CN204971244U - Domestic health detection system - Google Patents

Abstract

The utility model relates to a domestic health detection system, include: physiological parameters collection system for gather human one or more physiological parameters, intelligent terminal, with establish the communication between this physiological parameters collection system and be connected, this intelligent terminal includes the communication unit, signal processing unit and applied unit, this communication unit is used for carrying out the communication with physiological parameters collection system, signal processing unit connects this communication unit, a signal is handled for inciting somebody to action this physiological parameters collection system gathers, this uses this signal processing unit of unit connection, a result displays for controlling this physiological parameters collection system's collection process and to this signal processing unit. The utility model discloses a domestic health detection system can carry out health detection based on the check out test set of lightweight.

Description

Domestic health-care detection system

Technical field

This utility model belongs to health supervision instrument field, especially relates to a kind of Domestic health-care detection system.

Background technology

Along with the development of society, people are more and more concerned about oneself health problem.In time, the physical condition detecting oneself easily becomes a kind of social need.The development pole the earth of electronic technology, computer technology and medical science detection technique facilitates the development of medical electronic apparatus, and modern medical detection technique can meet the detection demand of people to basic health.Such as, the digital medical detection technique such as body temperature, pulse, blood pressure, blood oxygen, electrocardio has been tending towards ripe.But but existing medical detection system is due to shortcomings such as expensive, complicated operation, use inconveniences, makes it cannot popularize in average family.

For this reason, have some to may be used for family at present to carry out voluntarily detecting the instrument of physical signs.Such as, but these instruments all can only detect certain single physical signs, blood pressure or pulse.Once need detect and process multinomial physical signs, then the complexity of instrument rises rapidly.And the signal processing of some physical signs is very complicated, need a large amount of process resources.Once appliance requires is equipped with process resource accordingly, its cost will rise rapidly.

Therefore, be desirably under keeping the detecting instrument of lightweight or the prerequisite of detection means, realize the acquisition and processing of multiple physical signs.

Utility model content

Technical problem to be solved in the utility model is to provide a kind of Domestic health-care detection system, can carry out health detection based on the checkout equipment of lightweight.

This utility model be solve the problems of the technologies described above the technical scheme adopted be propose a kind of Domestic health-care detection system, comprising: physiological parameter acquisition device, for gathering one or more physiological parameters of human body; Intelligent terminal, and sets up communication between this physiological parameter acquisition device and is connected, and this intelligent terminal comprises communication unit, signal processing unit and applying unit; This communication unit is used for carrying out communication with physiological parameter acquisition device; This signal processing unit connects this communication unit, is processed by the signal that this physiological parameter acquisition device collects; This applying unit connects this signal processing unit, controls the gatherer process of this physiological parameter acquisition device and represents the result of this signal processing unit.

In an embodiment of the present utility model, this physiological parameter acquisition device comprises pulse wave sampler.

In an embodiment of the present utility model, this physiological parameter acquisition device comprises singly leads electrocardiogram acquisition device.

In an embodiment of the present utility model, this signal processing unit comprises pulse wave signal processing unit, and it comprises further: pulse wave signal filter unit, carries out Filtering Processing to remove catastrophe point to the pulse wave signal collected; And ciphering unit, by pulse wave data encryption packing.

In an embodiment of the present utility model, this signal processing unit also comprises blood pressure calculation unit, and it calculates pressure value based on oscillographic method.

In an embodiment of the present utility model, this blood pressure calculation unit carries out envelope diagram Gauss curve fitting, utilize amplitude characteristic ratios method determination mean pressure, high pressure and low pressure, then the mode of carrying out error compensation calculates pressure value.

In an embodiment of the present utility model, this signal processing unit comprises ECG's data compression unit, it comprises further: Filtering of ECG Signal unit, carries out digital filtering and Wavelet Multiresolution Decomposition filtering to eliminate Hz noise, myoelectricity interference and baseline drift to the electrocardiosignal collected; Parameter extraction unit, extracts basic parameter from filtered electrocardiosignal; And data packetization unit, basic parameter is carried out data packing according to reference format.

In an embodiment of the present utility model, above-mentioned Domestic health-care detection system also comprises cloud server, and this intelligent terminal interactive, receives the data that this intelligent terminal uploads.

This utility model is by shifting out outside physiological parameter acquisition device by the process of these physiological parameters, the efficient CPU calculation function of current intelligent terminal can be utilized, the mathematical calculation (as: wavelet transformation, Gauss curve fitting etc.) of complexity is applied to waveform processing, thus solve the difficulty that necessary detection hardware CPU computing is limited in the past, also reduce the cost of hardware device simultaneously.

