CN2785540Y

CN2785540Y - Handheld physiological signal measurement and wireless transmission/reception device

Info

Publication number: CN2785540Y
Application number: CN 200520011841
Authority: CN
Inventors: 周常安
Original assignee: Individual
Current assignee: Individual
Priority date: 2005-04-21
Filing date: 2005-04-21
Publication date: 2006-06-07
Anticipated expiration: 2015-04-21

Abstract

A hand-held physiological signal measuring and wireless transmitting/receiving device comprises a shell, a plurality of electrodes for obtaining a first physiological signal from a user, a front-end circuit positioned in the shell and connected to the electrodes for receiving the first physiological signal, an analog/digital conversion circuit connected to the front-end circuit for converting the first physiological signal into a first digital signal, a wireless transceiving interface for wirelessly receiving a second digital signal representing a second physiological signal from a second physiological signal measuring device and wirelessly transmitting the subsequent signals out of the shell, a processing unit connected to the analog/digital conversion circuit and the transceiver for receiving the first digital signal and the second digital signal to process the two signals, and a display unit for displaying information related to the measurement, wherein the device is also capable of two-way communication with a remote device.

Description

Hand-held physiological signal measurements and wireless transmission/receiving system

Technical field

This utility model relates to and a kind ofly is used to measure and the hand-held device of wireless transmission/reception physiological signal, more relates to a kind ofly can integrating two or more physiological signals, and the hand-held device that can wirelessly carry out two-way physiological signal communication simultaneously.

Background technology

For suffering from cardiovascular disease, especially cardiopathic patient, if can write down or monitor the situation of cardiomotility at any time, then not only patient itself can comparatively feel at ease, for the doctor no small benefiting arranged also aspect the diagnosis, because whether the doctor can be felt unusual uncertainty to replace oral in the past inquiry patient, and then be understood the development of the state of an illness really by the situation that writes down between twice prescription on individual diagnosis of interpretation.

And Electrocardioscopy promptly is one of cardiac work up method that is widely used in clinical Noninvasive, because that it has is quantitative, accurate, easy, quick, reliably reach the economic dispatch advantage, so have consequence in the heart disease inspection.

But, general employed cardiographic detector device, but can on volume, allow user step back, because for user, employed cardiographic detector device in the similar hospital, no matter on volume, price or convenience, all allow the idea of user record or monitoring at any time after leaving hospital be not easy to realize.

And, the patient who does not understand own cardiovascular aspect problem is also usually arranged, once felt chest pain and palpitated from nervousness, but, when waiting until real health risk, just feel late because dislike trouble and ignore and ignore, regret having done sth., say that again the chest pain and the normal of short duration symptom that is of palpitating from nervousness are in the time of might going to see a doctor, situation settles out, and can't check out and therefore, conveniently obtain if can utilize unusually, volume is small and exquisite, easy to operate gauge, then user heart beating occurring when unusual, promptly can detect voluntarily easily, find early, and reduce the harm of cardiovascular disease.

Therefore, portable cardiographic detector device has appearred on the market, in the hope of solving the above problems, as shown in Figure 1, it is to utilize contacting of two handss and machine top electrode, forms the electric current of point-to-point transmission conducting, and then carries out the detection of electrocardiosignal, but seem in the measurement very easily at this, but still exist shortcoming.

Because, clearly, its this only be that single electrocardiosignal is measured, and if user when having the measurement of multinomial physiological signal to need simultaneously, for example, when when measuring the electrocardio value of reading, also needing to measure E.E.G or electromyographic signal simultaneously, then will produce puzzlement, for example, usually need to measure the patient of E.E.G, can be accompanied by the measurement of electrocardiosignal, at this moment, this shown common technology of Fig. 1 practicality deficiency that will seem.

Add, it is a connected mode by wired with being connected of devices such as computer in the use, and is quite limited in the use, and, on transfer of data, also only be unidirectional transmission, therefore, it is complete inadequately also to seem on function.

