CN203290886U - Wearable human body multiple-physiological-parameter collection device - Google Patents

Abstract

The utility model discloses a wearable human body multiple-physiological-parameter collection device which comprises wearable collection straps and collection clothes. The wearable collection straps comprise a chest strap, shoulder straps, a waist strap and a connecting strap arranged on the front chest portion; the chest strap, the waist strap and the connecting strap respectively comprises an outer layer and a lining, the chest strap and the waist strap are fixedly connected through the connecting strap, and the chest strap is fixedly connected with the shoulder straps. Corresponding electrode buckles are arranged in an interlayer between the outer layer and the lining of the chest strap, an interlayer between the outer layer and the lining of the waist strap and an interlayer between the outer layer and the lining of the connecting strap respectively, electrodes used for collecting ECG signals or respiration signals are correspondingly arranged on the outer surface of the lining of the chest strap, the outer surface of the lining of the waist strap and the outer surface of the lining of the connecting strap, and a first temperature sensor and a second temperature sensor which are used for collecting human body temperature signals are arranged on the outer surface of the lining of the chest strap. The collection clothes comprise a pocket provided with a collection circuit, a sleeve strap used for measurement of blood pressure and provided with an air bag is fixed to the upper arm portion of one sleeve of the collection clothes, and the air bag is connected with a pressure sensor in a blood pressure signal interface circuit in the collection circuit through an air guide pipe.

Description

A kind of wearable human multi-physiological-parameter harvester

Technical field

This utility model relates to a kind of Wearable clothes device for the human Body Physiology Multi-parameter collection, be used to facilitating the long-time dynamically Real-time Collection of human body electrocardio, breathing, body temperature and four physiological parameters of blood pressure, belongs to medical instrument and apparatus field.

Background technology

Along with China's economic society fast development, the huge improvement of living standards of the people and medical and health care cause, fertility rate continues to keep reduced levels, the aging process is progressively accelerated, particularly coastal developed regions, the particularly thorny area of having a large population and a few land, Aging Problem is more outstanding, and people's health perception and health care simultaneously requires also day by day to strengthen, and this makes the importance of community and domestic monitoring also day by day remarkable.Simultaneously, some special applications scene such as enclosed space etc., also make the development of the miniaturization Wearable device that is applicable to the individual also obtain more concern.

At home and abroad in existing research, existing wearable human physiological parameter (multiparameter) harvester mainly contains: the wisdom shirt of georgia ,u.s.a science and engineering (Smart shirt) project, the life shirt (Life shirt) of U.S. VivoMetrics company exploitation, the VTAMN project of France, the T-shirt with sensing function of German Fraunhofer IZM exploitation etc.The structural design of above-mentioned Wearable has common characteristics: embedded sensors in clothing (T-shirt), testing circuit and connection wire.This structural design has following shortcoming in real life: 1. the motion of human body, as turned round, while straightening one's back, thereby inevitably can involve clothing, involving the sensor that is embedded in clothing, is introduced larger motion artifacts.Even the clothing that pull that this structural design is slight are also easily introduced a large amount of motion artifacts, thereby limited the reliable and stable of physiological signal, obtain, signal quality is not good.2. above-mentioned research approach is woven into wire in T-shirt, and due to embedded sensors in T-shirt, testing circuit, for the domestic consumer of not passing through professional training such as old people etc., dress inconvenience, and be not easy to very much the washing of clothes.3. in existing wearable human physiological parameter (multiparameter) harvester, have textile electrode or metal electrode are directly made on clothing, complex structure, for human body skin, has certain zest, and electrode is not easy to safeguard after washing, a series of use problems and the Cost Problems that have caused the inefficacy due to electrode to bring.

At present, common Wearable structure has:

1. belt and braces, disclose a kind of ECG collection device as Chinese patent CN201020276771.0, comprised belt body, staggered form braces etc.This device has 5 electrocardiogram acquisition sheets and breadload to be made by copper or copper alloy or conductive structural material.During use, measure the electrocardiosignal of human body.There is following defect in such device: 1.) can not realize the continuous monitoring of multinomial physiological parameter and textile electrode or metal electrode are directly made on clothing, complex structure, have certain zest for human body skin; 2.) after the washing, electrode is not easy to safeguard, a series of use problems and the Cost Problems that have caused the inefficacy due to electrode to bring; 3.) physiology signal acquisition device and electrode are positioned in same interconnection network, because the ecg signal acquiring circuit has certain weight, the wire in belt body and belt body are formed by involving that gravity produces, and introduce larger interference, affect signal quality.