Accompanying drawing explanation

For above-mentioned purpose of the present utility model, feature and advantage can be become apparent, below in conjunction with accompanying drawing, detailed description of the invention of the present utility model is elaborated, wherein:

Fig. 1 shows the schematic diagram of the first embodiment of Domestic health-care detection system of the present utility model.

Fig. 2 shows the schematic diagram of the first embodiment of signal processing unit of the present utility model.

Fig. 3 shows the schematic diagram of the second embodiment of signal processing unit of the present utility model.

Fig. 4 shows the schematic diagram of the 3rd embodiment of signal processing unit of the present utility model.

Fig. 5 shows the schematic diagram of the second embodiment of Domestic health-care detection system of the present utility model.

Fig. 6 shows oscillographic method blood pressure envelope schematic diagram.

Fig. 7 shows the schematic diagram of the application interface on mobile terminal.

The flow chart that the Domestic health-care that Fig. 8 shows this utility model one embodiment detects.

Detailed description of the invention

After the detailed description of reading embodiment of the present disclosure in conjunction with the following drawings, above-mentioned feature and advantage of the present utility model can be understood better.In the accompanying drawings, each assembly is not necessarily drawn in proportion, and the assembly with similar correlation properties or feature may have identical or close Reference numeral.

Fig. 1 shows the principle of the first embodiment of Domestic health-care detection system of the present utility model.Refer to Fig. 1, the Domestic health-care detection system of the present embodiment can comprise physiological parameter acquisition device 11 and intelligent terminal 21.Physiological parameter acquisition device 11 can be the hardware detection device of some lightweights.These devices only can comprise the sensor, auxiliary facilities, communication module and the power supply that gather needed for physiological parameter.Advantageously, these devices can comprise the process resource needed for physiological parameter that process gathers, such as, carry out the device of the signal processing such as filtering, correction, also need not comprise the device represented needed for visual physiological parameter.In the preferred embodiment, physiological parameter acquisition device 11 is implemented as some Wearable device, to improve portability.But being appreciated that conventional equipment kenel, such as box-like physiological parameter acquisition device 11 still within practical range of the present utility model, and designs due to the lightweight of device, and box-like physiological parameter acquisition device 11 can make less size.

Set up communication between physiological parameter acquisition device 11 and intelligent terminal 21 to connect, this communication connects general employing wireless telecommunications and connects, and such as widely used bluetooth communication connects.For the object of energy savings, the such low power consumption protocol of such as Zigbee also can preferentially be adopted.

In each embodiment of the present utility model, intelligent terminal 21 is such as smart mobile phone, panel computer, personal computer, all-in-one, intelligent television or other there is the similar equipment enriching computational resource.

Operationally, physiological parameter acquisition device 11 carries out physiological parameter according to the corresponding module in the CCE of intelligent terminal 21, such as the collection of blood pressure, pulse wave, electrocardiosignal etc., and without the need to carrying out complicated computing.Physiological parameter acquisition device 11 is by such as Bluetooth protocol and intelligent terminal 21 communication, and the instruction according to intelligent terminal 21 performs blood pressure measurement; Or fixing pressurization detects pulse wave, and the real-time pulse wave of correspondence is transferred to intelligent terminal 21; Or the instruction according to intelligent terminal 21 performs electrocardiogram acquisition work, will implement ECG Data Transmission Based to intelligent terminal 21.Intelligent terminal 21, by Bluetooth protocol and physiological parameter acquisition device 11 communication, carries out signal processing to real-time pulse wave data or electrocardiogram (ECG) data, and can calculate pressure value based on oscillographic method.

Be understandable that, physiological parameter acquisition device 11 can have the ability of a collection physiological parameter, also can have the ability gathering multinomial physiological parameter.When physiological parameter acquisition device 11 has the ability gathering multinomial physiological parameter, can timesharing or simultaneously gather multinomial physiological parameter.

Communication unit 210, signal processing unit 211 and applying unit 212 is comprised further intelligent terminal 21.Communication unit 210 is for carrying out communication with physiological parameter acquisition device 11.Signal processing unit 211 processes for the signal collected by physiological parameter acquisition device 11.Applying unit 212 is for controlling the gatherer process of physiological parameter acquisition device 11 and representing the result of signal processing unit 211.In embodiment of the present utility model, the part or all of of said units can be realized by the hardware of such as logic circuit.

In each embodiment of the present utility model, physiological parameter acquisition device 11 can comprise blood pressure sampler, one of pulse wave sampler or Electrocardial signal acquisition device part or its combination.