The utility model content

Therefore, a purpose of the present utility model promptly is to provide a kind of can integrate different physiological signals but the still small and exquisite hand-held physiological signal measuring apparatus of volume simultaneously, to allow user can record some important physical signals easily, also therefore can real-time understanding be arranged to health and the physiological situation of self.

Another purpose of the present utility model is to provide a kind of hand-held physiological signal measuring apparatus that the wireless two-way communication interface can be provided, with help and other physiological signal measuring apparatus between communication, and and remote-control device between communication.

This utility model provides a kind of hand-held physiological signal measurements and wireless transmission/receiving system, and it comprises a housing; A plurality of electrodes are connected in the surface of this housing, being used to contact the skin surface of a user, and then obtain one first physiological signal from this user; One front end circuit is positioned at this enclosure interior, and is connected to those electrodes, to receive this first physiological signal; One A/D conversion circuit is positioned at this enclosure interior, and is connected to this front end circuit, so that this first physiological signal is transformed into one first digital signal; One wireless receiving and dispatching interface is positioned at this enclosure interior, being used for wirelessly receiving one second digital signal from representative one second physiological signal of one second physiological signal measuring apparatus, and with follow-up signal wireless transfer out this housing; One processing unit, the position and is connected to this A/D conversion circuit and this transceiver in this enclosure interior, and receiving this first digital signal and this second digital signal, and then both carry out a required processing to this; An and display unit, the position is on the surface of this housing, and be connected to this processing unit, be relevant to the information of measurement with demonstration, and wherein, this device can and carry out two-way communication by this wireless receiving and dispatching interface between this second physiological signal measuring apparatus, and and a remote-control device between carry out two-way communication.

According to this above-mentioned device, it can carry out two way communication with other physiological signal measuring apparatus by wireless mode, also can utilize this wireless receiving and dispatching interface and carry out two-way communication with back-end device, not only can reach the purpose of integrating multinomial physiological signal easily, also can clog-freely link up owing to this wireless communication mode, it is light and handy to add this utility model, easy design, make things convenient for user to be carried at one's side, and make that can meet user fully according to this device of the present utility model wishes light and handy when using relevant apparatus, the ideal of not having loaded down with trivial details circuit.

According to a preferred embodiment of the present utility model, this hand-held physiological signal measurements and wireless transmission/receiving system can be embodied as a hand-held ECG detection device.

According to another embodiment of the present utility model, those electrodes can form the surface that is attached at this housing again, and/or are connected to this housing with lead, and/or can be extended and be pulled away from this surface of shell, to increase the scope of application of user.

Moreover, this processing unit can have a computing and analysis module, to carry out computing and analysis at those digital signals, thereby draw the analytical data of the physiological phenomenon of relevant those physiological signal representatives, but, this computing and analytic function can be carried out by this remote-control device, and be not limited.

In addition, also can comprise some function buttons on this housing, to be user-friendly for operation, and this front end circuit more can comprise an amplifier circuit, with be used for amplifying respectively this first and this second physiological signal, and a wave filter, to be used for filtering first and second physiological signal that this has amplified respectively.

Moreover, about communication interface of the present utility model aspect, this wireless receiving and dispatching interface can be 802.11a, 802.11b, 802.11g, infrared ray, bluetooth, RF radio frequency, PHS, GSM or any wireless communication protocol, certainly, outside this wireless receiving and dispatching interface, also can comprise a wired transmitting-receiving interface, outside this wireless receiving and dispatching interface, to provide another kind of transmission means.

This remote-control device then can be a personal computer, laptop computer, PDA or anyly can carry out computing and/or storage and/or device shown.

In addition, more can comprise a clock-pulse circuit according to this device of the present utility model, be positioned at this enclosure interior, with the demonstration time on this display unit, an and storage element, to be used to store information measured and/or that received, this storage element then is can be by an extraction mode on being additional to.