2. pectoral girdle: disclose a kind of method and system of guarding and recording the life and health parameter as american documentation literature US6454708.This device comprise for the pectoral girdle of dressing, can with the base station of PC interconnection.Electrode, sensor and memory cards are housed on pectoral girdle.During use, the pectoral girdle top electrode contacts with human body skin with sensor, measures vital sign, and as the breath signal of multi-lead or the electrocardiogram that singly leads, chest, human body blood oxygen, shell temperature, human posture etc., these data are stored the memory card record.When pectoral girdle took off, memory card was moved out of, can be at the base station reading out data, and data wherein can be uploaded to PC.On measuring ability, can not realize the continuous monitoring of human blood-pressure signal noinvasive, and can not realize Real-Time Monitoring.

3. clothing: as Chinese patent CN200920089524.7 patent, disclose a kind of wear-type electrocardioelectrodevice device, the electrode on this clothing is connected with external device (ED) by wire, can realize the long term monitoring to electrocardio, heart rate, breathing, body temperature.Chinese patent CN201020106237.5 discloses a kind of detachable wearable electrocardiograph acquisition garment, comprises ten electrocardiogram acquisition sheets, after wearing, can directly carry out the Real-time Collection of ambulatory ecg signal.Chinese patent CN201020503086.7 discloses a kind of wearable blood pressure and ECG collection suit, comprised that blood pressure gathers clothing and Wearable ECG collection device, this device has 5 electrocardiogram acquisition sheets and breadload to be made by copper or copper alloy or conductive structural material.The conducted electricity clothing that comprise many Communication signal wires that american documentation literature US4580572 discloses, can link external electronic device to the clothes node, can with the health skin contact, for the measurement of physiological signal.The knitting information-based clothing that the patent of american documentation literature US6381482 discloses, can process, transmit or receive information, and can, from clothing, optionally connecting or remove element, can also detect physiological signal.The one-body molded woven fabric that american documentation literature US6145551 discloses make without the arm vest, have the function of integrate information.

There is following problem 1. in the disclosed technology of above patent documentation) Chinese patent literature CN200920089524.7, CN201020503086.7 and the disclosed technology of CN201020106237.5 be that textile electrode or metal electrode are directly made on clothing, complex structure, not general on market, do not pass through the authentication of authoritative institution yet, its characteristic has zest to a certain degree for human body skin, and electrode is not easy to safeguard after washing, a series of use problems and the Cost Problems that have caused the inefficacy due to electrode to bring; 2.) wire of ECG Acquisition Device is unfixing well in use for the described structure of Chinese patent CN201020503086.7, connect arrangement of conductors wide and can arbitrarily move, sense of touch is hard, and diagonal back straps forms compressing to neck, and the individual variation of the build of user can be brought certain interference, reduce in daily life the comfortableness of dressing, in the wearing process, have comparatively strong foreign body sensation.Limited the reliable and stable of physiological signal and obtained, signal quality is not good; 3.) the described interior pocket of Chinese patent CN201020503086.7 is positioned on the belt body of ECG Acquisition Device, because ECG Acquisition Device has certain weight, wire in belt body and belt body is formed by involving that gravity produces, introduce larger motion artifacts, affect the quality of acquired signal.And the passage that the conduit of blood pressure harvester is made from inner extends downward the outlet of clothes side, and this has caused certain difficulty to installation; 4.) shortcoming of american documentation literature US6381482 and the disclosed technology of US6145551 is: in above-mentioned textile with monitoring function, do not have portable convenience, and sensor must just have concrete effect in conjunction with large-area fabric.

From above correlational study, can find out, with regard to the research field of wearable human physiological parameter harvester, its key core technology and innovation are mainly reflected in: obtain the design of Wearable structure of human body physiological parameter and the reliability of the physiological signal that obtains.Human body physiological parameter harvester for Wearable, need to pay close attention to the Wearable structure stable for monitored signal, obtain and the facility that the Wearable structure is brought user, comfortable and economy reliably, and present result of study is not taken into account this 2 point well.

The utility model content

The purpose of this utility model is to provide a kind ofly to be had stronger anti motion interference ability, can stablize the wearable human multi-physiological-parameter harvester that obtains human body physiological parameter.

