regulator valve, is connected with gas generating unit, for controlling electric signal according to first gas pressure, adjusts gas The first gas pressure of generating means output gas；

Choke valve, for controlling electric signal and/or the first blowdown gas flow to control electricity according to the first charge air conditioning flow Signal, correspondence the first charge air conditioning flow of control and/or the first blowdown gas flow；

First central control circuit, is connected with intake-air throttle valve and outlet choke valve respectively, for according to default first Charge air conditioning flow, the first charge air conditioning flow control electric signal is exported to intake-air throttle valve；And put according to default first Gas gas flow, the first blowdown gas flow control electric signal is exported to outlet choke valve；

Intake-air throttle valve, is connected with the first pressure regulator valve and the first magnetic valve respectively, for according to the first charge air conditioning flow Electric signal is controlled, the first charge air conditioning flow is controlled；

Outlet choke valve, with airbags, for controlling electric signal according to the first blowdown gas flow, control first is deflated Gas flow, deflates to air bag.

Further, physiology sign output device includes capillary；

Control device is further used for：Second gas pressure, the second inflationtime and/or the second deflation time are controlled, is entered And control capillary output simulation pulse signal.

Further, control device includes：Second pressure regulator valve, the second central control circuit and the second magnetic valve；

Second pressure regulator valve, is connected with gas generating unit, the second gas for adjusting gas generating unit output gas Pressure；

Second central control circuit, is connected with the second magnetic valve, for according to default second inflationtime and/or second Deflation time, exports corresponding second inflationtime to the second magnetic valve and controls electric signal and/or the second deflation time to control electricity Signal；

Second magnetic valve, for controlling electric signal and/or the second deflation time to control electric signal according to the second inflationtime, The second inflationtime and/or the second deflation time of correspondence control capillary.

Further, the second magnetic valve includes：Second air inlet electromagnetic valve and the second outlet magnetic valve；

Second central control circuit, is connected with the second air inlet electromagnetic valve and the second outlet magnetic valve respectively, for according to pre- If the second inflationtime, to the second air inlet electromagnetic valve export the second inflationtime control electric signal, control the second air inlet electromagnetism Valve is opened, and controls the second outlet closed electromagnetic valve, to convey gas to capillary；And when being deflated according to default second Between, the second deflation time control electric signal is exported to the second outlet magnetic valve, the second outlet magnetic valve of control is opened, and controls the Two air inlet electromagnetic valves are closed, to stop conveying gas to capillary；

Second air inlet electromagnetic valve, is connected with the second pressure regulator valve and capillary respectively, for being controlled according to the second inflationtime Electric signal, controls the second inflationtime of capillary；

Second outlet magnetic valve, is connected with capillary, for controlling electric signal according to the second deflation time, controls capillary The second deflation time, capillary is deflated.

Further, control device includes：Second central control circuit, the second pressure regulator valve and the second magnetic valve；

Second central control circuit, is connected with the second pressure regulator valve and the second magnetic valve respectively, for according to default second Gas pressure intensity, exports second gas pressure to the second pressure regulator valve and controls electric signal；And according to default second inflationtime and/ Or second deflation time, export corresponding second inflationtime to the second magnetic valve and control electric signal and/or the second deflation time Control electric signal；

Second pressure regulator valve, is connected with gas generating unit, for controlling electric signal according to second gas pressure, adjusts gas The second gas pressure of generating means output gas；

Second central control circuit, is connected with the second air inlet electromagnetic valve and the second outlet magnetic valve respectively, for according to pre- If the second inflationtime, to the second air inlet electromagnetic valve export the second inflationtime control electric signal, control the second air inlet electromagnetism Valve is opened, and controls the second outlet closed electromagnetic valve；And according to default second deflation time, it is defeated to the second outlet magnetic valve Go out the second deflation time control electric signal, the second outlet magnetic valve of control is opened, and controls the second air inlet electromagnetic valve to close；

Further, the pipe thickness of capillary is less than or equal to 1.5 millimeters.

Further, control device also includes：First AFS and the second AFS；

First AFS, is connected with the first magnetic valve, for controlling whether to airbag aeration；

Second AFS, is connected with the second magnetic valve, for controlling whether to convey gas to capillary.

Further, the first AFS is also connected with the first central control circuit, for according to the first center control electricity The first switch control electric signal of road output, is controlled whether to airbag aeration；

Second AFS is also connected with the second central control circuit, for exported according to the second central control circuit Two switch control electric signals, control whether to inflate to capillary.

Further, physiology sign simulator also includes：Pressure source, is arranged on above physiology sign output device, is used for Strengthen the simulation physiology sign of physiology sign output device output.

Further, gas generating unit is air pump.

The utility model provides a kind of detecting system of health monitoring product, including above-mentioned physiology sign simulator, and Health monitoring product, analytical equipment；

The simulation physiology sign that health monitoring product is used to monitor the output of physiology sign simulator obtains monitoring result；

Analytical equipment is used for research and application result, to realize the detection to health monitoring product.

Further, health monitoring product is for the health monitoring product based on friction generator and/or based on piezo-electric generating The health monitoring product of machine.

Physiology sign simulator and the detecting system of health monitoring product that the utility model is provided, by controlling gas Flow parameter, the corresponding simulation physiology sign of physiology sign output device output is controlled according to flow parameter, can be accurate Physiology sign information under simulation human body different conditions, so as to really react the situation of Human Physiology sign, overcomes existing There is technology to be only capable of the stable simulation sign of output, and the defect of the real conditions of Human Physiology sign can not be reflected.

Brief description of the drawings

The structural representation for the physiology sign simulator that Fig. 1 a provide for the utility model；

The functional block diagram for the physiology sign simulator that Fig. 1 b provide for the utility model；

The functional block diagram for the physiology sign simulator embodiment one that Fig. 2 provides for the utility model；

The functional block diagram for the physiology sign simulator embodiment two that Fig. 3 provides for the utility model；

Fig. 4 simulates the schematic diagram of pulse for the capillary that the utility model is provided；

The functional block diagram for the physiology sign simulator embodiment three that Fig. 5 provides for the utility model；

The functional block diagram for the physiology sign simulator example IV that Fig. 6 provides for the utility model；

The functional block diagram for the physiology sign simulator embodiment five that Fig. 7 provides for the utility model；

The functional block diagram for the physiology sign simulator embodiment six that Fig. 8 provides for the utility model；

The functional block diagram for the physiology sign simulator embodiment seven that Fig. 9 provides for the utility model；

The functional block diagram for the physiology sign simulator embodiment eight that Figure 10 provides for the utility model；

The functional block diagram of the detecting system for the health monitoring product that Figure 11 provides for the utility model；

Figure 12 a are the test chart of the utility model simulated respiration signal；

Figure 12 b are the test chart that the utility model simulates pulse signal；

Figure 12 c are the test chart of the utility model simulated respiration signal and simulation pulse signal.

Embodiment

To be fully understood by the purpose, feature and effect of the utility model, by following specific embodiments, to this practicality It is new to elaborate, but the utility model is not restricted to this.

