CN202288272U - Heart rate detection equipment - Google Patents

Abstract

The utility model discloses heart rate detection equipment. The heart rate detection equipment comprises a signal acquisition device, a computing device, a central control unit and a display unit; the signal acquisition device is used for acquiring intra-aural vibration wave signals and converting the intra-aural vibration wave signals into intra-aural vibration electrical signals; the computing device is used for computing the intra-aural vibration electrical signals to generate heart rate information; the central control unit is used for acquiring the heart rate information from the computing device and outputting the heart rate information to the display unit; and the display unit is used for displaying the heart rate information. The heart rate detection equipment acquires the heart rate information by acquiring the intra-aural vibration wave signals, so that the problem that the heart rate detection equipment cannot accurately and reliably detect the heart rate information due to the weakness of the optical signals detected by a sensor in the prior art is solved, and the heart rate detection equipment can accurately and reliably detect the heart rate information.

Description

Heart rate detection equipment

Technical field

This utility model relates to medical instruments field, particularly a kind of heart rate detection equipment.

Background technology

Heart rate value is one of important medical science index of reflection health degree; Nurse sufferer especially, instruct people to form correct work and rest custom and instruct one of important evidence of athlete's sentific training, heart rate value generally is defined in the number of times that human heart is beaten within a minute.The most frequently used heart rate detection equipment is stethoscope, and stethoscope can comprise single a plurality of kinds such as electronic stethoscope with stethoscope, double-purpose stethoscope, triple change stethoscope, vertical stethoscope, universal stethoscope and up-to-date appearance.Though stethoscope has price advantage high and not easy to use, because all restrictions, the ordinary people through specialized training can not use stethoscope to detect heart rate value accurately easily.For example, usual method makes ear hole and not driving fit of auditory meatus improperly, and sound equipment can spill, and causes the auscultation poor effect, and external noise also can get into, and causes and obscures the auscultation effect, thereby make stethoscope can't detect heart rate value accurately.Again for example, if stethoscope is positioned in the pocket or does not regularly maintain always, thereby the cotton-wool of medicated clothing, fiber or dust can block the accuracy that stethoscopic syrinx influences auscultation so.In addition, stethoscopic auscultation precision also is very limited, to such an extent as to some slighter heart beating or be mixed in beating in the irregular heart beating and leaked meter in the auscultation process, thus the accuracy of auscultation will have been reduced.

Along with the development of photoelectric technology, light volume scan device (PPG) has obtained extensive use in the heart rate detection field in recent years.Fig. 1 is the application sketch map of heart rate checkout equipment in the prior art; As shown in Figure 1; This heart rate detection equipment 1 is worn on the ear 2; Heart rate detection equipment 1 comprises data processing equipment, be arranged at the light source behind the ear and be positioned at auricle and with the pick off that light source is oppositely arranged, the optical signal transmission that comes from light source is arrived by sensor after crossing the cartilage of auricle, again by data processing equipment to sensor to optical signal handle and draw heart rate information.Above-mentioned heart rate detection equipment is to adopt light transmission-type PPG to measure heart rate information, and the user can this heart rate detection equipment of long periods of wear.But; Because everyone auricle shape there are differences; And the relative position of this heart rate detection equipment and auricle can't keep fixing when human body moves; Therefore wear and usually can occur optical signal transmission fully that light source sends behind this heart rate detection equipment and cross blood vessel or the situation at other positions of pulsing in the auricle, cause optical signal that sensor arrives a little less than, thereby make this heart rate detection equipment can't be accurately and reliable detection go out heart rate information.

The utility model content

This utility model provides a kind of heart rate detection equipment, in order to realize accurately and reliable detection goes out heart rate information.

For realizing above-mentioned purpose, this utility model provides a kind of heart rate detection equipment, comprising: signal pickup assembly, arithmetic processing apparatus, central control unit and display unit;

Said signal pickup assembly is used to gather in ear vibration wave signal, and is the in ear vibration signal of telecommunication with said in ear vibration wave conversion of signals;

Said arithmetic processing apparatus is used for that the said in ear vibration signal of telecommunication is carried out computing and generates heart rate information;

Said central control unit is used for obtaining said heart rate information from said arithmetic processing apparatus, and exports said heart rate information to display unit;

Said display unit is used for said heart rate information is shown.