For realizing above-mentioned utility model purpose, technical solution adopted in the utility model is: this utility model is worn formula human Body Physiology Multi-parameter harvester and is comprised Wearable collection band and gather clothing, described Wearable collection band comprises pectoral girdle, shoulder belt, belt and is positioned at the connecting band of shirtfront, described pectoral girdle, belt and connecting band include skin and liner, pectoral girdle is fixedly connected with by described connecting band with belt, and pectoral girdle is fixedly connected with shoulder belt.

in the skin of pectoral girdle and the interlayer between liner, be fixed with the first electrode button, the second electrode button, the third electrode button, the 7th electrode button, the 8th electrode button, outer surface at the liner of pectoral girdle is equipped be used to gathering the first electrode of electrocardiosignal and breath signal, for gathering the second electrode of electrocardiosignal and breath signal, for gathering the third electrode of breath signal, for gathering the first temperature sensor of body temperature signal and be used to gathering the second temperature sensor of body temperature signal, described the first electrode by described the first electrode button be arranged on human body shirtfront left mid-clavicular line first rib between corresponding position, the second electrode by the second electrode button be arranged on human body shirtfront right midclavicular line first rib between corresponding position, third electrode by the third electrode button be arranged on human body back with the left mid-clavicular line first rib between position corresponding to relative scapula, the first temperature sensor by the 7th electrode button be arranged on oxter, human body left side center line first rib between corresponding position, the second temperature sensor by the 8th electrode button be arranged on oxter, human body right side center line first rib between corresponding position, the skin of described connecting band and the interlayer between liner are built-in with the 4th electrode button, the outer surface of the liner of connecting band is equipped be used to gathering the 4th electrode of electrocardiosignal, and described the 4th electrode is arranged on the position corresponding with the left source of breastbone the 4th intercostal by the 4th electrode button, be built-in with at the skin of belt and the interlayer between liner that the 5th electrode is buckled, the 6th electrode is buckled, at the outer surface of the liner of belt, be equipped be used to the 5th electrode that gathers electrocardiosignal be used to gathering the 6th electrode of electrocardiosignal, the 5th electrode is arranged on the position corresponding with left side rib end xiphoid-process level by the 5th electrode button, and the 6th electrode is arranged on the position corresponding with right side rib end xiphoid-process level by the 6th electrode button,

Described collection clothing comprise pocket, described pocket is built-in with Acquisition Circuit, upper arm place at the coat-sleeve of described collection clothing is fixed with the cuff with air bag for Measure blood pressure, air bag in described cuff is communicated with an end of an airway, and the pressure transducer in the blood pressure signal interface circuit in the other end of described airway and described Acquisition Circuit is connected.

Further, this utility model also comprises the fork-shaped braces, and described fork-shaped braces is fixedly connected with pectoral girdle, and the fork-shaped braces is connected with belt.

Further, pocket described in the utility model is positioned at the left side of human body.

Above-mentioned can be through the disposable electrode for ambulatory electrocardiogram (Holter) that authenticates, can be also the textile electrode with superperformance or the metal electrode of developing on the market at present for the electrode that gathers each physiological parameter.

Compared with prior art, the utility model has the advantage of:

1) this utility model device structurally separates Wearable collection band with the collection clothing, realize separating of Acquisition Circuit and Wearable collection band, like this by the cushioning effect of clothes, reduce action of gravity the involving Wearable collection band of Acquisition Circuit, reduce the interference noise that relatively moves and produce of acquisition electrode and human body, realized that the reliable and stable of physiological signal obtains, under the prerequisite that does not limit the user daily life, obtained high-quality physiological signal.The pocket that particularly will place Acquisition Circuit is placed on the lower left quarter that gathers clothing, has further strengthened interference free performance.

2) the Wearable collection band of this utility model device is provided with the breast band, shoulder belt, belt, be positioned at connecting band and the fork-shaped braces of shirtfront, by structural design, reduce the constraint of electrode pair human body, improved the comfortableness of harvester, facilitate the user of different builds to use, and design suitable electrode button by construction design method, this structural design makes and is detachable be used to the electrode that gathers physiological parameter and conducting wire, be used in the electrode type that gathers physiological parameter and comprise at present the disposable electrode for ambulatory electrocardiogram (Holter) through authenticating on the market, have the textile electrode of superperformance or metal electrode etc., can independently be selected by user, the lifting user is experienced.Further, this structural design has facilitated dismounting, the washing of user, reduces user cost, takes into account and obtains signal reliability and comfortable, convenient, the economy of user wearing.

3) this utility model device by electrode buckle draw have certain flexibility and ductile wire is embedded in the interlayer of pectoral girdle, belt and connecting band, and fix with VELCRO or slide fastener, avoided the interference that collection brings to physiological signal that produces due to the traction of wire locus.

4) this utility model device is simple to operate, without accompanying of professional health care personnel, reduces the error that is caused by the user subjective judgment.

Therefore, this utility model is these four physiological parameters of electrocardio, body temperature, breathing and blood pressure be used to gathering human body for a long time, have overcome the defect of prior art, have the characteristics such as comfortable, soft, extensible, improve the acquisition quality of physiological parameter, had stronger anti motion interference ability.

