CN104434052A - Neck pulse monitor - Google Patents

Abstract

The invention relates to the field of photoelectric sensors, and discloses a neck pulse monitor which comprises a textile item for a neck, and a monitor body. A reflection type photoelectric sensor is arranged on the textile item. The monitor body comprises a power supply, a data processor, a Bluetooth module and a display screen. The reflection type photoelectric sensor transmits collected photoelectric signals to the data processor through the Bluetooth module. The data processor converts the received photoelectric signals into digital signals to be displayed on the display screen. The neck pulse monitor irradiates the skin of the neck through the reflection type photoelectric sensor, blood under the skin of the neck presents pulsation changes under the effect of a heart, and therefore the absorption of light is changed, the light intensity detected by the photoelectric sensor changes according to the pulsation changes, the change signals of the light intensity are converted into electric signals so that pulse related information can be obtained, and the neck pulse can be monitored, warned and positioned.

Description

A kind of cervical region pulse monitor

Technical field

The present invention relates to photoelectric sensing field, particularly relate to a kind of cervical region pulse monitor.

Background technology

Cardiovascular and cerebrovascular disease greatly have impact on the health of people in recent years, cardiovascular and cerebrovascular vessel morbidity is anxious, mortality is strong, if but morbidity time can carry out in time treatment can greatly alleviate its harm, for this feature market having occurred a collection of instrument and equipment for detecting heart rate, but can not use for a long time because heart rate acquisition mode mostly is squash type and can not get applying widely.

Current Cardio kickboxing on the market, general is all by a watch with pulse receiving function, and sensor composition, needing, by the rubber of a band conductive material or textile tapes, Sensor section is attached to chest tightly effectively could receive pulse data.Except material cost is high, more easily cause user uncomfortable.

To sum up, research and develop a kind of can wearing for a long time and do not affect the pulse monitoring device of people's normal activity, the heart rate of human body being monitored, seems especially important and urgent.

Summary of the invention

For overcoming the deficiencies in the prior art, the object of the invention is: provide a kind of cervical region pulse monitor, the cervical region pulse information of effective monitoring human, realizes the monitoring to pulse, warning and location in real time.

In order to solve the technical problem in background technology, the invention provides a kind of cervical region pulse monitor, comprise the weaving object for cervical region and monitoring main body, described weaving object is provided with reflective photoelectric sensor, described monitoring main body comprises power supply, data processor, bluetooth module and display screen, described reflective photoelectric sensor sends the photosignal of collection to data processor by bluetooth module, and the photoelectric signal transformation received becomes digital signal to show on a display screen by described data processor.

Preferably, described monitoring main body also comprises the acoustic-optic alarm be connected with described data processor, and the processing signals of described data processor controls acoustic-optic alarm.

In addition, described monitoring main body also comprises the gsm module and GPS module that are connected with described data processor, and described gsm module carries out the cell-phone number of communication for setting, described GPS module is for obtaining locating information.

Particularly, described data processor also comprises signal processing module, and described signal processing module comprises second-order low-pass filter, multistage amplifier circuit, integrating circuit and hysteresis comparator.

Alternatively, described monitoring main body also comprises the SOS alarm module be connected with described data processor.

Preferably, described monitoring main body also comprises the charging inlet be connected with described power supply, and described charging inlet comprises miniature commutator and micro voltage stabilizing device.

Alternatively, described monitoring main body also comprises the recording module for depositing card.

The principle of cervical region pulse monitor of the present invention is the light beam irradiation skin surface 1. utilizing wavelength to be 960nm, mode by reflection is sent to photoelectric sensor by light beam, owing to being subject to the attenuation by absorption effect of integumentary musculature and blood in reflection process, the light intensity that photoelectric sensor receives will weaken, wherein skin, muscle, tissue etc. remain unchanged to being absorbed in whole blood circulation of light, and the volumetric blood in skin presents pulsation change under key role, thus be change to the absorption of light; 2. peripheral blood capacity is maximum when the heart contracts, and absorbing amount is also maximum, and the light intensity detected is minimum; 3. when diastole, peripheral blood capacity is minimum, and absorbing amount is also minimum, and the light intensity detected is maximum; 4. the light intensity that photoelectric sensor detects becomes pulsating nature to change thereupon, and this intensity variation signal is converted into the relevant information that the signal of telecommunication just can obtain pulse.

Adopt technique scheme, cervical region pulse monitor of the present invention can effective Real-Time Monitoring cervical region pulse information, and can give the alarm action in time exceeding normal pulse scope, do not affect daily life, realize the monitoring to pulse, warning and location.

Accompanying drawing explanation

In order to be illustrated more clearly in technical scheme of the present invention, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, accompanying drawing in the following describes is only some embodiments of the present invention, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

Fig. 1 is the structured flowchart of the cervical region pulse monitor that the embodiment of the present invention provides;

Fig. 2 is the signal processing module block diagram of the cervical region pulse monitor that the embodiment of the present invention provides.

