CN209695180U - Device that is a kind of while recording amount of exercise information and ambulatory arterial changes of function - Google Patents

Abstract

The utility model provides device that is a kind of while recording amount of exercise information and ambulatory arterial changes of function, including physiologic information acquisition device, amount of exercise information acquisition device, processing unit and display device；For the physiologic information acquisition device for acquiring superficial arterial pulse wave signal in real time and generating arterial function status data according to arterial pulse wave signal, the superficial artery includes arteria carotis, superficial temporal artery, radial artery, ankle artery；The amount of exercise information acquisition device is for acquiring amount of exercise information in real time and generating amount of exercise data；The processing unit receives the generation arterial function status data, amount of exercise data respectively and is shown by display device.Device provided by the utility model respectively includes physiologic information acquisition device, amount of exercise information acquisition device, the physiologic information and amount of exercise information that personnel can be obtained respectively facilitate the influence between statistics amount of exercise information and arterial pulse wave signal, arterial function status data.

Description

Device that is a kind of while recording amount of exercise information and ambulatory arterial changes of function

Technical field

The utility model relates to the technical fields of cardiovascular and cerebrovascular detection device, in particular to a kind of to record amount of exercise letter simultaneously The device of breath and ambulatory arterial changes of function.

Background technique

Cardiovascular system is complicated dynamical system, measures the conventional method limitation of organic disease very within the hospital Greatly.Everyday environments are had left, the target of real-time dynamic monitoring is not achieved.It must be in daily life to the monitoring of cardiovascular system It carries out within continuous 24 hours in living, work and movement, includes fortune to body movements various in daily life to measure cardiovascular system Dynamic physiological reaction.This requires measure cardiovascular physiology information and corresponding body movement and amount of exercise information simultaneously.

There is dynamic electrocardiogram diagram technology to can recorde and detect 24 hours ecg informations at present.But there are no can be with The detection device of continuous dynamically recording arteries information.

At present the method (being detected under quiescent condition) of Non-invasive detection arterial function have pressure application, ultrasonic blood flow mensuration, Photoelectricity volume sphygmography etc..Above-mentioned measurement method cuts both ways: by pressure, position and behaviour as the pressure waves measurement genealogy of law is unified Making the influences such as gimmick may cause that test result is less reproducible, and successively the conduction time needs of acquisition two-way pulse wave are contrasted The electrocardio time；Equipment needed for ultrasonic blood flow mensuration is mostly bulky, and structure is complicated, high to operator's skill requirement, makes Arterial function can not be detected by noninvasive mode under motion conditions by obtaining.

Utility model content

The application's is designed to provide device that is a kind of while recording amount of exercise information and ambulatory arterial changes of function, energy It is enough to monitor amount of exercise information and ambulatory arterial changes of function respectively during people's movement.

Device that is a kind of while recording amount of exercise information and ambulatory arterial changes of function, including physiologic information acquisition device, Amount of exercise information acquisition device, processing unit and display device；

The physiologic information acquisition device is for acquiring superficial arterial pulse wave signal in real time and being believed according to arterial pulse wave Number generate arterial function status data, the superficial artery includes arteria carotis, superficial temporal artery, radial artery, ankle artery；

The amount of exercise information acquisition device is for acquiring amount of exercise information in real time and generating amount of exercise data；

The processing unit receives the generation arterial function status data, amount of exercise data respectively and passes through display device It is shown；

Further,

The physiologic information acquisition device includes transmitting light source, photoreceptor, power circuit, power supply and shell, institute State power supply and connect with the transmitting light source and the photoreceptor respectively by the power circuit, the transmitting light source with The photoreceptor is mounted in the shell.

Further,

The amount of exercise information acquisition module is made of accelerometer, clock unit, communication unit, power supply and shell.