Further, said signal pickup assembly comprises: signal gathering unit and front end signal processing unit;

Said signal gathering unit; Be used to gather the outer vibration wave signal of said in ear vibration wave signal and ear; Said in ear vibration wave conversion of signals is the in ear vibration signal of telecommunication and is that ear vibrates the signal of telecommunication outward with the outer vibration wave conversion of signals of said ear, and the said in ear vibration signal of telecommunication and said ear are vibrated the signal of telecommunication outward export said front end signal processing unit to;

Said front end signal processing unit; Be used for the said in ear vibration signal of telecommunication is carried out filtering and computing processing and amplifying; And vibrate the signal of telecommunication outward according to said ear the said in ear vibration signal of telecommunication is compensated and feedback processing, and will pass through filtering and computing processing and amplifying and vibrate the signal of telecommunication and export said arithmetic processing apparatus to through the said in ear of overcompensation and feedback processing.

Further, also comprise the communication unit that is connected with communication equipment with said central control unit, said central control unit also is used for exporting said heart rate information to said communication unit; Said communication unit is used for exporting said heart rate information to said communication equipment.

Further; Also comprise the alarm unit that is connected with central control unit; Said central control unit also is used for generating alarm signal according to said heart rate information; And said alarm signal is sent to said alarm unit, and said alarm unit is used for reporting to the police according to said alarm signal, and said alarm signal comprises acoustical signal, optical signal, vibration signal or its combination in any.

Further, central control unit also is used for obtaining the standard heart rate information through communication unit, and according to said standard heart rate information said heart rate information is carried out treatment for correcting.

Further, said heart rate information comprises the state value of heart rate value, heart rate and/or the state value of heart beating.

Further, signal gathering unit is one or more acoustic-electrical transducer, and the probe orientation of each acoustic-electrical transducer is adjustable in predetermined angular range.

Further, said heart rate detection equipment is proofreaied and correct the heart rate information that is generated on based on the basis of making comparisons with the standard heart rate information and is learnt.

Further, the user can realize the control to said heart rate detection equipment through the control of the detection in communication equipment software.

Further, said heart rate detection equipment is cover ear formula heart rate detection equipment, ear-sticking heart rate detection equipment, ear type heart rate detection equipment or antrum auris type heart rate detection equipment.

The utlity model has following beneficial effect:

The heart rate detection equipment that this utility model provides comprises signal pickup assembly, arithmetic processing apparatus, central control unit and display unit; Signal pickup assembly is used to gather in ear vibration wave signal; And be the in ear vibration signal of telecommunication with in ear vibration wave conversion of signals; Arithmetic processing apparatus is used for that the in ear vibration signal of telecommunication is carried out computing and generates heart rate information; Central control unit is used for obtaining heart rate information and exporting heart rate information to display unit from arithmetic processing apparatus, and display unit is used for heart rate information is shown.The heart rate detection equipment of this utility model draws heart rate information through gathering in ear vibration wave signal; Avoided in the prior art owing to sensor to optical signal more weak make heart rate detection equipment can't be accurately and reliable detection go out the problem of heart rate information, thereby make heart rate detection equipment can be accurately and reliable detection go out heart rate information.

Description of drawings

Fig. 1 is the application sketch map of heart rate checkout equipment in the prior art;

The structural representation of a kind of heart rate detection equipment that Fig. 2 provides for this utility model embodiment one;

The structural representation of a kind of heart rate detection equipment that Fig. 3 provides for this utility model embodiment two;

Fig. 4 is the application sketch map of this utility model heart rate detection equipment;

Fig. 5 is the structural representation of heart rate checkout equipment among Fig. 4.

The specific embodiment

For making those skilled in the art understand the technical scheme of this utility model better, the heart rate detection equipment that this utility model provides is described in detail below in conjunction with accompanying drawing.

The structural representation of a kind of heart rate detection equipment that Fig. 2 provides for this utility model embodiment one, as shown in Figure 2, this heart rate detection equipment comprises: signal pickup assembly 11, arithmetic processing apparatus 12, central control unit 13 and display unit 14.

Signal pickup assembly 11 is used to gather in ear vibration wave signal, and is the in ear vibration signal of telecommunication with in ear vibration wave conversion of signals.