The accompanying drawing explanation

Fig. 1 is the connection diagram of this utility model Wearable collection band;

Fig. 2 is the connection diagram that this utility model gathers clothing;

Fig. 3 is this utility model Wearable collection band and the schematic diagram that gathers clothing connecting interface part;

Fig. 4 is the installation generalized section of electrode, electrode button, conducting wire, wherein,

Fig. 4 a is this utility model the first electrode 5a, the first electrode button 5 and the installation generalized section of conducting wire 5c in pectoral girdle 1;

Fig. 4 b is this utility model the second electrode 6a, the second electrode button 6 and the installation generalized section of conducting wire 6c in pectoral girdle 1;

Fig. 4 c is this utility model the 4th electrode 7a, the 4th electrode button 7 and the installation generalized section of conducting wire 7c in connecting band 4;

Fig. 4 d is this utility model the 5th electrode 8a, the 5th electrode button 8 and the installation generalized section of conducting wire 8c in belt 2;

Fig. 4 e is this utility model the 6th electrode 9a, the 6th electrode button 9 and the installation generalized section of conducting wire 9c in belt 2;

Fig. 4 f is this utility model third electrode 10a, third electrode button 10 and the conducting wire 10c installation generalized section in pectoral girdle 1;

Fig. 5 is the scheme of installation of temperature sensor, electrode button, pectoral girdle 1, wherein,

Fig. 5 a is the scheme of installation of the first temperature sensor 11a, the 7th electrode button 11 and pectoral girdle 1;

Fig. 5 b is the scheme of installation of the second temperature sensor 12a, the 8th electrode button 12 and pectoral girdle 1.

The specific embodiment

Below in conjunction with accompanying drawing and the specific embodiment, this utility model is described in further detail.

This utility model wearable human multi-physiological-parameter harvester comprises Wearable collection band and gathers clothing.Wherein, as shown in Figure 1, Wearable collection band comprises pectoral girdle 1, shoulder belt 3, belt 2 and connecting band 4.Pectoral girdle 1, belt 2 and connecting band 4 include skin and liner, between skin and liner, form an interlayer, thereby have double-decker; Pectoral girdle 1 is fixedly connected with by connecting band 4 with belt 2, and pectoral girdle 1 is fixedly connected with shoulder belt 3.

Pectoral girdle 1, belt 2 and preferred use of connecting band 4 have certain elastic fabric.The material of liner can be cotton and Lycra fabric, does not stimulate human body skin, has certain elasticity.As shown in Figure 1, in the interlayer of pectoral girdle 1, belt 2 and connecting band 4, be furnished with that electrode is buckled and wire.In pectoral girdle 1 and the junction 13,14 of belt 2, can use plastics or metal buckle, VELCRO, snap-fastener etc. that pectoral girdle 1 and belt 2 are fixed together.Shoulder belt 3 is mainly fixed support with the effect of fork-shaped braces 15, and they can be made by elastic webbing.The type of attachment of fork-shaped braces 15 can be that an end is fixedly made on pectoral girdle 1, and the other end is fixed on (as shown in Figure 1) on belt 2 by buckle, clip or VELCRO in 21He junction, junction 22.By this structural design, make the user of different builds all can with the length of belt 2, cosily use and can guarantee good the contacting of electrode and human body by regulating pectoral girdle 1, be conducive to the stable of physiological signal and obtain.This design has overcome the defect of prior art, has improved the acquisition quality of physiological parameter, has stronger anti motion interference ability, and has the characteristics such as comfortable, soft, extensible, allows user in carrying out measuring process, not fetter sense.

referring to Fig. 4 a to 4e, 5a and 5b, between the skin of pectoral girdle 1 and liner, form interlayer, interlayer is built-in with the first electrode button 5, the second electrode button 6, third electrode button 10, the 7th electrode button 11 and the 8th electrode button 12, outer surface (being the one side of liner lagging skin) at the liner of pectoral girdle 1 is equipped be used to gathering the first electrode 5a of electrocardiosignal and breath signal, for gathering the second electrode 6a of electrocardiosignal and breath signal, for gathering the third electrode 10a of breath signal, for gathering the first temperature sensor 11a of body temperature signal and be used to gathering the second temperature sensor 12a of body temperature signal.the first electrode 5a by the first electrode button 5 be arranged on human body shirtfront left mid-clavicular line first rib between corresponding position, the second electrode 6a by the second electrode button 6 be arranged on human body shirtfront right midclavicular line first rib between corresponding position, third electrode 10a by third electrode button 10 be arranged on human body back with the left mid-clavicular line first rib between position corresponding to relative scapula, the first temperature sensor 11a by the 7th electrode button 11 be arranged on oxter, human body left side center line first rib between corresponding position, the second temperature sensor 12a by the 8th electrode button 12 be arranged on oxter, human body right side center line first rib between corresponding position.