Description of drawings

Fig. 1: be the sketch map that has shown according to the portable type ECG detection device of prior art;

Fig. 2: be to have shown in order to realize a circuit block diagram according to a preferred embodiment of hand-held physiological signal measurements of the present utility model and wireless transmission/receiving system;

Fig. 3: be one first preferred embodiment that has shown according to hand-held physiological signal measurements of the present utility model and wireless transmission/receiving system;

Fig. 4 A: be an embodiment who has shown according to the electrode configuration of hand-held physiological signal measurements of the present utility model and wireless transmission/receiving system;

Fig. 4 B: be another embodiment that has shown according to the electrode configuration of hand-held physiological signal measurements of the present utility model and wireless transmission/receiving system;

Fig. 5: be one second preferred embodiment that has shown according to wearable physiological signal measurement of the present utility model and wireless transmission/receiving system; And

Fig. 6: be to have shown the concrete enforcement sketch map of this device among Fig. 3 with other physiological measurement mechanism.

Wherein, description of reference numerals is as follows:

201 processing units

202 analog-digital converters

203 front end circuits

204 electrodes

205 wireless receiving and dispatching interfaces

206 display devices

207 storage elements

200,300,400,500,600 hand-held physiological signal measurements and wireless transmission/receiving systems

401,4011,4012,402,403 electrodes

601,602 physiological signal measuring apparatus

The specific embodiment

See also Fig. 2, be to show in order to realizing the circuit block diagram according to a preferred embodiment of hand-held physiological signal measurements of the present utility model and wireless transmission/receiving system, it is to utilize the mode of block chart to describe tandem circuit planning according to physiological signal measurements of the present utility model and wireless transmission/receiving system.

As shown in the figure, mainly comprise according to hand-held physiological signal measurements of the present utility model and wireless transmission/receiving system 200: a processing unit 201, one A/D conversion circuit 202, one front end circuit 203, a plurality of electrodes 204, one wireless receiving and dispatching interface 205, an and display unit 206, wherein, a plurality of electrodes 204 are to utilize the mode of contact and carry out the detection of the physiological signal of this user on the skin surface of user, and, because these a plurality of electrodes 204 can be connected to this front end circuit 203, therefore, this front end circuit 203 is this physiological signal that those electrodes of fechtable are received, and it is carried out a pre-process, then, the physiological signal that is received promptly can enter this A/D conversion circuit 202, so that the simulation physiological signal that is received is transformed into a digital physiological signal, and then help follow-up signal processing and further the transmission, successively, this numeral physiological signal enters this processing unit 201 immediately, and among this processing unit 201, this numeral physiological signal then is the relevant treatment that can further help to understand physiological signal, for example, and computing, analyze etc., wherein, the function of this computing and analysis can be reached by set up a computing and analysis circuit (not shown) in this processing unit 201, or this processing unit 201 itself promptly has this computing and analytic function.

In addition, this processing unit 201 also can be connected to this display unit 206 and this wireless receiving and dispatching interface 205, wherein, this display unit 206 is in order to show the treated information that is presented afterwards of this physiological signal, when using, understand the whole operation situation to make things convenient for user, with read relevant information, and 205 this wireless receiving and dispatching interfaces are this digital signals that sends after treatment.

In addition, this transmitting-receiving interface 205 according to this hand-held physiological signal measurements of the present utility model and wireless transmission/receiving system also has the function that receives by the other other digital physiological signal that physiological signal measuring apparatus sent from extraneous, and, after receiving this numeral physiological signal, also can carry out and measured identical handling procedure of physiological signal itself this other digital signal that has received, thereby the multiple physiological signal that makes same user need to measure together all can be handled by single processing/receiving system and be shown easily, or the information between the different device can exchange easily, to make things convenient for the operation of user.

At this, be noted that, this other physiological signal measuring apparatus can be employed any other the physiological signal measuring apparatus of this user, only need and have identical wireless transmission interface according to this device of the present utility model and get final product, so, not only can measure the measured major physiological signal of skin that contacts from those electrodes according to device of the present utility model, also can receive physiological signal from the physiological signal measuring apparatus of another tool identical traffic interface, therefore, for user, the integration of the physiological signal that all are required is promptly reached easily.