In ear is each the abundantest position of external organ medium vessels of health, and the in ear blood vessel leads to the blood vessel brain of enrichment more straight.In ear has tympanum, in the tympanum at tympanum place abundant blood vessel and arterial blood is arranged.Blood is unidirectional springing up owing to the influence that receives atrial systole and expansion; Spring up in the process at blood; It is higher to flow through the vibration wave signal that the blood of in ear produces; The vibration wave signal that in ear blood produces can conduct in the auditory meatus through tympanum, so the vibration wave signal of tympanum conduction can be truly and react the state of heart rate reliably.Further, the skeleton and/or the tissue of non-cartilage conduct in the auditory meatus in the skeleton that the vibration wave signal that produces of in ear blood can also be through cartilage in the auditory meatus and/or tissue and the auditory meatus.Among each embodiment of this utility model, in ear vibration wave signal mainly comprise spring up generation by in ear blood and conduct to vibration wave signal in the auditory meatus, conduct to the vibration wave signal in the auditory meatus and conduct in the auditory meatus by tympanum by the skeleton and/or the tissue of non-cartilage in the auditory meatus by the skeleton of cartilage in the auditory meatus and/or tissue.Signal pickup assembly 11 is gathered above-mentioned in ear vibration wave signal, so that detect heart rate information.And it is the digitized in ear vibration signal of telecommunication that signal pickup assembly 11 also vibrates electrical signal conversion with in ear, handles for 12 pairs of this in ear vibrations of arithmetic processing apparatus signal of telecommunication.Selectively, also can in ear be vibrated electrical signal conversion by arithmetic processing apparatus 12 is that digitized in ear vibrates the signal of telecommunication and the in ear vibration signal of telecommunication is carried out subsequent treatment.

Arithmetic processing apparatus 12 is used for that the in ear vibration signal of telecommunication is carried out computing and generates heart rate information.In the present embodiment; Heart rate information can comprise the state value of heart rate value, heart rate and/or the state value of heart beating, and then the 12 pairs of in ear of the arithmetic processing apparatus vibration signal of telecommunication carries out computing and generates heart rate information and specifically comprise: arithmetic processing apparatus 12 calculates heart rate value, calculates the state value of heart rate and/or calculate the state value of heart beating according to the strong and weak degree of the in ear vibration signal of telecommunication according to the strong and weak degree of the in ear vibration signal of telecommunication according to the number of the pulse in the in ear vibration signal of telecommunication.

Central control unit 13 is used for obtaining heart rate information from arithmetic processing apparatus 12, and exports heart rate information to display unit 14.Display unit 14 is used for heart rate information is shown.Display unit 14 can (Light Emitting Diode, be called for short: LED) (Organic Light-Emitting Diode be called for short: OLED) display screen for display screen or Organic Light Emitting Diode for LCDs, light emitting diode.Can also be provided with the functional circuit of controlling backlight open or closing in this display unit 14, central control unit 13 can send out code backlight for functional circuit according to backlight open instruction unlatching functional circuit backlight or in display unit 14 to the instruction of the transmission of the functional circuit in the display unit 14 backlight open and cut out backlight for functional circuit according to out code backlight.

The heart rate detection equipment that present embodiment provides comprises signal pickup assembly, arithmetic processing apparatus, central control unit and display unit; Signal pickup assembly is used to gather in ear vibration wave signal; And be the in ear vibration signal of telecommunication with in ear vibration wave conversion of signals; Arithmetic processing apparatus is used for that the in ear vibration signal of telecommunication is carried out computing and generates heart rate information; Central control unit is used for obtaining heart rate information and exporting heart rate information to display unit from arithmetic processing apparatus, and display unit is used for heart rate information is shown.The heart rate detection equipment of present embodiment draws heart rate information through gathering in ear vibration wave signal; Avoided in the prior art owing to sensor to optical signal more weak make heart rate detection equipment can't be accurately and reliable detection go out the problem of heart rate information, thereby make heart rate detection equipment can be accurately and reliable detection go out heart rate information.