Between the skin of connecting band 4 and liner, form interlayer, interlayer is built-in with the 4th electrode button 7, the outer surface of the liner of connecting band 4 is equipped be used to gathering the 4th electrode 7a of electrocardiosignal, and the 4th electrode 7a is arranged on the position corresponding with the left source of breastbone the 4th intercostal by the 4th electrode button 7.

At the interlayer of belt 2, being built-in with the 5th electrode buckles the 8 and the 6th electrode and buckles 9, at the outer surface of the liner of belt 2, be equipped be used to the 5th electrode 8a that gathers electrocardiosignal be used to gathering the 6th electrode 9a of electrocardiosignal, the 5th electrode 8a is arranged on the position corresponding with left side rib end xiphoid-process level by the 5th electrode button 8, and the 6th electrode 9a is arranged on the position corresponding with right side rib end xiphoid-process level by the 6th electrode button 9.In Wearable collection band shown in Figure 1, material for the first electrode button 5 of electrocardio, body temperature and respiration parameter collection, the second electrode button 6, third electrode button 10, the 4th electrode button 7, the 5th electrode button 8, the 6th electrode button 9, the 7th electrode button 11, the 8th electrode button 12 is conductive metallic material, shape can be circular or square usually, and Wearable collection band is provided with the installation of the groove of spill for each electrode near a side of skin.The first electrode button 5, the second electrode button 6, the 4th electrode button 7, the 5th electrode button 8, the 6th electrode button 9 coordinate the first electrode 5a, the second electrode 6a, the 4th electrode 7a, the 5th electrode 8a, the 6th electrode 9a collection for electrocardiosignal correspondingly; The 7th electrode button 11, the 8th electrode button 12 coordinate the first temperature sensor 11a, the second temperature sensor 12a collection for the body temperature signal correspondingly.The collection of breath signal can multiplexing the first electrode 5a and the second electrode 6a as the acquisition electrode of breath signal, gather the variation of human body breast impedance, describe breath signal; Also can multiplexing the 5th electrode 8a and the 6th electrode 9a as the acquisition electrode of breath signal, gather the variation of human body breast impedance, describe breath signal.Further, in also can multiplexing the first electrode 5a, the second electrode 6a one of the collection of breath signal, select in addition the acquisition electrode of the electrode that is positioned at back corresponding with the locational space of the first electrode 5a or the second electrode 6a as breath signal, gather the variation of human body breast impedance, describe breath signal.The advantage of this structure is by fixing electrode button is set, physiological parameter acquisition electrode type can be selected on the market through the disposable electrode for ambulatory electrocardiogram Holter of authentication or textile electrode or the metal electrode with superperformance by user is autonomous, the lifting user is experienced, avoid due to electrode is directly made on device, produces washing afterwards electrode be not easy to safeguard a series of use problems and the Cost Problems that bring due to electrode failure that causes.Further, this structural design facilitates dismounting, the washing of user, reduces user cost, and, in use without the accompanying of professional health care personnel, reduces the error that is caused by the user subjective judgment.The wire of drawing from each electrode button is with function of shielding, and wire itself can be to make in the interlayer of pectoral girdle or belt, can be also that cassette tape by several fixed positions is from drawing the interlayer of pectoral girdle or belt.Each wire finally gathers together at the belt place (as shown in wire set place 20 of Fig. 1), and draws from the outlet unification in the left side of belt.Have certain flexibility and ductile shielded conductor and be embedded in respectively between the interlayer of pectoral girdle 1, belt 2 and connecting band 4, avoided laying because wire is disorderly and unsystematic the caused interference that collection brings to physiological signal, improve the signals collecting quality.

Fig. 4 is the installation generalized section of electrode, electrode button, conducting wire.Wherein, Fig. 4 a is this utility model the first electrode 5a, the first electrode button 5 and the installation generalized section of conducting wire 5c in pectoral girdle 1.It is the one side of liner near skin that the first electrode button 5 is made at the outer surface 5e(of the liner of pectoral girdle 1) upper, the first electrode 5a carries out seamless link by conductive buckle 5b with the first corresponding electrode button 5.Further, the electricity physiological signal that the first electrode button 5 will collect conducts to conducting wire 5c place, finally by wire transmission, arrives Acquisition Circuit.