In addition, according to this hand-held physiological signal measurements of the present utility model and wireless transmission/receiving system 200, also can comprise a storage element 207 (being represented by dotted lines) that is connected to this processing unit 201, to be used to store various physiological signals measured and/or that received, thereby can allow user according to itself demand earlier with the measured and data storage that received in wherein, or else termly data is transferred to other storage device by this transceiver, be beneficial to permanent storage, or carry out more complicated data analysis, perhaps, this storage element 207 can be reached by an extraction mode, thus, only need that this storage element 207 is detached this device 200 and promptly can read wherein data content by other device, not only convenience is pure, has more increased the extendibility of this device 200.

In addition, this front end circuit 203 also can comprise an amplifier circuit and a filter circuit (not shown), so that this physiological signal that this electrode was received is amplified respectively and filtering, and because for haveing the knack of the those of ordinary skill of this technology, this is known content, therefore promptly repeats no more at this.

Then, see also Fig. 3 to Fig. 5, it has shown two preferred embodiments according to hand-held physiological signal measurements of the present utility model and wireless transmission/receiving system for example, what this will particularly point out be, though this utility model is with the embodiment in scheming as an illustration, this utility model is not limited to shown in the figure, for those skilled in the art, so long as meet the possible embodiment of the institute of principle of the present utility model, all belong to category of the present utility model.

At first, as shown in Figure 3, this hand-held physiological signal measurements of the present utility model and wireless transmission/receiving system 300 can be embodied as, provide user hand-held and therefore contact on one side, and another side is in order to the mode at another position of contact user, in this case, the position is set is positioned at the hand-held position of this user and should be of those a plurality of electrodes in order to the position contacting place, so design then is the enforcement that can make things convenient for user, also no longer be subject to the way of contact of prior art as shown in Figure 1, and, when measurement effect is bad, can also there be other contact to select, more increases its multiformity.

And this embodiment as shown in Figure 3, then be to have further to change, shown in Fig. 4 A and Fig. 4 B, wherein, according to this hand-held physiological signal measurements of the present utility model and wireless transmission/receiving system 400 except being arranged on

electrode

401 and 403 on the housing, more can there be other electrode to change, for example, shown in Fig. 4 A, more can be outside original electrode supplemantary electrode 402 in addition, thereby increase the quantity of electrode, be beneficial to further detect, perhaps, shown in Fig. 4 B, original electrode 401 also can be set to break away from the

electrode

4011 and 4012 of this surface of shell, that is, those electrodes can be drawn out from this housing whenever necessary, to be convenient to those electrodes and user contact between skin surfaces, and under the situation by so design, more broad according to this device of the present utility model range of application that not only becomes, it is operated also to become and more meets the user demand.

Certainly, also can have external form according to this hand-held physiological signal measurements of the present utility model and wireless transmission/receiving system as the prior art of Fig. 1, as shown in Figure 5, but since by the distinctive wireless transmission interface of this utility model with the feature of can other physiological signal measuring apparatus carrying out two way communication, application of the present utility model will be more broad, and can overcome the shortcoming of prior art.

Please consult Fig. 6 again, it is to have shown the sketch map that communicates according to this hand-held physiological signal measurements of the present utility model and wireless transmission/receiving system 600 and other device.As shown in the figure, according to this device of the present utility model, for example, ECG detection device 600, can foregoingly (and be not limited as a kind of device from other device, be shown as an EEG checking device 601 and a checking with EMG method device 602 among the figure), and receive other physiological signal by corresponding wireless transmission interface, for example, EEG signals, electromyographic signal, respiratory frequency, blood oxygen concentration etc., and carry out relevant processing simultaneously with the measured physiological signal of this device itself, then, after measurement is finished, or accumulate after a certain amount of measurement data, according to this device of the present utility model just can utilize this same wireless transmission interface and with a remote-control device, for example, personal computer, laptop computer, PDA, or anyly can carry out computing and/or storage and/or device shown, carry out the transmission of data, therefore, relevant physiological signal information just can be transferred to this remote-control device and concentrate storage, help long physiologic signal monitoring, and, also can carry out further computing, handle etc.

Perhaps, if do not have at this remote-control device under the situation of corresponding wireless transmission interface, then can transmit, or also can utilize removable mnemon to carry out the transmission of data by the wireline interface that this utility model comprises in addition.