The structural representation for the physiology sign simulator that Fig. 1 a provide for the utility model.Fig. 1 b provide for the utility model Physiology sign simulator functional block diagram.As illustrated in figs. 1A and ib, the physiology sign simulator 100 includes：Gas occurs Device 10, control device 20 and physiology sign output device 30.

Wherein, gas generating unit 10, are connected with control device 20, for producing gas, and produced gas is defeated Deliver to control device 20.

Specifically, above-mentioned gas generating means 10 can be air pump or the source of the gas of other forms, not do specific limit here Fixed, those skilled in the art can select suitable source of the gas according to actual needs.In the present embodiment, gas generating unit 10 is made Can be preferably electric air pump for physiology sign dynamic origin, the electric air pump can produce gas, and by produced gas Body is delivered to control device 20.

Wherein, control device 20, are connected with physiology sign output device 30, the flow parameter for controlling gas, according to Flow parameter control physiology sign output device 30 exports corresponding simulation physiology sign.

The physiology sign simulator that the utility model is provided is mainly used for simulating Human Physiology sign, therefore, by The gas that gas generating unit 10 is delivered to control device 20 may be not suitable for being fed directly to physiology sign output device 30, Therefore need to be controlled by the flow parameter to gas, allow gas to enough suitable for being transported to physiology sign output device 30. Wherein, flow parameter includes：Gas pressure intensity, charge air conditioning flow, blowdown gas flow, inflationtime and/or deflation time.Tool Body, gas pressure intensity includes first gas pressure and/or second gas pressure；Charge air conditioning flow includes the first charge air conditioning stream Amount and/or the second charge air conditioning flow；Blowdown gas flow includes the first blowdown gas flow and/or the second blowdown gas flow Amount；Inflationtime includes the first inflationtime and/or the second inflationtime；Deflation time includes the first deflation time and/or the Two deflation times.

Human body respiration is the process of exchanging gas between body and external environment, and oxygen intake gives off carbon dioxide.This reality It can be used for simulating Human Physiology sign information with new physiology sign simulator, for example, simulation human body respiration, specifically, Respiratory rate and respiratory intensity of the human body under different situations can be simulated, wherein, respiratory rate refers to the number of times of breathing per minute, One secondary fluctuation of chest is exactly respiration, i.e., one time air-breathing is once exhaled, and can pass through control first in the utility model Inflationtime and/or the first deflation time realize control simulated respiration frequency；Respiratory intensity refers to what is absorbed within the unit interval The amount of oxygen or the carbon dioxide of release, can be by controlling the first charge air conditioning flow and/or first in the utility model Blowdown gas flow realizes control simulated respiration intensity, that is to say, that the first charge air conditioning flow and/or the first blowdown gas flow Amount is bigger, and respiratory intensity is bigger, and the first charge air conditioning flow and/or the first blowdown gas flow are smaller, and respiratory intensity is smaller.

When simulating human body respiration, physiology sign output device of the present utility model can include air bag, by air bag Inflation and/or deflation, realize the process of simulation human body respiration, wherein, control device further can be by controlling first gas Pressure, the first charge air conditioning flow, the first blowdown gas flow, the first inflationtime and/or the first deflation time, and then control Air bag exports simulated respiration signal.

The functional block diagram for the physiology sign simulator embodiment one that Fig. 2 provides for the utility model.As shown in Fig. 2 at this It is to enter exemplified by air pump 101, physiology sign output device are the simulation human body respiration of air bag 301 by gas generating unit in embodiment Row explanation, the difference of the physiology sign simulator and the physiology sign simulator shown in Fig. 1 b of embodiment illustrated in fig. 2 one exists In control device is specifically included：First pressure regulator valve 201, choke valve 202, the first central control circuit 203 and the first magnetic valve 204。

The first pressure regulator valve 201 and choke valve 202 are controlled using mechanical control mode in the present embodiment, for example, can be with Adjustment gas is manually set according to actual needs by the first gas pressure after the first pressure regulator valve 201 and by choke valve 202 the first charge air conditioning flow and/or the first blowdown gas flow.

Wherein, the first pressure regulator valve 201, is connected with air pump 101, the first gas pressure for adjusting the output gas of air pump 101 By force.

The first gas pressure that the output gas of air pump 101 is adjusted using the first pressure regulator valve 201 is due to human body in breathing, The gas pressure intensity for sucking gas is standard atmospheric pressure, therefore, for more preferable simulation human body respiration, it is possible to use the first pressure regulation The first gas pressure of gas produced by air pump 101 is manually set and is adjusted to standard atmospheric pressure by valve 201, certainly, also may be used So that the first gas pressure of the gas produced by air pump 101 is manually set into tune using the first pressure regulator valve 201 according to actual needs Whole is other pressure, is not limited herein.

Wherein, choke valve 202, are connected with the first pressure regulator valve 201, the first magnetic valve 204 and air bag 301, for controlling respectively Make the first charge air conditioning flow and/or the first blowdown gas flow.

In the present embodiment, gas flow indicates the volume size by gas in the unit interval, and choke valve 202 is logical Change throttling section and/or chock length are crossed to control the valve of fluid flow, therefore, it can control by choke valve 202 Flow through the gas flow of the gas of choke valve 202, including the first charge air conditioning flow and/or the first blowdown gas flow.In mould When intending human body respiration, the first charge air conditioning flow during inflation and/or the first blowdown gas flow when deflating, which can reflect, exhales Respiratory intensity when gas or air-breathing, therefore throttling section and/or the chock length of choke valve 202 can be adjusted by setting, to control The first charge air conditioning flow and/or the first blowdown gas flow are made, and then realizes the respiratory intensity of simulation human body respiration.

In a kind of specific implementation of the present utility model, as shown in Fig. 2 choke valve 202 includes：Intake-air throttle valve 2021 and outlet choke valve 2022.Wherein, intake-air throttle valve 2021, respectively with the first pressure regulator valve 201 and the phase of the first magnetic valve 204 Even, for controlling the first charge air conditioning flow, specifically, adjustment intake-air throttle valve 2021 can be manually set according to actual needs Throttling section and/or chock length, to control the first charge air conditioning flow；Outlet choke valve 2022, is connected with air bag 301, For control the first blowdown gas flow, air bag 301 is deflated, in the present embodiment, outlet choke valve 2022 be with outside What boundary was communicated, that is to say, that the gas that air bag 301 is released can be released in extraneous air, in addition, in the present embodiment, Outlet choke valve 2022 is in normally open, can be by going out after the pressure increase to a certain extent of the gas in air bag 301 Gas choke valve 2022 is deflated to air bag 301.

In addition, in a kind of optional embodiment of the present utility model, it is possible to use while having inflatable and deflatable function Choke valve control the first charge air conditioning flow substituting intake-air throttle valve 2021 and outlet choke valve 2022 and/or first deflate Gas flow, specific implementation, here is omitted.

Wherein, the first central control circuit 203, is electrically connected with the first magnetic valve 204, for according to the default first inflation Time and/or the first deflation time, export corresponding first inflationtime to the first magnetic valve 204 and control electric signal and/or the One deflation time controls electric signal.