Fig. 4 b is this utility model the second electrode 6a, the second electrode button 6 and the installation generalized section of conducting wire 6c in pectoral girdle 1.The second electrode button 6 is made on the outer surface 6e of the liner of pectoral girdle 1, and the second electrode 6a carries out seamless link by conductive buckle 6b with the second corresponding electrode button 6.Further, the electricity physiological signal that the second electrode button 6 will collect conducts to conducting wire 6c place, finally by wire transmission, arrives Acquisition Circuit.

Fig. 4 c is this utility model the 4th electrode 7a, the 4th electrode button 7 and the installation generalized section of conducting wire 7c in connecting band 4.The 4th electrode button 7 is made on the outer surface 7e of the liner of connecting band 4, and the 4th electrode 7a carries out seamless link by conductive buckle 7b with the 4th corresponding electrode button 7.Further, the electricity physiological signal that the 4th electrode button 7 will collect conducts to conducting wire 7c place, finally by wire transmission, arrives Acquisition Circuit.

Fig. 4 d is this utility model the 5th electrode 8a, the 5th electrode button 8 and the installation generalized section of conducting wire 8c in belt 2.The 5th electrode button 8 is made on the outer surface 8e of the liner of belt 2, and the 5th electrode 8a carries out seamless link by conductive buckle 8b with the 5th corresponding electrode button 8.Further, the electricity physiological signal that the 5th electrode button 8 will collect conducts to conducting wire 8c place, finally by wire transmission, arrives Acquisition Circuit.

Fig. 4 e is this utility model the 6th electrode 9a, the 6th electrode button 9 and the installation generalized section of conducting wire 9c in belt 2.The 6th electrode button 9 is made on the outer surface 9e of the liner of belt 2, and the 6th electrode 9a carries out seamless link by conductive buckle 9b with the 6th corresponding electrode button 9.Further, the electricity physiological signal that the 6th electrode button 9 will collect conducts to conducting wire 9c place, finally by wire transmission, arrives Acquisition Circuit.

Fig. 4 f is this utility model third electrode 10a, third electrode button 10 and the conducting wire 10c installation generalized section in pectoral girdle 1.Third electrode button 10 is made on the outer surface 10e of the liner of pectoral girdle 1, and third electrode 10a carries out seamless link by conductive buckle 10b with corresponding third electrode button 10.Further, the electricity physiological signal that third electrode button 10 will collect conducts to conducting wire 10c place, finally by wire transmission, arrives Acquisition Circuit.

Fig. 5 is the scheme of installation of temperature sensor, electrode button, pectoral girdle 1.Wherein, Fig. 5 a is the scheme of installation of the first temperature sensor 11a, the 7th electrode button 11 and pectoral girdle 1, the 7th electrode button 11 is made on the outer surface 11c of the liner of pectoral girdle 1, the first temperature sensor 11a carries out seamless link by conductive buckle 11b with the 7th corresponding electrode button 11, realizes the accurate location at temperature survey position.

Fig. 5 b is the scheme of installation of the second temperature sensor 12a, the 8th electrode button 12 and pectoral girdle 1.The 8th electrode button 12 is made on the outer surface 12c of the liner of pectoral girdle 1, and the second temperature sensor 12a carries out seamless link by conductive buckle 12b with the 8th corresponding electrode button 12, realizes the accurate location at temperature survey position.As shown in Figure 4, Figure 5, this utility model is by using conductive buckle and electrode button to make the acquisition electrode of physiological parameter and conducting wire be detachable, user can independently be selected the acquisition electrode type, has facilitated dismounting, the washing of user, reduces user cost.