At this, be with paying special attention to, according to this device of the present utility model with no matter be other physiological signal measuring apparatus or remote-control device between communicate by letter, all be two-way, promptly, be not only unidirectional reception or transmission, but have transmission simultaneously and receive two kinds of functions, therefore, on this aspect, this utility model has been broken through the common technology that limited by circuit, has further improved its shortcoming.

Moreover, according to the coffret between this device of the present utility model and other physiological signal measuring apparatus and/or the remote-control device, then be to utilize any wireless transmission means, for example, 802.11a, 802.11b, 802.11g, infrared ray, bluetooth, RF radio frequency, PHS, GSM or any wireless communication protocol, and reached, not limited.

In sum, according to this hand-held physiological signal measurements and wireless transmission/receiving system of the present utility model, it not only has light and handy design, light hand-held, more can communicate with other physiological signal device by wireless coffret easily, and then make the integration of multiple physiological signal to reach easily, improved the narrow shortcoming of conventional design range of application widely, also simplified the complexity when measuring a plurality of physiological signal simultaneously, and, because design of the present utility model is when device itself is measured, still can integrate and show other physiological signal, thereby make the integration of many physiological signals seem more easy, and add also and can carry out two-way communication equally with remote-control device again by this wireless transmission interface, more increased extendibility of the present utility model.

The application can make various modifications by the personage who knows this technology, so all within protection domain of the present utility model.

Claims

1. A handheld physiological signal measurement and wireless transmission/reception device, characterized in that it comprises:

a shell,

a plurality of electrodes, connected to the surface of the housing, contacting the user's skin surface, to obtain a first physiological signal from the user;

a pre-circuit, located inside the casing, connected to the electrodes, to receive the first physiological signal;

An analog/digital conversion circuit, located inside the housing and connected to the front circuit, the analog/digital conversion circuit converts the first physiological signal into a first digital signal;

a wireless transceiver interface located inside the casing, the wireless transceiver interface wirelessly receives a second digital signal representing a second physiological signal from a second physiological signal measuring device, and wirelessly transmits the subsequent signal out of the housing; whereby two-way communication is performed between the device and the second physiological signal measuring device or with a remote device;

A processing unit is located inside the casing and is connected to the analog/digital conversion circuit and the transceiver, the processing unit receives the first digital signal and the second digital signal, and then performs a required processing on both processing; and

A display unit is located on the surface of the housing and connected to the processing unit, the display unit displays information related to the measurements.

2. The device according to claim 1, wherein the electrodes are formed to be attached to the surface of the casing, and/or connected to the casing with wires, and/or extend away from the surface of the casing .

3. The device according to claim 1, characterized in that, the processing unit has an operation and analysis module, the operation and analysis module performs operations and analysis on the digital signals to obtain information about the physiological signals represented Analytical data of physiological phenomena.

4. The device according to claim 1, wherein the remote device has a calculation and analysis module, and the calculation and analysis module performs calculation and analysis on the digital signals received from the device, so as to obtain information about the The analysis data of physiological phenomena represented by these physiological signals.

5. The device according to claim 1, characterized in that, the housing further includes some function keys.

6. The device of claim 1, further comprising a clock circuit located inside the casing.

7. The device according to claim 1, wherein the pre-circuit further comprises:

an amplifier circuit, respectively amplifying the first and the second physiological signal; and

A filter for filtering the amplified first and second physiological signals respectively.

8. The device according to claim 1, wherein the wireless transceiver interface is 802.11a, 802.11b, 802.11g, infrared, Bluetooth, RF, PHS, GSM or any wireless communication protocol.

9. The device according to claim 1, wherein the remote device is a personal computer, laptop computer, PDA, or any device capable of computing and/or storing and/or displaying.

10. The device according to claim 1, further comprising a wired transceiver interface.

11. The device according to claim 1, further comprising a storage unit for storing the measured and/or received information.

12. The device according to claim 11, wherein the storage unit is a removable storage unit.

13. The device according to claim 1, characterized in that the device is a hand-held ECG detection device.