Alternatively, the first central control circuit 203 be single-chip microcomputer, microprocessor or microcontroller, for example：TI low-power consumption Chip MSP430,51 series monolithics, ARM series monolithics etc., or the function of using a variety of circuits to realize controller jointly, Or more combination, the mode that those skilled in the art can be according to the actual requirements selected, do not limited herein.It should note Meaning, foregoing circuit combines the circuit realiration to be formed by hardware element, without any programme-control.

Wherein, the first magnetic valve 204, is connected with air bag 301, for according to the first inflationtime control electric signal and/or First deflation time controls electric signal, the first inflationtime and/or the first deflation time of correspondence control air bag 301.

Specifically, when the first central control circuit 203 can deflate according to default first inflationtime and/or first Between, the aerification function and/or deflation function of correspondence the first magnetic valve 204 of control.Once to be filled every 1 second to air bag 301 Exemplified by deflation, the first central control circuit 203 exports the first inflationtime control electric signal to the first magnetic valve 204, makes first The aerification function of magnetic valve 204 is opened, and is inflated to air bag 301, at the same time, the timer in the first central control circuit 203 Start timing 1 second, after timing time is reached 1 second, the first central control circuit 203 is put to the first magnetic valve 204 output first Gas time control electric signal, opens the deflation function of the first magnetic valve 204, is deflated to air bag 301, at the same time, in first Timer in centre control circuit 203 restarts timing 1 second, after timing time is reached 1 second, repeats said process, so that Realize the respiratory rate of simulation human body respiration.

In a kind of specific implementation of the present utility model, as shown in Fig. 2 the first magnetic valve 204 includes：First air inlet The outlet magnetic valve 2042 of magnetic valve 2041 and first.

First central control circuit 203, is electrically connected with the first air inlet electromagnetic valve 2041 and the first outlet magnetic valve 2042 respectively Connect, for according to default first inflationtime, the first inflationtime control electric signal to be exported to the first air inlet electromagnetic valve 2041, Control the first air inlet electromagnetic valve 2041 to open, and control the first outlet magnetic valve 2042 to close；And put according to default first The gas time, the first deflation time control electric signal is exported to the first outlet magnetic valve 2042, the first outlet magnetic valve 2042 is controlled Open, and control the first air inlet electromagnetic valve 2041 to close.

Specifically, when being inflated to air bag 301, the first central control circuit 203 will control the first air inlet electromagnetic valve 2041 are opened, and the first outlet magnetic valve 2042 is closed, it is to avoid air bag 301 is deflated, to realize the gas replenishment process to air bag 301； When being deflated to air bag 301, the first central control circuit 203 will control the first outlet magnetic valve 2042 to open, the first air inlet Magnetic valve 2041 is closed, and stops inflating to air bag 301, to realize the deflation course to air bag 301.

First air inlet electromagnetic valve 2041, is connected with intake-air throttle valve 2021 and air bag 301 respectively, for according to the first inflation Time control electric signal, controls the first inflationtime of air bag 301.

First outlet magnetic valve 2042, is connected with air bag 301, for controlling electric signal, control according to the first deflation time First deflation time of air bag 301, deflates to air bag 301.In the present embodiment, the first outlet magnetic valve 2042 be with outside What boundary was communicated, that is to say, that the gas that air bag 301 is released can be released in extraneous air.

In the present embodiment, deflated using the outlet magnetic valve 2042 of outlet choke valve 2022 and first to air bag 301, not only Gas pressure intensity suddenly change in air bag 301 can be prevented, and also enhances simulated respiration signal.

In addition, in actual applications, the first air inlet electromagnetic valve 2041 and first can be gone out using two-in-one gage system Pneumoelectric magnet valve 2042 is connected with air bag 301 simultaneously, i.e. the gas of the gas channel of air bag 301 simultaneously with the first air inlet electromagnetic valve 2041 The gas channel of circulation road and the first outlet magnetic valve 2042 is connected, and can so reduce the opening of air bag 301, make air bag 301 closure is more preferable.

The functional block diagram for the physiology sign simulator embodiment two that Fig. 3 provides for the utility model.As shown in figure 3, at this It is to enter exemplified by air pump 101, physiology sign output device are the simulation human body respiration of air bag 301 by gas generating unit in embodiment Row explanation, the difference of the physiology sign simulator of embodiment illustrated in fig. 3 two and the physiology sign simulator of embodiment illustrated in fig. 2 one Part is, the first pressure regulator valve is controlled by the first central control circuit 203 using electronic type control mode in the present embodiment 201st, the magnetic valve 204 of choke valve 202 and first, i.e. the first pressure regulator valve 201, the magnetic valve 204 of choke valve 202 and first are according to first The corresponding control electric signal that central control circuit 203 is exported, performs corresponding control, adjustment is directly manually set without user First pressure regulator valve 201, the magnetic valve 204 of choke valve 202 and first so that physiology sign simulator is more intelligent.

In the present embodiment, control device also includes：First pressure regulator valve 201, choke valve 202, the first central control circuit 203 and first magnetic valve 204.

Wherein, the first central control circuit 203, respectively with the first pressure regulator valve 201, the magnetic valve 204 of choke valve 202 and first Electrical connection, for according to default first gas pressure, exporting first gas pressure to the first pressure regulator valve 201 and controlling electric signal； According to default first charge air conditioning flow and/or the first blowdown gas flow, corresponding first inflation is exported to choke valve 202 Gas flow controls electric signal and/or the first blowdown gas flow control electric signal；And according to default first inflationtime And/or first deflation time, export corresponding first inflationtime to the first magnetic valve 204 and control electric signal and/or first put Gas time control electric signal.

Wherein, the first pressure regulator valve 201, is connected with air pump 101, for controlling electric signal, adjustment according to first gas pressure The first gas pressure of the output gas of air pump 101.

In the present embodiment, because human body is in breathing, the gas pressure intensity of suction gas is standard atmospheric pressure, therefore, For more preferable simulation human body respiration, it is necessary to carry out pressure regulation to the gas produced by air pump, specifically, the first pressure regulator valve 201 can Electric signal is controlled with the first gas pressure exported according to the first central control circuit 203, by the gas produced by air pump 101 First gas pressure is adjusted to standard atmospheric pressure, it is of course also possible to as needed by the first gas of the gas produced by air pump Body pressure is adjusted to other pressure, does not limit herein.

Wherein, choke valve 202, are connected with the first pressure regulator valve 201, the first magnetic valve 204 and air bag 301, for root respectively Electric signal and/or the first blowdown gas flow control electric signal are controlled according to the first charge air conditioning flow, correspondence control first is inflated Gas flow and/or the first blowdown gas flow.

In the present embodiment, gas flow indicates the volume size by gas in the unit interval, and choke valve 202 is logical Change throttling section and/or chock length are crossed to control the valve of fluid flow, therefore, it can control by choke valve 202 Flow through the gas flow of the gas of choke valve 202, including the first charge air conditioning flow and/or the first blowdown gas flow.In mould When intending human body respiration, the first charge air conditioning flow during inflation and/or the first blowdown gas flow when deflating, which can reflect, exhales Respiratory intensity when gas or air-breathing, therefore can be by setting throttling section and/or the chock length of choke valve 202, to control One charge air conditioning flow and/or the first blowdown gas flow, and then realize the respiratory intensity of simulation human body respiration.Specifically, save Stream valve 202 is put in the first charge air conditioning flow control electric signal and/or first for receiving the output of the first central control circuit 203 After gas gas flow control electric signal, electric signal and/or the first blowdown gas flow control are controlled according to the first charge air conditioning flow The open area of the restriction of electric signal adjustment choke valve 202 processed, so as to control first for inflating and/or deflating to air bag 301 Charge air conditioning flow and/or the first blowdown gas flow, to realize the respiratory intensity of simulation human body respiration.