Due to the dependency of pulse wave collection and blood pressure measurement, physiological parameter acquisition device 11 can be embodied as and can gather pulse wave data and Measure blood pressure.Accordingly, the signal processing unit 211 in intelligent terminal 21 can comprise pulse wave signal processing unit, and its principle is shown in Figure 2.

Pulse wave signal processing unit comprises pulse wave signal filter unit 31, blood pressure calculation unit 32 and ciphering unit 33.The pulse wave signal collected is carried out Filtering Processing, to remove catastrophe point by pulse wave signal filter unit 31.Blood pressure calculation unit 32 calculates pressure value based on such as oscillographic method.Specifically, blood pressure calculation unit 32 carries out envelope diagram Gauss curve fitting, and utilize amplitude characteristic ratios method determination mean pressure, high pressure and low pressure, then the mode of carrying out error compensation calculates pressure value, the diagram of oscillographic method as shown in Figure 6.Finally by ciphering unit 33, pulse wave data is encrypted packing.

When physiological parameter acquisition device 11 is embodied as and gathers pulse wave data and Measure blood pressure, it is as follows with the interactive step of intelligent terminal 21:

First physiological parameter acquisition device 11 powers on, and sets up such as bluetooth be connected with intelligent terminal 21.Then intelligent terminal 21 instruction blood pressure measurement.Perform instruction by physiological parameter acquisition device 11, close valve stepping pressurization, the real-time pulse wave of synchronous acquisition also transfers to intelligent terminal 21, until complete instruction task, valve opening is exitted.Pulse wave under intelligent terminal 21 command detection fixation pressure.Physiological parameter acquisition device 11 performs instruction, and light valve is forced into specified pressure, gathers real-time pulse wave and transfers to intelligent terminal 21.Intelligent terminal 21 order fulfillment, terminate to gather and transmission, valve opening is exitted.

The correlation unit of intelligent terminal 21 mainly comprises three hierarchical structures: application layer, data Layer and protocol layer.Wherein protocol layer is responsible for carrying out data handshakes and exchange with physiological parameter acquisition device 11, the live signal that data Layer is responsible for physiological parameter acquisition device 11 gathers processes, application layer is then responsible for control survey process and result presentation etc., and the examples of interfaces of result presentation as shown in Figure 7.

Physiological parameter acquisition device 11 also may be embodied as to have singly leads electrocardiogram acquisition function.Correspondingly, the signal processing unit 211 in intelligent terminal 21 can comprise ECG's data compression unit, and its principle is shown in Figure 3.

ECG's data compression unit comprises Filtering of ECG Signal unit 41, parameter extraction unit 42 and data packetization unit 43 further.Filtering of ECG Signal unit 41 carries out digital filtering and Wavelet Multiresolution Decomposition filtering to eliminate Hz noise, myoelectricity interference and baseline drift to the electrocardiosignal collected.Parameter extraction unit 42 extracts basic parameter from filtered electrocardiosignal, and basic parameter comprises amplitude, QRS ripple location and identification etc.Basic parameter is carried out data packing according to reference format by data packetization unit 43.

In addition, if physiological parameter acquisition device 11 comprises blood pressure and pulse wave acquisition function and singly leads electrocardiogram acquisition function simultaneously, the signal processing unit of its correspondence also comprises pulse wave signal processing unit and ECG's data compression unit simultaneously.The inside principle of pulse wave signal processing unit and ECG's data compression unit is the same, does not repeat them here.

Except the first embodiment of above-mentioned health detecting system, this utility model further discloses the second embodiment, and the second embodiment adds cloud server 32 on the basis of the system structure of the first embodiment.In a second embodiment, set up communication and connect between physiological parameter acquisition device 12 and intelligent terminal 22, this communication connects general employing wireless telecommunications and connects, and such as bluetooth communication connects.Here intelligent terminal 22 is such as smart mobile phone, panel computer, personal computer, all-in-one, intelligent television etc.And the function of physiological parameter acquisition device 12 carries out parameter acquisition according to the corresponding module in the CCE of intelligent terminal 22, the such as collection of blood pressure, pulse wave, electrocardiosignal etc., and without the need to carrying out complicated computing.Physiological parameter acquisition device 12 is by such as Bluetooth protocol and intelligent terminal 22 communication, and the instruction according to intelligent terminal 22 performs blood pressure measurement; Or fixing pressurization detects pulse wave, and the real-time pulse wave of correspondence is transferred to intelligent terminal 22; Or the instruction according to host computer performs electrocardiogram acquisition work, will implement ECG Data Transmission Based to intelligent terminal 22.Intelligent terminal 22, by Bluetooth protocol and physiological parameter acquisition device 12 communication, carries out signal processing to real-time pulse wave data or electrocardiogram (ECG) data, and calculates pressure value based on oscillographic method.User alternately, is detected data upload to cloud platform filing management by intelligent terminal 22 the most at last signal processing results and cloud server 32.