Further,

The processing unit is by integral instrument amplifier, low-pass filter, analog-digital converter and singlechip group at for real Now by the filtering and analysis processing to arterial function status data, arterial pulse wave conduction time, velocity information are obtained, and By software filtering to moving acceleration data and analysis processing, acceleration, acceleration variation, limbs displacement rail are obtained Mark, spatial attitude information.

Further,

The transmitting light source is photodiode of the wave-length coverage in 850~1064nm.

Further,

The photoreceptor is photodiode of the response wave length scope in 850~1064nm.

Further,

The distance between the transmitting light source and the photoreceptor are 0.1cm~5cm, are arranged as single-point or multiple spot Matrix type structure.

Further,

The integral instrument amplifier inputs described low for receiving the signal of acquisition, and by after signal amplification Bandpass filter；

The low-pass filter, for carrying out low-pass filtering to amplified signal, to remove in amplified signal High frequency noise signal；

The analog-digital converter, for the analog signal after low-pass filtering to be converted to digital signal；

The single-chip microcontroller, for according to the digital signal, realizing at software filtering and the analysis of arterial pulse wave data Reason, the software filtering of moving acceleration data and analysis processing.

Other features and advantages of the utility model will illustrate in the following description, also, partly from specification In become apparent, or understood and implementing the utility model.The purpose of this utility model and other advantages can pass through Structure specifically indicated in the written description, claims, and drawings is achieved and obtained.

Below by drawings and examples, the technical solution of the utility model is described in further detail.

Detailed description of the invention

Attached drawing is used to provide a further understanding of the present invention, and constitutes part of specification, practical with this Novel embodiment is used to explain the utility model together, does not constitute limitations of the present invention.In the accompanying drawings:

Fig. 1 is while recording the system structure of device schematic diagram of amount of exercise information and ambulatory arterial changes of function；

Fig. 2 is physiology information acquisition device system structure diagram；

Fig. 3 is the schematic diagram that superficial artery is located at position of human body.

Specific embodiment

It is illustrated below in conjunction with preferred embodiment of the attached drawing to the utility model, it should be understood that described herein excellent It selects embodiment to be only used for describing and explaining the present invention, is not used to limit the utility model.

The utility model embodiment provides device that is a kind of while recording amount of exercise information and ambulatory arterial changes of function, Its as shown in Figure 1 structural schematic diagram, including physiologic information acquisition device, amount of exercise information acquisition device, processing unit and aobvious Showing device；The physiologic information acquisition device for acquiring superficial arterial pulse wave signal and according to arterial pulse wave signal in real time Arterial function status data is generated, the superficial artery includes arteria carotis, superficial temporal artery, radial artery, ankle artery；The amount of exercise Information acquisition device is for acquiring amount of exercise information in real time and generating amount of exercise data, and amount of exercise information acquisition module is by acceleration Meter, clock unit, communication unit, power supply and shell are constituted；The processing unit receives the generation arterial function state respectively Data, amount of exercise data are simultaneously shown by display device.

The effect and principle of above-mentioned technical proposal are:

Device provided by the utility model respectively includes physiologic information acquisition device, amount of exercise information acquisition device, can Respectively obtain personnel physiologic information and amount of exercise information, facilitate statistics amount of exercise information and arterial pulse wave signal, Influence between arterial function status data.

In one embodiment, the physiologic information acquisition device includes transmitting light source, photoreceptor, power supply electricity Road, power supply and shell, the power supply are connected with the transmitting light source and the photoreceptor respectively by the power circuit It connects, the transmitting light source and the photoreceptor are mounted in the shell.Emit light source be wave-length coverage 850~ The photodiode of 1064nm.The photoreceptor is photodiode of the response wave length scope in 850~1064nm.Its The distance between middle transmitting light source and the photoreceptor are 0.1cm~5cm, are arranged as single-point or multiple spot matrix form knot Structure.