Detailed description of the invention

Below in conjunction with the accompanying drawing in the embodiment of the present invention, be clearly and completely described the technical scheme in the embodiment of the present invention, obviously, described embodiment is only the present invention's part embodiment, instead of whole embodiments.Based on the embodiment in the present invention, the every other embodiment that those of ordinary skill in the art obtain under the prerequisite of not making creative work, all belongs to the scope of protection of the invention.

The structured flowchart of the cervical region pulse monitor that embodiment: Fig. 1 provides for the embodiment of the present invention, the cervical region pulse monitor that the present embodiment provides comprise for cervical region weaving object and monitoring main body, described weaving object is provided with reflective photoelectric sensor, described monitoring main body comprises power supply, data processor, bluetooth module and display screen, described reflective photoelectric sensor sends the photosignal of collection to data processor by bluetooth module, the photoelectric signal transformation received becomes digital signal to show on a display screen by described data processor, described display screen is connected with the signal output part of described data processor by A/D modular converter, the signal of telecommunication of photoelectric sensor collection is converted to frequency of pulse by A/D modular converter, be presented on described display screen.

In the present embodiment, described weaving object is necktie, is pasted with reflective photoelectric sensor in the region of necktie contact cervical region.Certainly, weaving object is not limited to knot and/or necktie, can also be the muffler ornaments etc. of silk scarf, scarf or coarse cloth bar.

Preferably, described monitoring main body also comprises the acoustic-optic alarm be connected with described data processor, the processing signals of described data processor controls acoustic-optic alarm, described data processor controls acoustic-optic alarm according to processing signals, when data processor judges the pulse signal of collection lower than the minimum warning value set, or during the highest warning value higher than setting, described acoustic-optic alarm work, give the alarm sound and alarm light.

In addition, described heart rate monitoring system also comprises the gsm module and GPS module that are connected with described processing module, described gsm module carries out the cell-phone number of communication for setting, described GPS module is for obtaining locating information, when acoustic-optic alarm operation, triggering gsm module works, and the locating information sending GPS acquisition carries out the cell-phone number of communication to gsm module setting.

Particularly, described in described cervical region pulse monitor, processing module also comprises signal processing module, and as shown in Figure 2, described signal processing module comprises second-order low-pass filter, multistage amplifier circuit, integrating circuit and hysteresis comparator.Because the frequency of pulse is very low, and interfering signal has higher frequency, therefore adopts second-order low-pass filter circuit to carry out filtering to interfering signal.The signal that sensor exports is very little, adopts multistage amplifier circuit to carry out signal amplification.First can avoid introducing new interference by hysteresis comparator again through integrating circuit through amplifying signal, ensure the reliable pulse signal of final acquisition.

Alternatively, described monitoring main body also comprises the SOS alarm module be connected with described data processor, when acoustic-optic alarm works, presses SOS alarm module, can carry out a key warning.

Preferably, described monitoring main body also comprises the charging inlet be connected with described power supply, and described charging inlet comprises miniature commutator and micro voltage stabilizing device, by described charging inlet, civil power can be utilized the power source charges of described Intelligent sphygmus monitoring device.

Alternatively, described monitoring main body also comprises the recording module for depositing card, setting recording trigger condition, as acoustic-optic alarm start working namely trigger recording module recording deposit card.

Cervical region pulse monitor of the present invention can effective monitor heart rate information, and can give the alarm action in time exceeding normal cardiac rate scope, easy to use, can not cause uncomfortable to user.

Above disclosedly be only several preferred embodiment of the present invention, certainly can not limit the interest field of the present invention with this, therefore according to the equivalent variations that the claims in the present invention are done, still belong to the scope that the present invention is contained.

Claims (7)

1. a cervical region pulse monitor, it is characterized in that, comprise the weaving object for cervical region and monitoring main body, described weaving object is provided with reflective photoelectric sensor, described monitoring main body comprises power supply, data processor, bluetooth module and display screen, described reflective photoelectric sensor sends the photosignal of collection to data processor by bluetooth module, and the photoelectric signal transformation received becomes digital signal to show on a display screen by described data processor.

2. cervical region pulse monitor as claimed in claim 1, it is characterized in that, described monitoring main body also comprises the acoustic-optic alarm be connected with described data processor, and the processing signals of described data processor controls acoustic-optic alarm.

3. cervical region pulse monitor as claimed in claim 1, it is characterized in that, described monitoring main body also comprises the gsm module and GPS module that are connected with described data processor, and described gsm module carries out the cell-phone number of communication for setting, described GPS module is for obtaining locating information.

4. cervical region pulse monitor as claimed in claim 1, it is characterized in that, described data processor also comprises signal processing module, and described signal processing module comprises second-order low-pass filter, multistage amplifier circuit, integrating circuit and hysteresis comparator.

5. cervical region pulse monitor as claimed in claim 1, it is characterized in that, described monitoring main body also comprises the SOS alarm module be connected with described data processor.

6. cervical region pulse monitor as claimed in claim 1, it is characterized in that, described monitoring main body also comprises the charging inlet be connected with described power supply, and described charging inlet comprises miniature commutator and micro voltage stabilizing device.

7. as the cervical region pulse monitor in claim 1-6 as described in any one, it is characterized in that, described monitoring main body also comprises the recording module for depositing card.