In a kind of specific implementation of the present utility model, as shown in figure 3, choke valve 202 includes：Intake-air throttle valve 2021 and outlet choke valve 2022.

First central control circuit 203, is electrically connected with intake-air throttle valve 2021 and outlet choke valve 2022, for root respectively According to default first charge air conditioning flow, the first charge air conditioning flow control electric signal is exported to intake-air throttle valve 2021；And According to default first blowdown gas flow, the first blowdown gas flow control electric signal is exported to outlet choke valve 2022.

Intake-air throttle valve 2021, is connected with the first pressure regulator valve 201 and the first magnetic valve 204 respectively, for being filled according to first Gas gas flow controls electric signal, controls the first charge air conditioning flow.

Outlet choke valve 2022, is connected with air bag 301, for controlling electric signal, control according to the first blowdown gas flow First blowdown gas flow, deflates to air bag 301.In the present embodiment, outlet choke valve 2022 is communicated with the external world, That is, the gas that air bag 301 is released can be released in extraneous air.

First magnetic valve 204, is connected with air bag 301, for being put according to the first inflationtime control electric signal and/or first Gas time control electric signal, the first inflationtime and/or the first deflation time of correspondence control air bag 301.

Specifically, the first inflationtime indicates the duration for needing to inflate to air bag 301, and the first deflation time, which is indicated, to be needed The duration to be deflated to air bag 301, according to passing through default first inflationtime of the first central control circuit 203 and/or first Deflation time, exports corresponding first inflationtime to the first magnetic valve 204 and controls electric signal and/or the first deflation time to control Electric signal, the first inflationtime and/or the first deflation time of correspondence control air bag 301.

In a kind of specific implementation of the present utility model, the first magnetic valve 204 includes：First air inlet electromagnetic valve 2041 With the first outlet magnetic valve 2042.

It should be noted that in addition to above-mentioned difference, shown in the physiology sign simulator and Fig. 2 of embodiment illustrated in fig. 3 two The physiology sign simulator of embodiment one is similar, and other physiology sign simulators that can refer to embodiment illustrated in fig. 2 one are retouched State, here is omitted.

In addition, physiology sign simulator of the present utility model can be also used for simulating human pulse, human pulse is body surface The tangible arteriopalmus arrived, blood extrudes inflow artery via the left ventricular contraction of heart, and blood enters artery and will made Pulse pressure becomes big and caliber is expanded.When simulating human pulse, physiology sign output device of the present utility model can include hair Tubule, human vas is replaced with capillary, and liquid is injected inside capillary, and liquid should not fill whole capillary completely, can It is easy to liquid in capillary internal flow to leave a small amount of space inside capillary, control device is by controlling second gas Pressure, the second inflationtime and/or the second deflation time, and then capillary output simulation pulse signal is controlled, as shown in Figure 4.

The functional block diagram for the physiology sign simulator embodiment three that Fig. 5 provides for the utility model.As shown in figure 5, at this In embodiment, by gas generating unit be exemplified by air pump 101, physiology sign output device are the simulation human pulse of capillary 302 Illustrate, the difference of the physiology sign simulator and the physiology sign simulator shown in Fig. 1 b of embodiment illustrated in fig. 5 three It is, control device is specifically included：Second pressure regulator valve 205, the second central control circuit 206 and the second magnetic valve 207.

The second pressure regulator valve 205 is controlled using mechanical control mode in the present embodiment, for example, can be according to actual needs Manually set adjustment gas and pass through the second gas pressure after the second pressure regulator valve 205.

Wherein, the second pressure regulator valve 205, is connected with air pump 101, the second gas pressure for adjusting the output gas of air pump 101 By force.

Specifically, by the gas pressure intensity certain to the gas for being delivered to capillary 302, liquid can be made to flow to the right Aggregation, and then force capillarectasia.Wherein, simulation pulse signal can be changed by manually setting adjustment second gas pressure Power, that is to say, that second gas pressure is bigger, simulation pulse signal it is stronger；Second gas pressure is smaller, simulation pulse letter It is number weaker.

Wherein, the second central control circuit 206, is electrically connected with the second magnetic valve 207, for according to the default second inflation Time and/or the second deflation time, export corresponding second inflationtime to the second magnetic valve 207 and control electric signal and/or the Two deflation times control electric signal.

In the present embodiment, realize that simulation human pulse (simulates human body by inflating and/or deflating to capillary 302 Beat pulse), and realize by controlling the second inflationtime and/or the second deflation time to capillary 302 simulation people The frequency (frequency for simulating human pulse bounce) of body pulse.

Wherein, the second magnetic valve 207, is connected with the second pressure regulator valve 205 and capillary 302 respectively, for being filled according to second Gas time control electric signal and/or the second deflation time control electric signal, the second inflationtime of correspondence control capillary 302 And/or second deflation time.

Specifically, the second magnetic valve 207 is receiving the second inflationtime control of the second central control circuit 206 output After electric signal, control valve is opened, and realizes the inflation to capillary 302, when being inflated to capillary 302, gas is transported to Liquid flows to the right under gas push effect in capillary 302, capillary 302, and the tube wall to capillary 302 applies pressure Power, causes the tube wall of capillary 302 to be expanded；Second magnetic valve 207 is receiving the second of the output of the second central control circuit 206 After deflation time control electric signal, control valve is opened, and realizes the deflation to capillary 302, when being deflated to capillary 302, Gas is delivered to outside through the second magnetic valve 207, and the tube wall of capillary 302 shrinks, it is achieved thereby that simulation human pulse.

In a kind of specific implementation of the present utility model, the second magnetic valve 207 includes：Second air inlet electromagnetic valve 2071 With the second outlet magnetic valve 2072.

Second central control circuit 206, is electrically connected with the second air inlet electromagnetic valve 2071 and the second outlet magnetic valve 2072 respectively Connect, for according to default second inflationtime, the second inflationtime control electric signal to be exported to the second air inlet electromagnetic valve 2071, Control the second air inlet electromagnetic valve 2071 to open, and control the second outlet magnetic valve 2072 to close, to convey gas to capillary 302 Body；And according to default second deflation time, the second deflation time control electric signal is exported to the second outlet magnetic valve 2072, Control the second outlet magnetic valve 2072 to open, and control the second air inlet electromagnetic valve 2071 to close, to stop conveying to capillary 302 Gas.

Second air inlet electromagnetic valve 2071, is connected with the second pressure regulator valve 205 and capillary 302 respectively, for being filled according to second Gas time control electric signal, controls the second inflationtime of capillary 302.