In one embodiment, the processing unit is by integral instrument amplifier, low-pass filter, analog-digital converter and list Piece machine composition, is handled for realizing by filtering to arterial function status data and analysis, when obtaining arterial pulse wave conduction Between, velocity information, and handled by software filtering to moving acceleration data and analysis, obtain acceleration, acceleration arrow Measure variation, limbs deformation trace, spatial attitude information.

In one embodiment, the integral instrument amplifier for receiving the signal of acquisition, and the signal is amplified Later, the low-pass filter is inputted；The low-pass filter, for carrying out low-pass filtering to amplified signal, with removal High frequency noise signal in amplified signal；The analog-digital converter, for being converted to the analog signal after low-pass filtering Digital signal；The single-chip microcontroller, for according to the digital signal, realizing at software filtering and the analysis of arterial pulse wave data Reason, the software filtering of moving acceleration data and analysis processing.

Superficial artery everywhere as shown in Figure 3 also is located at the position of human body, and it is shallow to respectively include arteria carotis, temporo for superficial artery everywhere Artery, radial artery and ankle artery, wherein physiologic information acquisition device is sensor, and sensor can be installed by any way At arteria carotis, superficial temporal artery, radial artery and ankle artery.

Obviously, it is practical without departing from this can to carry out various modification and variations to the utility model by those skilled in the art Novel spirit and scope.If in this way, these modifications and variations of the present invention belong to the utility model claims and Within the scope of its equivalent technologies, then the utility model is also intended to include these modifications and variations.

Claims (8)

1. a kind of device for recording amount of exercise information and ambulatory arterial changes of function simultaneously, which is characterized in that including physiologic information Acquisition device, amount of exercise information acquisition device, processing unit and display device；

The physiologic information acquisition device for acquiring superficial arterial pulse wave signal and according to the life of arterial pulse wave signal in real time At arterial function status data, the superficial artery includes arteria carotis, superficial temporal artery, radial artery, ankle artery；

The amount of exercise information acquisition device is for acquiring amount of exercise information in real time and generating amount of exercise data；

The processing unit receives the generation arterial function status data, amount of exercise data respectively and is carried out by display device Display.

2. the apparatus according to claim 1, which is characterized in that

The physiologic information acquisition device includes transmitting light source, photoreceptor, power circuit, power supply and shell, the electricity Source is connect respectively by the power circuit with the transmitting light source and the photoreceptor, the transmitting light source and described Photoreceptor is mounted in the shell.

3. the apparatus according to claim 1, which is characterized in that

The amount of exercise information acquisition module is made of accelerometer, clock unit, communication unit, power supply and shell.

4. the apparatus according to claim 1, which is characterized in that

The processing unit is by integral instrument amplifier, low-pass filter, analog-digital converter and singlechip group at for realizing logical Filtering and the analysis processing to arterial function status data are crossed, obtains arterial pulse wave conduction time, velocity information, and pass through Software filtering to moving acceleration data and analysis processing, obtain acceleration, acceleration variation, limbs deformation trace, Spatial attitude information.

5. the apparatus of claim 2, which is characterized in that

The transmitting light source is photodiode of the wave-length coverage in 850~1064nm.

6. the apparatus of claim 2, which is characterized in that

The photoreceptor is photodiode of the response wave length scope in 850~1064nm.

7. the apparatus of claim 2, which is characterized in that

The distance between the transmitting light source and the photoreceptor are 0.1cm~5cm, are arranged as single-point or multiple spot matrix Formula structure.

8. device according to claim 4, which is characterized in that

The integral instrument amplifier inputs the low pass filtered for receiving the signal of acquisition, and by after signal amplification Wave device；

The low-pass filter, for carrying out low-pass filtering to amplified signal, to remove the high frequency in amplified signal Noise signal；

The analog-digital converter, for the analog signal after low-pass filtering to be converted to digital signal；

The single-chip microcontroller, for according to the digital signal, realizing software filtering and the analysis processing, fortune of arterial pulse wave data The software filtering of dynamic acceleration information and analysis processing.