The structural representation of a kind of heart rate detection equipment that Fig. 3 provides for this utility model embodiment two, as shown in Figure 3, the heart rate detection equipment of present embodiment is made further configuration on the basis of the foregoing description one.Embodiment two can be used as the improvement of embodiment one is disclosed at this, but the improvement of embodiment one perhaps is installed in the heart rate detection equipment of embodiment one as the arrangement setting.Embodiment two can also be arranged at other heart rate detection equipment of the prior art and become new embodiment.

In embodiment two, signal pickup assembly 11 specifically comprises: signal gathering unit 111 and front end signal processing unit 112.

In present embodiment and embodiment one, signal gathering unit 111 is used to gather in ear vibration wave signal, is the in ear vibration signal of telecommunication with in ear vibration wave conversion of signals, and in ear is vibrated the signal of telecommunication exports front end signal processing unit 112 to.The quantity of signal gathering unit 111 can be one or more, and present embodiment is that example describes with a plurality of signal gathering unit.Signal gathering unit 111 can be acoustic-electrical transducer in the present embodiment, and this acoustic-electrical transducer is for converting the acoustical vibration ripple into the pick off of the signal of telecommunication.The probe orientation of each acoustic-electrical transducer is adjustable in predetermined angular range; In practical application when wearing heart rate detection equipment to ear the probe orientation of scalable acoustic-electrical transducer; Make it aim at tympanum, to realize that the vibration wave signal of tympanum conduction is carried out sufficient, high-precision, high efficiency and effective collection.And in ear is vibrated electrical signal conversion is the digitized in ear vibration signal of telecommunication to signal gathering unit 111 particularly.Front end signal processing unit 112 is used for the in ear vibration signal of telecommunication is carried out filtering and computing processing and amplifying, and the in ear that will pass through filtering and computing processing and amplifying vibrates the signal of telecommunication and exports arithmetic processing apparatus 12 to.Further; Signal gathering unit 111 also is used to gather the outer vibration wave signal of ear; With the outer vibration wave conversion of signals of ear is that ear vibrates the signal of telecommunication outward; And ear is vibrated the signal of telecommunication outward export front end signal processing unit 112 to, the outer vibration wave signal of its middle ear comprises the signal of any non-detected object that vibration wave signal, auditory meatus that the blood vessel of auricle produces are outer and the detection of this utility model is played all signals of interference effect; Then front end signal processing unit 112 also is used for vibrating the signal of telecommunication outward according to ear the in ear vibration signal of telecommunication is compensated and feedback processing, and will vibrate the signal of telecommunication through the in ear of overcompensation and feedback processing and export arithmetic processing apparatus 12 to.A plurality of signal gathering unit 111 can be positioned at hemisphere or approximate hemispheroidal surface; And be distributed to as required greater than on the hemispherical sphere, so that a part of signal gathering unit 111 is used to gather vibration wave signal and another part signal gathering unit 111 outward auditory meatus directions of tympanum conduction to gather the outer vibration wave signal of ear.At this moment, front end signal processing unit 112 can be used for vibrating the signal of telecommunication outward according to ear the in ear vibration signal of telecommunication is compensated and feedback processing, detects degree of accuracy to improve.Wherein, the sphere at signal gathering unit 111 places can be positive sphere, also can be the irregular sphere over against the inclination of tympanum direction.Further; The sphere at signal gathering unit 111 places can also be the sphere of other form; For example: can be the various spheres that design according to principle of human engineering; Different spheres can adopt different materials, shape and size, and the user can freely select the sphere of oneself feeling comfortable according to demand, promptly selects various signals collecting unit 111.In addition, also precision various signals collecting unit 111 can be set in signal pickup assembly 11, to satisfy the needs of different user or occasion.