Second outlet magnetic valve 2072, is connected with capillary 302, for controlling electric signal, control according to the second deflation time Second deflation time of capillary 302 processed, deflates to capillary 302.In the present embodiment, the second outlet magnetic valve 2072 Communicated with the external world, that is to say, that the gas that capillary 302 is released can be released in extraneous air.

In addition, in actual applications, the second air inlet electromagnetic valve 2071 and second can be gone out using two-in-one gage system Pneumoelectric magnet valve 2072 is connected with capillary 302 simultaneously, i.e., the gas channel of capillary 302 simultaneously with the second air inlet electromagnetic valve 2071 Gas channel and the gas channel of the second outlet magnetic valve 2072 be connected, can so reduce the opening of capillary 302, make The closure of capillary 302 is more preferable.

The functional block diagram for the physiology sign simulator example IV that Fig. 6 provides for the utility model.As shown in fig. 6, at this In embodiment, by gas generating unit be exemplified by air pump 101, physiology sign output device are the simulation human pulse of capillary 302 Illustrate, the physiology sign simulator of embodiment illustrated in fig. 6 four and the physiology sign simulator of embodiment illustrated in fig. 5 three are not It is with part, the second pressure regulation is controlled by the second central control circuit 206 using electronic type control mode in the present embodiment The magnetic valve 207 of valve 205 and second, i.e. the second pressure regulator valve 205 and the second magnetic valve 207 are defeated according to the second central control circuit 206 The corresponding control electric signal gone out, performs corresponding control, and the electricity of the second pressure regulator valve of adjustment 205 and second is manually set without user Magnet valve 207 so that physiology sign simulator is more intelligent.Control device is specifically included：Second the 205, second center of pressure regulator valve Control the magnetic valve 207 of circuit 206 and second.

Wherein, the second central control circuit 206, is electrically connected with the second pressure regulator valve 205 and the second magnetic valve 207 respectively, is used According to default second gas pressure, export second gas pressure to the second pressure regulator valve 205 and control electric signal；And according to pre- If the second inflationtime and/or the second deflation time, export corresponding second inflationtime to the second magnetic valve 207 and control electricity Signal and/or the second deflation time control electric signal.

Wherein, the second pressure regulator valve 205, is connected with air pump 101, for controlling electric signal, adjustment according to second gas pressure The second gas pressure of the output gas of air pump 101.

Second central control circuit 206, is electrically connected with the second air inlet electromagnetic valve 2071 and the second outlet magnetic valve 2072 respectively Connect, for according to default second inflationtime, the second inflationtime control electric signal to be exported to the second air inlet electromagnetic valve 2071, Control the second air inlet electromagnetic valve 2071 to open, and control the second outlet magnetic valve 2072 to close；And put according to default second The gas time, the second deflation time control electric signal is exported to the second outlet magnetic valve 2072, the second outlet magnetic valve 2072 is controlled Open, and control the second air inlet electromagnetic valve 2071 to close.

It should be noted that in addition to above-mentioned difference, shown in the physiology sign simulator and Fig. 5 of embodiment illustrated in fig. 6 four The physiology sign simulator of embodiment three is similar, and other physiology sign simulators that can refer to embodiment illustrated in fig. 5 three are retouched State, here is omitted.

In addition, the physiology sign simulator in the utility model can also be used to simulate human body respiration and pulse simultaneously, this When, physiology sign output device can include air bag and capillary, will be described further below by specific embodiment.

The functional block diagram for the physiology sign simulator embodiment five that Fig. 7 provides for the utility model.As shown in fig. 7, Fig. 7 institutes Show that the difference of the physiology sign simulator of embodiment five and the physiology sign simulator shown in Fig. 1 b is that control device enters One step is used for：Control first gas pressure, the first charge air conditioning flow, the first blowdown gas flow, the first inflationtime and/or First deflation time, and then control air bag output simulated respiration signal；And control second gas pressure, the second inflationtime And/or second deflation time so that control capillary output simulation pulse signal.Control device is specifically included：First pressure regulator valve 201st, choke valve 202, the first central control circuit 203, the first magnetic valve 204, second pressure regulator valve the 205, second center control electricity The magnetic valve 207 of road 206 and second.

In a kind of specific implementation of the present utility model, as shown in fig. 7, choke valve 202 includes：Intake-air throttle valve 2021 and outlet choke valve 2022.Wherein, intake-air throttle valve 2021, respectively with the first pressure regulator valve 201 and the phase of the first magnetic valve 204 Even, for controlling the first charge air conditioning flow, specifically, adjustment intake-air throttle valve 2021 can be manually set according to actual needs Throttling section and/or chock length, to control the first charge air conditioning flow；Outlet choke valve 2022, is connected with air bag 301, For control the first blowdown gas flow, air bag 301 is deflated, in the present embodiment, outlet choke valve 2022 be with outside What boundary was communicated, that is to say, that the gas that air bag 301 is released can be released in extraneous air, in addition, in the present embodiment, Outlet choke valve 2022 is in normally open, can be by going out after the pressure increase to a certain extent of the gas in air bag 301 Gas choke valve 2022 is deflated to air bag 301.

In a kind of specific implementation of the present utility model, as shown in fig. 7, the first magnetic valve 204 includes：First air inlet The outlet magnetic valve 2042 of magnetic valve 2041 and first.

In the present embodiment, control the first magnetic valve using the first central control circuit and utilize the second central control circuit The second magnetic valve is controlled, but it is also possible to be realized using a central control circuit to the first magnetic valve and the second magnetic valve simultaneously Control, those skilled in the art can according to actual needs be selected, not limited herein.

The functional block diagram for the physiology sign simulator embodiment six that Fig. 8 provides for the utility model.As shown in figure 8, Fig. 8 institutes Show that the physiology sign simulator of embodiment six and the difference of the physiology sign simulator of embodiment illustrated in fig. 7 five are, control Device processed also includes：First AFS 208 and the second AFS 209.Wherein, the first AFS 208, respectively with first Magnetic valve 204 is connected with air bag 301, for controlling whether to inflate to air bag 301；Second AFS 209, respectively with the second electricity Magnet valve 207 is connected with capillary 302, for controlling whether to convey gas to capillary 302.It should be noted that in this implementation The first AFS 208 and the second AFS 209 are controlled using mechanical control mode in example.

Further, it is also possible to the first AFS and the second AFS are controlled using electronic type control mode, specifically, the One AFS is also electrically connected with the first central control circuit, for the first switch control exported according to the first central control circuit Electric signal processed, is controlled whether to airbag aeration；Second AFS is also electrically connected with the second central control circuit, for according to The second switch control electric signal of two central control circuits output, controls whether to inflate to capillary.

In the physiology sign simulator in using the present embodiment, it is necessary to physiology sign simulator be adjusted, here Can be by controlling the first AFS and the second AFS that physiology sign simulator is adjusted, specifically, can be with The first AFS is opened in control, closes the second AFS, realizes the regulation of simulation human body respiration；The second air-flow is opened in control Switch, closes the first AFS, realizes the regulation of simulation human pulse.