The flow chart that the Domestic health-care that Fig. 8 shows this utility model one embodiment detects.Shown in figure 8, flow process comprises:

Step 801, gathers one or more physiological parameters of human body at physiological parameter acquisition device;

Between physiological parameter acquisition device, set up the intelligent terminal that communication is connected perform following steps:

Step 802, controls the gatherer process of one or more physiological parameter;

Step 803, receiving package is containing the acquired signal of one or more physiological parameter;

Step 804, processes acquired signal;

Step 805, represents the result of acquired signal.

Concrete principle with reference to the embodiment of Domestic health-care detection system, no longer can be launched at this.

This utility model is by shifting out outside physiological parameter acquisition device by the process of these physiological parameters, the efficient CPU calculation function of current intelligent terminal can be utilized, the mathematical calculation (as: wavelet transformation, Gauss curve fitting etc.) of complexity is applied to waveform processing, thus solve the difficulty that necessary detection hardware CPU computing is limited in the past, also reduce the cost of hardware device simultaneously.

In one embodiment, the detection that health detecting system of the present utility model carries out can not be for diagnostic purpose, and therefore the physiological parameter of health detecting system can make an explanation according to the intention of non-diagnostic object.Some can be directly used in the physiological parameter of diagnostic purpose can not within the detection range of health detecting system of the present utility model.

In another kind of embodiment, the detection that health detecting system of the present utility model carries out can be for diagnostic purpose with or not for diagnostic purpose.Now, physiological parameter of the present utility model can make an explanation according to the intention of diagnostic purpose and/or non-diagnostic object.When for diagnostic purpose, some can be directly used in the physiological parameter of diagnostic purpose can within the detection range of health detecting system of the present utility model.When not for diagnostic purpose, some can be directly used in the physiological parameter of diagnostic purpose can not within the detection range of health detecting system of the present utility model.

Although this utility model describes with reference to current specific embodiment, but those of ordinary skill in the art will be appreciated that, above embodiment is only used to this utility model is described, change or the replacement of various equivalence also can be made when not departing from this utility model spirit, therefore, as long as all will drop in the scope of claims of the application the change of above-described embodiment, modification in spirit of the present utility model.

Claims (8)

1. a Domestic health-care detection system, is characterized in that comprising:

Physiological parameter acquisition device, for gathering one or more physiological parameters of human body;

Intelligent terminal, and sets up communication between this physiological parameter acquisition device and is connected, and this intelligent terminal comprises communication unit, signal processing unit and applying unit; This communication unit and physiological parameter acquisition device carry out communication; This signal processing unit connects this communication unit, is processed by the signal that this physiological parameter acquisition device collects; This applying unit connects this signal processing unit, controls the gatherer process of this physiological parameter acquisition device and represents the result of this signal processing unit.

2. Domestic health-care detection system according to claim 1, is characterized in that, this physiological parameter acquisition device comprises pulse wave sampler.

3. Domestic health-care detection system according to claim 1, is characterized in that, this physiological parameter acquisition device comprises singly leads electrocardiogram acquisition device.

4. Domestic health-care detection system according to claim 2, is characterized in that, this signal processing unit comprises pulse wave signal processing unit, and it comprises further:

Pulse wave signal filter unit, carries out Filtering Processing to remove catastrophe point to the pulse wave signal collected; And

Ciphering unit, by pulse wave data encryption packing.

5. Domestic health-care detection system according to claim 4, is characterized in that, this signal processing unit also comprises blood pressure calculation unit, and it calculates pressure value based on oscillographic method.

6. Domestic health-care detection system according to claim 5, is characterized in that, this blood pressure calculation unit carries out envelope diagram Gauss curve fitting, utilize amplitude characteristic ratios method determination mean pressure, high pressure and low pressure, then the mode of carrying out error compensation calculates pressure value.

7. Domestic health-care detection system according to claim 3, is characterized in that, this signal processing unit comprises ECG's data compression unit, and it comprises further:

Filtering of ECG Signal unit, carries out digital filtering and Wavelet Multiresolution Decomposition filtering to eliminate Hz noise, myoelectricity interference and baseline drift to the electrocardiosignal collected;

Parameter extraction unit, extracts basic parameter from filtered electrocardiosignal; And

Data packetization unit, carries out data packing by basic parameter according to reference format.

8. Domestic health-care detection system according to claim 1, characterized by further comprising:

Cloud server, and this intelligent terminal interactive, receive the data that this intelligent terminal uploads.