Further, in present embodiment and embodiment one, arithmetic processing apparatus 12 specifically comprises: buffer storage unit 121, operation processing unit 122 and permanent storage unit 123.Buffer storage unit 121 is used in ear vibration wave signal is carried out caching process; Operation processing unit 122 is used for obtaining in ear vibration wave signal from buffering memory element 121, in ear vibration wave signal is carried out computing generate heart rate information, and export heart rate information to permanent storage unit 123; Permanent storage unit 123 is used for heart rate information is stored.Heart rate information can comprise the state value of heart rate value, heart rate and/or the state value of heart beating, and then the 122 pairs of in ear of the operation processing unit vibration signal of telecommunication carries out computing and generates heart rate information and specifically comprise: operation processing unit 122 calculates heart rate value, calculates the state value of heart rate and/or calculate the state value of heart beating according to the strong and weak degree of the in ear vibration signal of telecommunication according to the strong and weak degree of the in ear vibration signal of telecommunication according to the number of the pulse in the in ear vibration signal of telecommunication.Wherein, the state value of the state value of heart beating, heart rate can be divided into a plurality of predetermined grades.For example: the state value of heart beating is corresponding respectively, and for example, health, subhealth state and unusual Three Estate provide foundation and reference with diagnosis, monitoring and the treatment that is used to symptoms such as arrhythmia; The state value of heart rate corresponding to, for example, five strong grades of heart of A to E, grade A represents aroused in interest too fast, grade E represents bradycardia, the rest may be inferred between grade A and grade E for other grades.Further; The state value of heart beating can also be repartitioned and define according to other standards; The state value of heart rate also can carry out the division and the definition of many grades of other kinds according to other health of heart indexs or the index of beating, and is not limited to kind and the implication in this proposition.Selectively, also can in ear be vibrated electrical signal conversion by 121 execution of the buffer storage unit in the arithmetic processing apparatus 12 is digitized this process of the in ear vibration signal of telecommunication.

Further, in present embodiment and embodiment one, central control unit 13 can obtain heart rate information from the permanent storage unit 123 the arithmetic processing apparatus 12.

Further, in present embodiment and embodiment one, heart rate detection equipment can also comprise: the alarm unit 15 that is connected with central control unit 13.Central control unit 13 also is used for generating alarm signal according to heart rate information, and alarm signal is sent to alarm unit 15.For example: heart rate information safety range value can be set in advance, and central control unit 13 is if generate alarm signal when judging this heart rate information and exceeding heart rate information safety range value.Wherein, alarm signal can comprise acoustical signal, optical signal, vibration signal or its combination in any.Alarm unit 15 is used for reporting to the police according to alarm signal.Further, central control unit 13 can be to alarm unit 15 transmission warning open command to control alarm unit 15 unlatching warning functions, to cut out warning function to control alarm unit 15, instruct to alarm unit 15 transmission warning volumes and perhaps instruct to control the strong and weak degree of vibration to alarm unit 15 transmission vibration strong or weaks with the size of controlling the warning volume to alarm unit 15 transmission Alerts Offs instructions.Wherein, it is quiet that warning volume control instruction can be controlled alarm unit 15.In sum, the unlatching of alarm unit 15, close, volume and/or vibration strong or weak can be by central control unit 13 controls.

Further, in present embodiment and embodiment one, heart rate detection equipment also comprises: the communication unit 16 that is connected with communication equipment with central control unit 13.Central control unit 13 also is used for exporting heart rate information to communication unit 16; Communication unit 16 is used for exporting heart rate information to communication equipment.In the present embodiment, communication unit 16 can be wire communication unit, wireless communication unit or its combination; Communication equipment can comprise mobile communication equipments such as mobile phone, MP3, MP4 or PDA.Central control unit 13 transfers to communication equipment through communication unit 16 with heart rate information, by communication equipment to heart rate information show, with heart rate information be uploaded to the Internet, with heart rate information be sent to the doctor the E-mail address, heart rate information carried out data analysis handle or other operation.

Further; In present embodiment and embodiment one; Heart rate detection equipment can have self study and self-tuning function, and this self study and self-tuning function are realized by central control unit 13, realize that the software of this function for example can be fired in permanent storage unit 123.Heart rate detection equipment can be proofreaied and correct heart rate information on based on the basis of making comparisons with the standard heart rate information and learn.Particularly; Utilize this self study and self-correcting function; The user can be under the situation of self heart rate stabilization; Utilize accurate heart rate detection instrument to record the standard heart rate information in places such as hospitals, and then utilize the heart rate detection Equipment Inspection of this utility model to go out heart rate information and this heart rate information is stored in the permanent storage unit 123.At this moment; Accurate heart rate detection instrument is connected with central control unit 13 through communication unit 16; Central control unit 13 also can be used for obtaining this standard heart rate information through communication unit 16; And heart rate information is carried out treatment for correcting according to this standard heart rate information, for example, treatment for correcting can be the too high or low excessively value of intensity in the filtering heart rate information.