In addition, the physiology sign simulator in the present embodiment can be only used for simulation human body respiration or simulate human pulse, That is, simulation human body respiration can be realized by opening the first AFS, the second AFS of closing or can be passed through Close the first AFS, open the second AFS realization simulation human pulse, controlled it is of course also possible to pass through the first center Circuit makes the first electromagnetic valve work, the second central control circuit the second magnetic valve is stopped realize simulation human body respiration or The first magnetic valve is set to be stopped by the first central control circuit, it is real that the second central control circuit carrys out the second electromagnetic valve work Now simulate human pulse.

In the present embodiment, the first magnetic valve and/or the first AFS, and profit are controlled using the first central control circuit The second magnetic valve and/or the second AFS are controlled with the second central control circuit, but it is also possible to utilize a center control electricity The control to the first magnetic valve and/or the first AFS, the second magnetic valve and/or the second AFS is realized on road simultaneously, this Art personnel can be selected according to actual needs, not limited herein.

It should be noted that in addition to above-mentioned difference, shown in the physiology sign simulator and Fig. 7 of embodiment illustrated in fig. 8 six The physiology sign simulator of embodiment five is similar, and other physiology sign simulators that can refer to embodiment illustrated in fig. 7 five are retouched State, here is omitted.

The functional block diagram for the physiology sign simulator embodiment seven that Fig. 9 provides for the utility model.As shown in figure 9, Fig. 9 institutes Show that the difference of the physiology sign simulator of embodiment seven and the physiology sign simulator shown in Fig. 1 b is that control device enters One step is used for：Control first gas pressure, the first charge air conditioning flow, the first blowdown gas flow, the first inflationtime and/or First deflation time, and then control air bag output simulated respiration signal；And control second gas pressure, the second inflationtime And/or second deflation time so that control capillary output simulation pulse signal.Wherein, control device is specifically included：First adjusts Pressure valve 201, choke valve 202, the first central control circuit 203, the first magnetic valve 204, second pressure regulator valve the 205, second center control The magnetic valve 207 of circuit 206 and second processed.

The first pressure regulator valve is controlled by the first central control circuit 203 using electronic type control mode in the present embodiment 201st, the magnetic valve 204 of choke valve 202 and first, the second central control circuit 206 controls the second pressure regulator valve 205 and the second magnetic valve The correspondence that 207, i.e. the first pressure regulator valve 201, the magnetic valve 204 of choke valve 202 and first are exported according to the first central control circuit 203 Control electric signal, and pair that the second pressure regulator valve 205 and the second magnetic valve 207 are exported according to the second central control circuit 206 The control electric signal answered, performs corresponding control, and the first pressure regulator valve 201 of adjustment, choke valve 202, the are manually set without user One magnetic valve 204, the second pressure regulator valve 205 and the second magnetic valve 207 so that physiology sign simulator is more intelligent.

Human body respiration is simulated in the present embodiment similar with simulating human body respiration in embodiment illustrated in fig. 3 two, for this implementation The description of simulation human body respiration can refer to the description that human body respiration is simulated in embodiment illustrated in fig. 3 two in example, no longer go to live in the household of one's in-laws on getting married herein State；Human pulse is simulated in the present embodiment similar with simulating human pulse in embodiment illustrated in fig. 6 four, for mould in the present embodiment The description for intending human pulse can refer to the description that human pulse is simulated in embodiment illustrated in fig. 6 four, and here is omitted.

The functional block diagram for the physiology sign simulator embodiment eight that Figure 10 provides for the utility model.Embodiment illustrated in fig. 10 Eight physiology sign simulator and the physiology sign simulator difference of embodiment illustrated in fig. 9 seven are that control device is also wrapped Include：First AFS 208 and the second AFS 209.Wherein, the first AFS 208, with the first central control circuit 203 electrical connections, and be connected respectively with the first magnetic valve 204 and air bag 301, for being exported according to the first central control circuit 203 First switch control electric signal, control whether to airbag aeration；Second AFS 209, with the second central control circuit 206 Electrical connection, and be connected respectively with the second magnetic valve 207 with capillary 302, for what is exported according to the second central control circuit 206 Second switch controls electric signal, controls whether to convey gas to capillary 302.It should be noted that using in the present embodiment Electronic type control mode controls the first AFS 208 and the second AFS 209.

It should be noted that in addition to above-mentioned difference, shown in the physiology sign simulator and Fig. 9 of embodiment illustrated in fig. 10 eight The physiology sign simulator of embodiment seven is similar, and other physiology sign simulators that can refer to embodiment illustrated in fig. 9 seven are retouched State, here is omitted.

Alternatively, in this each above-mentioned embodiment, physiology sign simulator also includes：Pressure source (not shown), The top of physiology sign output device is arranged on, the simulation physiology sign for strengthening the output of physiology sign output device. The physiology sign that physiology sign output device in the utility model is exported may due to signal is weaker and influence pair The detection of health monitoring product, therefore, it can by way of applying pressure source above physiology sign output device, strengthen life Manage the simulation physiology sign of sign output device output.

In order to more preferable simulation human body respiration, the air bag in each above-mentioned embodiment of the utility model is preferably by flexibility Material is constituted, so as to realize when to airbag aeration, air bag volumetric expansion；When to air bag deflation, air bag volume contraction.

In order to more preferable simulation human body respiration, the capillary in each embodiment of the utility model is preferably by flexible material Material composition, so that capillary preferably can be expanded and shrink, specifically, and during certain to capillary gas pressure intensity, capillary Tube wall expansion, close after air pressure, capillary shrinks, further, it is also possible to the pipe thickness for setting capillary be less than or equal to it is pre- If threshold value, for example pipe thickness is less than or equal to 1.5 millimeters, preferably to realize the expansion and contraction of capillary, if tube wall It is too thick, then it may need very high gas pressure intensity that the tube wall of capillary can just expanded, and cause the wasting of resources；If tube wall is too It is thin, then it may rupture tube wall when applying gas pressure intensity, cause physiology sign simulator not use.

It should be appreciated that the first pressure regulator valve, choke valve, the first central control circuit in each above-mentioned embodiment, One magnetic valve, the first AFS, the second pressure regulator valve, the second central control circuit, the second magnetic valve and the second AFS, root According to actual demand meeting and power electric connection, if desired electric energy, then can with power electric connection, if not needing electric energy, without with electricity Source is electrically connected, certainly, if the first pressure regulator valve, choke valve, the first central control circuit, the first electromagnetism in each above-mentioned embodiment It is provided with inside valve, the first AFS, the second pressure regulator valve, the second central control circuit, the second magnetic valve and the second AFS Built-in power, then without and power electric connection.

Additionally, it should be noted that default first gas pressure, default first inflating air in each above-mentioned embodiment Body flow, default first blowdown gas flow, default first inflationtime and default first deflation time, can pass through The input key-press input of first central control circuit, and be shown on the display screen of the first central control circuit, can also be direct Write the inside of the first central control circuit；Default second gas pressure, default second charge air conditioning flow, default Two blowdown gas flows, default second inflationtime and default second deflation time, can pass through the second center control electricity The input key-press input on road, and be shown on the display screen of the second central control circuit, the second center control can also be write direct The inside of circuit processed.Those skilled in the art can be selected as needed, not limited herein.