Gather clothing and mainly comprise pocket 19, pocket 19 preferentially is positioned at the left side of human body, and pocket is built-in with Acquisition Circuit.Upper arm place at the coat-sleeve that gathers clothing is fixed with the cuff 16 with air bag, and the air bag in cuff 16 is communicated with an end of airway, and the pressure transducer in the blood pressure signal interface circuit in the other end of airway and Acquisition Circuit is connected.Shown in Figure 2 is to gather clothing, with the catheter interface on the cuff 16 of air bag, from the conduit outlet of cuff 16, passes and extend downward from the passage 17 that the outer left side oxter midline position that gathers clothing is made the outlet of passage 17.The collection clothing are single layer structure, near the outlet of passage 17, make pocket 19 be used to placing the Acquisition Circuit that gathers human body electrocardio, breathing, body temperature and blood pressure physiological signal.A kind of scheme preferably as shown in Figure 3, has a through hole 18 above this pocket, for the wire that converges of the present utility model, pass, and together with converging wire and blood pressure gathering airway, is connected on the physiological parameter Acquisition Circuit that is contained in pocket 19.Above-mentioned human body electrocardio, body temperature, breathing and blood pressure parameter carry out the second signal conditioning by corresponding modulate circuit respectively again after the interface circuit in Acquisition Circuit carries out preliminary conversion.Wherein, the electrocardiosignal processing module in Acquisition Circuit can adopt highly integrated ASIC special chip, and as the AFE (analog front end) ADS1198 of company of Texas Instrument (TI), it can directly become digital signal by electrocardiosignal by analog signal conversion.Breathing modulate circuit in Acquisition Circuit comprises amplifying circuit and filter circuit, finally by modulus converter A/D, is realized the conversion of analogue signal, digital signal.Blood pressure modulate circuit in Acquisition Circuit comprises amplifying circuit and filter circuit, and selects suitable air pump, air valve, by the microprocessor control module, carries out signal processing further, finally by the low-consumption wireless transceiver module, signal is transferred to remote terminal.Remote terminal can be used to analysis, demonstration and the warning etc. of carrying out physiological parameter.Remote terminal can be handheld terminal, can be also terminal.In this utility model, Acquisition Circuit can be selected the existing human Body Physiology Multi-parameter monitor on the market at present such as the wireless network physiological parameter monitor TE8000Y2 product of Zhejiang good network dimension medical skill company limited.

Use and the parameter collecting method of this utility model human Body Physiology Multi-parameter harvester are as follows:

The user puts on and gathers band and gather clothing, and on the outer surface first electrode button 5 of the liner of pectoral girdle 1, install for gathering the first electrode 5a of electrocardiosignal and breath signal, on the second electrode button 6, install for gathering the second electrode 6a of electrocardiosignal and breath signal, on third electrode button 10, install for gathering the third electrode 10a of breath signal; The 4th electrode 7a that gathers electrocardiosignal is installed on outer surface the 4th electrode button 7 of the liner of connecting band 4; At outer surface the 5th electrode of the liner of belt 2, buckle on 8 and install for gathering the 5th electrode 8a of electrocardiosignal, on the 6th electrode button 9, install for gathering the 6th electrode 9a of electrocardiosignal.Above-mentioned electrode is installed, connected mode has formed five lead systems that gather human ecg signal; The first temperature sensor 11a of gathering the body temperature signal has been installed on the outer surface of the liner of pectoral girdle 1 and be used to gathering the second temperature sensor 12a of body temperature signal, the 7th electrode button 11, the 8th electrode button 12 coordinate the first temperature sensor 11a, the second temperature sensor 12a collection for the body temperature signal correspondingly.The wire of drawing from above-mentioned each electrode button is with function of shielding, wire itself can be to make in the interlayer of pectoral girdle or belt, can be also that cassette tape by several fixed positions is from drawing the interlayer of pectoral girdle or belt, each wire finally gather together at the belt place (as shown in wire set place 20 of Fig. 1), and from the outlet in the left side of belt unify that via through holes 18 is drawn and by mounting interface and the Acquisition Circuit interface that is placed in the pocket 19 that gathers on clothing be connected, the electrocardio, breathing, the body temperature signal that measure are sent to Acquisition Circuit.simultaneously, upper arm place at the coat-sleeve that gathers clothing is fixed with the cuff 16 with air bag, air bag in cuff 16 is communicated with an end of airway, pressure transducer in blood pressure signal interface circuit in the other end of airway and Acquisition Circuit is connected, with the catheter interface on the cuff 16 of air bag, from the conduit outlet of cuff 16, pass and extend downward from the passage 17 that the outer left side oxter midline position that gathers clothing is made the outlet of passage 17, with the pressure sensor interface of Acquisition Circuit in being placed in the pocket 19 that gathers on clothing, be connected, blood pressure signal is sent to Acquisition Circuit.Above-mentioned human body electrocardio, body temperature, breathing and blood pressure parameter transfer to long-range terminal through Acquisition Circuit by signal.This remote terminal can be for analysis, demonstration and the warning etc. of physiological parameter.This remote terminal can be handheld terminal, can be also terminal.