Further, in present embodiment and embodiment one, this heart rate detection equipment also comprises: the input block 17 that is connected with central control unit 13.Input block 17 is used for instructing to central control unit 13 transmit operations; Central control unit 13 also is used for carrying out according to operational order the operation of this operational order indication.The operational order that input block 17 sends can comprise warning open command or Alerts Off instruction, control alarm unit 15 volumes of backlight open instruction or out code backlight, control alarm unit 15 warning functions of the instruction of heart rate detection facility switching, control display unit 14 backlight functions of control heart rate detection facility switching the instruction of warning volume, control alarm unit 15 vibration strong or weak degree the vibration strong or weak instruction or control the mode of operation switching command etc. of communication unit 16 mode of operations; Wherein mode of operation switching command may command communication unit 16, make communication unit 16 switch to wireless communications mode or wire communication pattern.Input block 17 can be provided with control panel, and the user realizes sending the aforesaid operations instruction to central control unit 13 through this control panel of operation, and wherein, control panel can comprise touch screen or have the panel of some control knobs or knob.Perhaps, input block 17 can also be provided with voice control circuit, and the user can send the aforesaid operations instruction with the voice control mode to central control unit 13 through this voice control circuit.

Especially, in each embodiment of this utility model, when the communication equipment that is connected (through wired and/or wireless mode) with communication unit 16 communications has the control of detection software, can not comprise input block 17 in the heart rate detection equipment of present embodiment.At this moment, the user can realize the control to said heart rate detection equipment through the control of the detection in communication equipment software.Particularly, the user can realize instructing to central control unit 13 transmit operations through the control of the detection in communication equipment software.The realization of above-mentioned detection control software is that those skilled in the art or software programming personnel can easily realize under the prerequisite of not paying creative work.For example, the application software that moves in the at present fashionable IPHONE mobile phone to types of applications.

Among each embodiment of this utility model; Heart rate detection equipment need be worn on the ear when using, so heart rate detection equipment can be cover ear formula heart rate detection equipment, ear-sticking heart rate detection equipment, ear type heart rate detection equipment or antrum auris type heart rate detection equipment.Wherein, The profile of cover ear formula heart rate detection equipment can be identical with the profile of cover aural headphone; The profile of ear-sticking heart rate detection equipment can be identical with the profile of Supra-aural headphone; The profile of ear type heart rate detection equipment can be identical with the profile of PlayGear Stealth, and the profile of antrum auris type heart rate detection equipment can be identical with the profile of ear-canal earphones.Be that example is described with antrum auris type heart rate detection equipment below.Fig. 4 is the application sketch map of this utility model heart rate detection equipment, and Fig. 5 is the structural representation of heart rate checkout equipment among Fig. 4, and like Fig. 4 and shown in Figure 5, this heart rate detection equipment is antrum auris type heart rate detection equipment.Signal pickup assembly is positioned at this heart rate detection device structure foremost, and arithmetic processing apparatus is positioned at the centre position of this heart rate detection device structure, is provided with other structure in the heart rate detection equipment in the remainder.When being worn on this heart rate detection equipment on the ear, signal processing apparatus is positioned at auditory meatus and aims at tympanum, thereby realizes the detection to heart rate information.

The heart rate detection equipment that present embodiment provides comprises signal pickup assembly and arithmetic processing apparatus; Signal pickup assembly is used to gather in ear vibration wave signal; And be the in ear vibration signal of telecommunication with in ear vibration wave conversion of signals, arithmetic processing apparatus is used for that the in ear vibration signal of telecommunication is carried out computing and generates heart rate information.The heart rate detection equipment of present embodiment draws heart rate information through gathering in ear vibration wave signal; Avoided in the prior art owing to sensor to optical signal more weak make heart rate detection equipment can't be accurately and reliable detection go out the problem of heart rate information, thereby make heart rate detection equipment can be accurately and reliable detection go out heart rate information.Heart rate detection equipment in the present embodiment draws heart rate information through gathering in ear vibration wave signal, has therefore avoided " stethoscope effect " and " bone conduction phenomenon " influence to testing process and detected heart rate information accuracy.Heart rate detection equipment in the present embodiment is cover ear formula heart rate detection equipment, ear-sticking heart rate detection equipment, ear type heart rate detection equipment or antrum auris type heart rate detection equipment, and the user is continuable to be worn in ear or edge and can not produce sense of discomfort in one's ear with heart rate detection equipment.This heart rate detection equipment cost is low and simple in structure, and easy maintenance and maintenance price are cheap when breaking down.This heart rate detection equipment is simple to operate, need not medical speciality knowledge in the operating process.