The physiology sign simulator that the utility model is provided, by controlling the flow parameter of gas, according to flow parameter control The corresponding simulation physiology sign of physiology sign output device processed output, life that can accurately under simulation human body different conditions Sign information is managed, so as to really react the situation of physiology sign, prior art is overcome and is only capable of the stable simulation sign of output Signal, and the defect of the real conditions of physiology sign can not be reflected.

The functional block diagram of the detecting system for the health monitoring product that Figure 11 provides for the utility model.As shown in figure 11, should The detecting system 1000 of health monitoring product includes：Physiology sign simulator 100, health monitoring product 200 and analytical equipment 300。

Wherein, physiology sign simulator 100 is the physiology sign simulator in each above-mentioned embodiment；Health monitoring product The 200 simulation physiology signs for being used to monitor the output of physiology sign simulator 100 obtain monitoring result；Analytical equipment 300 is used In research and application result, to realize the detection to health monitoring product 200.

Alternatively, health monitoring product 200 is for the health monitoring product based on friction generator and/or based on piezo-electric generating The health monitoring product of machine.

In the utility model, the simulation physiology sign of physiology sign simulator output can be used for verifying healthy prison The quality of product is surveyed, specifically, health monitoring product is supervised to the simulation physiology sign that physiology sign simulator is exported Survey, obtain monitoring result, and monitoring result is exported to analytical equipment, analytical equipment is analyzed monitoring result, so that real Now to the detection of health monitoring product, so as to detect that health monitoring product whether there is quality problems exactly, for example Health monitoring product can be detected by simulated respiration, simulation pulse and simulated respiration and pulse, Figure 12 a, Figure 12 b With Figure 12 c respectively illustrate simulated respiration signal test chart, simulate pulse signal test chart and simulated respiration signal and Simulate the test chart of pulse signal.

In practical application, it is possible that physiology sign simulator output simulation physiology sign it is weaker, do not allow The defect easily arrived by health monitoring product surveillance, in order to overcome above mentioned problem, can pass through the physiology in physiology sign simulator Apply the mode of pressure source on sign output device, strengthen the simulation physiology sign of physiology sign simulator output, so that Health monitoring product is set to be accurately monitored simulation physiology sign, so as to preferably checking health monitoring product Quality.

The detecting system for the health monitoring product that the utility model is provided, physiology sign simulator can export true reflection The simulation physiology sign of Human Physiology sign situation, progress can accurately detect the quality of health monitoring product, so as to It is preferably user service enough to make health monitoring product.

The various modules that are previously mentioned in the utility model, circuit are by hard-wired circuit, although some of which mould Block, circuit are integrated with software, but the utility model it is claimed be the corresponding function of integrated software hardware circuit, and not only Only be software in itself.

It should be appreciated by those skilled in the art that the apparatus structure shown in accompanying drawing or embodiment is only schematical, table Show logical construction.The module wherein shown as separating component is probably or may not be physically separate, is used as module The part of display is probably or may not be physical module.

Finally it should be noted that be：Listed above is only specific embodiment of the utility model, certain this area Technical staff can be modified and modification to the utility model, if these modifications and variations belong to the utility model right and wanted Ask and its equivalent technologies within the scope of, be considered as protection domain of the present utility model.

Claims

1. a kind of physiology sign simulator, it is characterised in that including：Gas generating unit, control device and the output of physiology sign Device；

The gas generating unit, is connected with the control device, and institute is delivered to for producing gas, and by produced gas State control device；

The control device, is connected with the physiology sign output device, the flow parameter for controlling gas, according to the gas Flow the corresponding simulation physiology sign of physiology sign output device output described in state modulator.

2. physiology sign simulator according to claim 1, it is characterised in that the flow parameter includes：Gas pressure intensity, Charge air conditioning flow, blowdown gas flow, inflationtime and/or deflation time；Wherein, the gas pressure intensity includes first gas Pressure and/or second gas pressure；The charge air conditioning flow includes the first charge air conditioning flow and/or the second charge air conditioning stream Amount；The blowdown gas flow includes the first blowdown gas flow and/or the second blowdown gas flow；The inflationtime includes First inflationtime and/or the second inflationtime；The deflation time includes the first deflation time and/or the second deflation time.

3. physiology sign simulator according to claim 2, it is characterised in that the physiology sign output device includes gas Capsule；

Wherein, the control device is further used for：Control the first gas pressure, the first charge air conditioning flow, institute The first blowdown gas flow, first inflationtime and/or first deflation time are stated, and then controls the air bag output Simulated respiration signal.

4. physiology sign simulator according to claim 3, it is characterised in that the control device includes：First pressure regulation Valve, choke valve, the first central control circuit and the first magnetic valve；

First pressure regulator valve, is connected with the gas generating unit, for adjusting the gas generating unit output gas First gas pressure；

The choke valve, for controlling the first charge air conditioning flow and/or the first blowdown gas flow；

First central control circuit, is connected with first magnetic valve, for according to default first inflationtime and/or First deflation time, when exporting corresponding first inflationtime control electric signal and/or the first deflation to first magnetic valve Between control electric signal；

First magnetic valve, for controlling electric signal and/or the first deflation time control according to first inflationtime Electric signal processed, the first inflationtime and/or the first deflation time of the correspondence control air bag.

5. physiology sign simulator according to claim 4, it is characterised in that the choke valve includes：Intake-air throttle valve With outlet choke valve；

The intake-air throttle valve, is connected with first pressure regulator valve and first magnetic valve, for controlling described first respectively Charge air conditioning flow；

The outlet choke valve, with the airbags, for controlling the first blowdown gas flow, is carried out to the air bag Deflate.

6. physiology sign simulator according to claim 5, it is characterised in that first magnetic valve includes：First enters Pneumoelectric magnet valve and the first outlet magnetic valve；

First central control circuit, is connected with first air inlet electromagnetic valve and the first outlet magnetic valve respectively, uses According to default first inflationtime, export first inflationtime to first air inlet electromagnetic valve and control telecommunications Number, control first air inlet electromagnetic valve to open, and control the first outlet closed electromagnetic valve；And according to described default First deflation time, exports first deflation time to the first outlet magnetic valve and controls electric signal, control described first Outlet magnetic valve is opened, and controls first air inlet electromagnetic valve to close；

First air inlet electromagnetic valve, respectively with the intake-air throttle valve and the airbags, for being filled according to described first Gas time control electric signal, controls the first inflationtime of the air bag；

The first outlet magnetic valve, with the airbags, for controlling electric signal according to first deflation time, is controlled First deflation time of the air bag, deflates to the air bag.