This utility model structurally is divided into two parts by Wearable collection band and collection clothing, the pocket of placing Acquisition Circuit is placed on to the lower left quarter that gathers clothing, realize separating of Acquisition Circuit and Wearable collection band, like this by the cushioning effect of clothes, reduce action of gravity the involving Wearable collection band of Acquisition Circuit, reduce the interference noise that relatively moves and produce of electrode and human body, realized that the reliable and stable of physiological signal obtains, thereby, under the prerequisite that does not limit the user daily life, obtain high-quality physiological signal.Wearable collection band in this utility model device can gather human body electrocardio, body temperature and three physiological parameters of breathing, gathers the blood pressure parameter that clothing can gather human body.In order to facilitate signals collecting, user can according to oneself shape adjustment Wearable collection band size and select suitable electrode type, without just accompanying of professional health care personnel can the Real-time Collection human body electrocardio, body temperature, breathing and four physiological parameters of blood pressure.This structural design makes and is detachable be used to the electrode that gathers physiological parameter and conducting wire, be used in the electrode type that gathers physiological parameter and comprise at present the disposable electrode for ambulatory electrocardiogram (Holter), the textile electrode with superperformance or the metal electrode etc. through authenticating on the market, can independently be selected by user, promote user and experience.Further, this structural design has facilitated dismounting, the washing of user, reduces user cost, takes into account and obtains signal reliability and comfortable, convenient, the economy of user wearing.

This utility model wearable human multi-physiological-parameter harvester can be sent to remote terminal by the low-consumption wireless transceiver module in real time by four physiological parameters of human body electrocardio, body temperature, breathing, blood pressure that detect, thereby realizes long distance monitoring.This utility model has overcome the defect of prior art, by suitable Wearable structural design and the design of electrode buckle structure, improved the acquisition quality of physiological parameter, can reduce the constraint sense of user in carrying out measuring process, have stronger anti motion interference ability and comfortableness.

Claims (3)

1. wearable human multi-physiological-parameter harvester, it is characterized in that: comprise Wearable collection band and gather clothing, described Wearable collection band comprises pectoral girdle (1), shoulder belt (3), belt (2) and is positioned at the connecting band (4) of shirtfront, described pectoral girdle (1), belt (2) and connecting band (4) include skin and liner, pectoral girdle (1) is fixedly connected with by described connecting band (4) with belt (2), and pectoral girdle (1) is fixedly connected with shoulder belt (3);

in the skin of pectoral girdle (1) and the interlayer between liner, be fixed with the first electrode button (5), the second electrode button (6), third electrode button (10), the 7th electrode button (11), the 8th electrode button (12), outer surface at the liner of pectoral girdle (1) is equipped be used to gathering first electrode (5a) of electrocardiosignal and breath signal, for gathering second electrode (6a) of electrocardiosignal and breath signal, for gathering the third electrode (10a) of breath signal, for gathering first temperature sensor (11a) of body temperature signal and be used to gathering second temperature sensor (12a) of body temperature signal, described the first electrode (5a) by described the first electrode button (5) be arranged on human body shirtfront left mid-clavicular line first rib between corresponding position, the second electrode (6a) by the second electrode button (6) be arranged on human body shirtfront right midclavicular line first rib between corresponding position, third electrode (10a) by third electrode button (10) be arranged on human body back with the left mid-clavicular line first rib between position corresponding to relative scapula, the first temperature sensor (11a) by the 7th electrode button (11) be arranged on oxter, human body left side center line first rib between corresponding position, the second temperature sensor (12a) by the 8th electrode button (12) be arranged on oxter, human body right side center line first rib between corresponding position, the skin of described connecting band (4) and the interlayer between liner are built-in with the 4th electrode button (7), the outer surface of the liner of connecting band (4) is equipped be used to gathering the 4th electrode (7a) of electrocardiosignal, and described the 4th electrode (7a) is arranged on the position corresponding with the left source of breastbone the 4th intercostal by the 4th electrode button (7), at the skin of belt (2) and the interlayer between liner, being built-in with the 5th electrode buckles (8), the 6th electrode and buckles (9) and be equipped be used to the 5th electrode (8a) that gathers electrocardiosignal be used to gathering the 6th electrode (9a) of electrocardiosignal at the outer surface of the liner of belt (2), the 5th electrode (8a) is arranged on the position corresponding with left side rib end xiphoid-process level by the 5th electrode button (8), and the 6th electrode (9a) is arranged on the position corresponding with right side rib end xiphoid-process level by the 6th electrode button (9),

Described collection clothing comprise pocket (19), described pocket is built-in with Acquisition Circuit, upper arm place at the coat-sleeve of described collection clothing is fixed with the cuff with air bag (16) for Measure blood pressure, air bag in described cuff (16) is communicated with an end of an airway, and the pressure transducer in the blood pressure signal interface circuit in the other end of described airway and described Acquisition Circuit is connected.

2. wearable human multi-physiological-parameter harvester according to claim 1, it is characterized in that: also comprise fork-shaped braces (15), described fork-shaped braces (15) is fixedly connected with pectoral girdle (1), and fork-shaped braces (15) is connected with belt (2).

3. wearable human multi-physiological-parameter harvester according to claim 1 and 2, it is characterized in that: described pocket is positioned at the left side of human body.

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