It is understandable that above embodiment only is the illustrative embodiments that adopts for the principle that this utility model is described, yet this utility model is not limited thereto.For the one of ordinary skilled in the art, under the situation of spirit that does not break away from this utility model and essence, can make various modification and improvement, these modification and improvement also are regarded as the protection domain of this utility model.

Claims (10)

1. a heart rate detection equipment is characterized in that, comprising: signal pickup assembly, arithmetic processing apparatus, central control unit and display unit;

Said signal pickup assembly is used to gather in ear vibration wave signal, and is the in ear vibration signal of telecommunication with said in ear vibration wave conversion of signals;

Said arithmetic processing apparatus is used for that the said in ear vibration signal of telecommunication is carried out computing and generates heart rate information;

Said central control unit is used for obtaining said heart rate information from said arithmetic processing apparatus, and exports said heart rate information to display unit;

Said display unit is used for said heart rate information is shown.

2. heart rate detection equipment according to claim 1 is characterized in that, said signal pickup assembly comprises: signal gathering unit and front end signal processing unit;

Said signal gathering unit; Be used to gather the outer vibration wave signal of said in ear vibration wave signal and ear; Said in ear vibration wave conversion of signals is the in ear vibration signal of telecommunication and is that ear vibrates the signal of telecommunication outward with the outer vibration wave conversion of signals of said ear, and the said in ear vibration signal of telecommunication and said ear are vibrated the signal of telecommunication outward export said front end signal processing unit to;

Said front end signal processing unit; Be used for the said in ear vibration signal of telecommunication is carried out filtering and computing processing and amplifying; And vibrate the signal of telecommunication outward according to said ear the said in ear vibration signal of telecommunication is compensated and feedback processing, and will pass through filtering and computing processing and amplifying and vibrate the signal of telecommunication and export said arithmetic processing apparatus to through the said in ear of overcompensation and feedback processing.

3. heart rate detection equipment according to claim 1 and 2 is characterized in that, also comprises the communication unit that is connected with communication equipment with said central control unit, and said central control unit also is used for exporting said heart rate information to said communication unit; Said communication unit is used for exporting said heart rate information to said communication equipment.

4. heart rate detection equipment according to claim 1 and 2; It is characterized in that; Also comprise the alarm unit that is connected with central control unit, said central control unit also is used for generating alarm signal according to said heart rate information, and said alarm signal is sent to said alarm unit; Said alarm unit is used for reporting to the police according to said alarm signal, and said alarm signal comprises acoustical signal, optical signal, vibration signal or its combination in any.

5. heart rate detection equipment according to claim 1 and 2 is characterized in that, central control unit also is used for obtaining the standard heart rate information through communication unit, and according to said standard heart rate information said heart rate information is carried out treatment for correcting.

6. heart rate detection equipment according to claim 1 and 2 is characterized in that, said heart rate information comprises the state value of heart rate value, heart rate and/or the state value of heart beating.

7. heart rate detection equipment according to claim 1 and 2 is characterized in that, signal gathering unit is one or more acoustic-electrical transducer, and the probe orientation of each acoustic-electrical transducer is adjustable in predetermined angular range.

8. heart rate detection equipment according to claim 1 and 2 is characterized in that, said heart rate detection equipment is proofreaied and correct the heart rate information that is generated on based on the basis of making comparisons with the standard heart rate information and learnt.

9. heart rate detection equipment according to claim 1 and 2 is characterized in that, the user can realize the control to said heart rate detection equipment through the control of the detection in communication equipment software.

10. heart rate detection equipment according to claim 1 and 2 is characterized in that, said heart rate detection equipment is cover ear formula heart rate detection equipment, ear-sticking heart rate detection equipment, ear type heart rate detection equipment or antrum auris type heart rate detection equipment.

Images