7. physiology sign simulator according to claim 3, it is characterised in that the control device includes：First center Control circuit, the first pressure regulator valve, choke valve and the first magnetic valve；

First central control circuit, is connected with first pressure regulator valve, the choke valve and first magnetic valve respectively, For according to default first gas pressure, exporting first gas pressure to first pressure regulator valve and controlling electric signal；According to pre- If the first charge air conditioning flow and/or the first blowdown gas flow, export corresponding first charge air conditioning to the choke valve Flow controls electric signal and/or the first blowdown gas flow control electric signal；And according to default first inflationtime and/or First deflation time, when exporting corresponding first inflationtime control electric signal and/or the first deflation to first magnetic valve Between control electric signal；

First pressure regulator valve, is connected with the gas generating unit, for controlling electric signal according to the first gas pressure, Adjust the first gas pressure of the gas generating unit output gas；

The choke valve, for controlling electric signal and/or first blowdown gas flow according to the first charge air conditioning flow Amount control electric signal, correspondence controls the first charge air conditioning flow and/or the first blowdown gas flow；

8. physiology sign simulator according to claim 7, it is characterised in that the choke valve includes：Intake-air throttle valve With outlet choke valve；

First central control circuit, is connected with the intake-air throttle valve and the outlet choke valve, for according to institute respectively Default first charge air conditioning flow is stated, exporting the first charge air conditioning flow to the intake-air throttle valve controls electric signal； And according to the default first blowdown gas flow, the first blowdown gas flow control is exported to the outlet choke valve Electric signal processed；

The intake-air throttle valve, is connected with first pressure regulator valve and first magnetic valve, for according to described first respectively Charge air conditioning flow controls electric signal, controls the first charge air conditioning flow；

The outlet choke valve, with the airbags, for controlling electric signal according to the first blowdown gas flow, is controlled The first blowdown gas flow, deflates to the air bag.

9. physiology sign simulator according to claim 8, it is characterised in that first magnetic valve includes：First enters Pneumoelectric magnet valve and the first outlet magnetic valve；

First central control circuit, is connected with first air inlet electromagnetic valve and the first outlet magnetic valve, for root respectively According to default first inflationtime, export first inflationtime to first air inlet electromagnetic valve and control electric signal, Control first air inlet electromagnetic valve to open, and control the first outlet closed electromagnetic valve；And according to described default One deflation time, exports first deflation time to the first outlet magnetic valve and controls electric signal, control described first goes out Pneumoelectric magnet valve is opened, and controls first air inlet electromagnetic valve to close；

10. the physiology sign simulator according to Claims 2 or 3, it is characterised in that the physiology sign output device bag Include capillary；

The control device is further used for：Control the second gas pressure, second inflationtime and/or described second Deflation time, and then control the capillary output simulation pulse signal.

11. the physiology sign simulator according to claim any one of 4-9, it is characterised in that the physiology sign output Device includes capillary；

12. physiology sign simulator according to claim 11, it is characterised in that the control device includes：Second adjusts Pressure valve, the second central control circuit and the second magnetic valve；

Second pressure regulator valve, is connected with the gas generating unit, for adjusting the gas generating unit output gas Second gas pressure；

Second central control circuit, is connected with second magnetic valve, for according to default second inflationtime and/or Second deflation time, when exporting corresponding second inflationtime control electric signal and/or the second deflation to second magnetic valve Between control electric signal；

Second magnetic valve, for controlling electric signal and/or the second deflation time control according to second inflationtime Electric signal processed, the second inflationtime and/or the second deflation time of the correspondence control capillary.

13. physiology sign simulator according to claim 12, it is characterised in that second magnetic valve includes：Second Air inlet electromagnetic valve and the second outlet magnetic valve；

Second central control circuit, is connected with second air inlet electromagnetic valve and the second outlet magnetic valve, for root respectively According to default second inflationtime, export second inflationtime to second air inlet electromagnetic valve and control electric signal, Control second air inlet electromagnetic valve to open, and control the second outlet closed electromagnetic valve, to convey gas to the capillary Body；And according to default second deflation time, the second deflation time control is exported to the second outlet magnetic valve Electric signal processed, controls the second outlet magnetic valve to open, and controls second air inlet electromagnetic valve to close, to stop to described Capillary conveys gas；

Second air inlet electromagnetic valve, is connected with second pressure regulator valve and the capillary, for according to described second respectively Inflationtime controls electric signal, controls the second inflationtime of the capillary；

The second outlet magnetic valve, is connected with the capillary, for controlling electric signal, control according to second deflation time The second deflation time of the capillary is made, the capillary is deflated.

14. physiology sign simulator according to claim 11, it is characterised in that the control device includes：In second Centre control circuit, the second pressure regulator valve and the second magnetic valve；

Second central control circuit, is connected with second pressure regulator valve and second magnetic valve respectively, for according to pre- If second gas pressure, export second gas pressure to second pressure regulator valve and control electric signal；And according to default Two inflationtimes and/or the second deflation time, export corresponding second inflationtime to second magnetic valve and control electric signal And/or second deflation time control electric signal；

Second pressure regulator valve, is connected with the gas generating unit, for controlling electric signal according to the second gas pressure, Adjust the second gas pressure of the gas generating unit output gas；

15. physiology sign simulator according to claim 14, it is characterised in that second magnetic valve includes：Second Air inlet electromagnetic valve and the second outlet magnetic valve；

Second central control circuit, is connected with second air inlet electromagnetic valve and the second outlet magnetic valve, for root respectively According to default second inflationtime, export second inflationtime to second air inlet electromagnetic valve and control electric signal, Control second air inlet electromagnetic valve to open, and control the second outlet closed electromagnetic valve；And according to described default Two deflation times, export second deflation time to the second outlet magnetic valve and control electric signal, control described second goes out Pneumoelectric magnet valve is opened, and controls second air inlet electromagnetic valve to close；

16. physiology sign simulator according to claim 10, it is characterised in that the pipe thickness of the capillary is less than Or equal to 1.5 millimeters.

17. physiology sign simulator according to claim 11, it is characterised in that the pipe thickness of the capillary is less than Or equal to 1.5 millimeters.

18. the physiology sign simulator according to claim any one of 12-15, it is characterised in that the pipe of the capillary Wall thickness is less than or equal to 1.5 millimeters.

19. the physiology sign simulator according to claim any one of 12-15, it is characterised in that the control device is also Including：First AFS and the second AFS；

First AFS, is connected with first magnetic valve, for controlling whether to the airbag aeration；

Second AFS, is connected with second magnetic valve, for controlling whether to convey gas to the capillary.

20. physiology sign simulator according to claim 19, it is characterised in that first AFS also with it is described First central control circuit is connected, and the first switch for being exported according to first central control circuit controls electric signal, control Whether system is to the airbag aeration；

Second AFS is also connected with second central control circuit, for according to second central control circuit The second switch control electric signal of output, controls whether to inflate to the capillary.

21. physiology sign simulator according to claim 1, it is characterised in that the physiology sign simulator also includes： Pressure source, is arranged on above the physiology sign output device, the simulation for strengthening the physiology sign output device output Physiology sign.

22. physiology sign simulator according to claim 1, it is characterised in that the gas generating unit is air pump.

23. a kind of detecting system of health monitoring product, it is characterised in that including the physiology described in claim any one of 1-22 Sign simulator, and health monitoring product, analytical equipment；

The health monitoring product, the simulation physiology sign for monitoring the physiology sign simulator output is monitored As a result；

The analytical equipment, for analyzing the monitoring result, to realize the detection to the health monitoring product.

24. the detecting system of health monitoring product according to claim 23, it is characterised in that the health monitoring product For the health monitoring product based on friction generator and/or the health monitoring product based on piezoelectric generator.