CN102397066A - Wearable electrocardiosignal measuring device - Google Patents

Abstract

The invention discloses a wearable electrocardiosignal measuring device. The wearable electrocardiosignal measuring device comprises an electrocardiosignal acquisition unit, a control processing unit and wearable clothing, wherein the electrocardiosignal acquisition unit acquires an electrocardiosignal according to a command of the control processing unit, and sends the acquired electrocardiosignal to the control processing unit; the control processing unit acquires an electrocardio wave signal and a heart rate value based on the electrocardiosignal acquired by the electrocardiosignal acquisition unit; the electrocardiosignal acquisition unit is arranged on the wearable clothing, and comprises electrocardio acquisition electrodes and a shifting device which is used for changing electrocardio acquisition positions; and the electrocardio acquisition electrodes are arranged on the shifting device. When the wearable electrocardiosignal measuring device is used, the electrodes can be adjusted to a better position around a heart to ensure that the electrocardiosignal can be measured more correctly.

Description

Wearable electrocardiosignal measuring device

Technical field

The invention belongs to the armarium technical field, be specifically related to a kind of wearable electrocardiosignal measuring device.

Background technology

Along with the prevalence or the sickness rate of cardiovascular disease are increasingly high, and cardiovascular disease has characteristics such as sudden, instantaneity, and more and more people need be to monitoring with cardiovascular disease associated health data, to be used for prevention and treatment of diseases.Electrocardiosignal is critical data wherein just; Present electrocardiogram signal acquisition device normally directly is bonded at the electrocardiogram acquisition electrode on the patient body and gathers; Adopt this kind connected mode that the patient is done not feel like oneself, and the electrocardiogram acquisition electrode come off easily cause measure inaccurate.For this reason, the technical staff designs a kind of Wearable ECG signals collecting clothing, is provided with on it with the electrocardiogram acquisition of human body shirtfront and puts electrocardiogram acquisition electrode one to one.Adopt this clothing not only to need not again the electrocardiogram acquisition electrode to be pasted on patient body, and can when patient's daily routines, monitor, for the treatment and the prevention of cardiovascular disease provides data its electrocardiosignal.

Yet because the human heart position of all ages and classes, sex, build is different, the electrocardiogram acquisition electrode of fixed position can't correctly be aimed at different patients' electrocardiogram acquisition point.The technical staff regulates the tightness of clothes or clothes is divided into different big or small sizes through the design flexibility structure and makes at present; But still limited to the range of accommodation of the position of electrocardiogram acquisition point like this, and the patient can't learn whether electrocardioelectrode accurately is placed on the best (electrocardiosignal the is the strongest) position around the heart.If placement location is inaccurate, will cause measurement result that deviation is arranged, influence is to the diagnosis of patient's state of an illness.

Summary of the invention

For solving the problems of the technologies described above, the invention provides a kind of wearable electrocardiosignal measuring device, it is provided with movably electrocardiogram acquisition electrode, can be during use with preferable position around electrode regulating to the heart, thus can more accurately measure electrocardiosignal.

For this reason; The invention provides a kind of wearable electrocardiosignal measuring device; It comprises ecg signal acquiring unit, controlled processing unit and wearable clothing; Electrocardiosignal is gathered according to the instruction of said controlled processing unit in wherein said ecg signal acquiring unit, and the electrocardiosignal of being gathered is sent to said controlled processing unit; The electrocardiosignal that said controlled processing unit is gathered based on said electrocardiogram acquisition unit and obtain electrocardio ripple signal and heart rate value; Said ecg signal acquiring unit is arranged on the said wearable clothing; Said ecg signal acquiring unit comprises the shift unit of electrocardiogram acquisition electrode and the said electrocardiogram acquisition of conversion position, and said electrocardiogram acquisition electrode is arranged on the said shift unit.

Wherein, the quantity of said shift unit is three, on each shift unit, is provided with an electrocardiogram acquisition electrode.

Wherein, said three shift units are symmetrically distributed at cardiac position place, the shirtfront of said wearable clothing.

Wherein, the quantity of said shift unit is 1, and said shift unit is provided with three electrocardiogram acquisition electrodes.

Wherein, the said shift unit rail plate that comprises the electrocardiogram acquisition electrode fixing device and supply said fixture to slide.

Wherein, Said electrocardiogram acquisition electrode fixing device comprises base and the trunk portion that links to each other with base; Said base is provided with the electrocardiogram acquisition electrode, and said trunk portion is provided with opposed Elastic buckle, and said rail plate comprises slit and a plurality of groove perpendicular to said slit that extends with guide rail; The width of said groove is corresponding with said Elastic buckle size, and the width of said slit is corresponding with said trunk portion.

Wherein, the shape of said rail plate comprises linear, rectangle, circle, triangle, M shape.

Wherein, said wearable electrocardiosignal measuring device also comprises display unit, and said display unit is based on the indication of said controlled processing unit and show measurement result.

Wherein, said display unit is connected through wired or wireless with said controlled processing unit.

Wherein, said wearable clothing comprise vest, T-shirt or braces.

Wearable electrocardiosignal measuring device provided by the invention has following beneficial effect:

Wearable electrocardiosignal measuring device provided by the invention is because the guide rail that electrocardiogram acquisition electrode movably is set and supplies said electrode to slide; Regulate the position of electrode during use through the slip of electrode on guide rail; Thereby can make electrode be in heart preferable ecg signal acquiring point place on every side, and then can obtain electrocardiosignal more accurately.

Description of drawings

The structural representation of the electrocardiogram acquisition electrode fixing device that Fig. 1 provides for one embodiment of the invention;

The electrocardiogram acquisition cellular construction sketch map that Fig. 2 provides for one embodiment of the invention;

Another structural representation of electrocardiogram acquisition unit that Fig. 3 provides for one embodiment of the invention;

Another structural representation of electrocardiogram acquisition unit that Fig. 4 provides for one embodiment of the invention;

Another structural representation of electrocardiogram acquisition unit that Fig. 5 provides for one embodiment of the invention;

Another structural representation of electrocardiogram acquisition unit that Fig. 6 provides for one embodiment of the invention;

The electrocardiogram acquisition cell distribution sketch map that Fig. 7 provides for one embodiment of the invention;

Another distribution schematic diagram of electrocardiogram acquisition unit that Fig. 8 provides for one embodiment of the invention;

Another distribution schematic diagram of electrocardiogram acquisition unit that Fig. 9 provides for one embodiment of the invention;

The wearable clothing sketch map that Figure 10 provides for one embodiment of the invention;

The schematic diagram of the wearable measuring device that Figure 11 provides for one embodiment of the invention.

The specific embodiment

In order to make those skilled in the art person understand technical scheme of the present invention better, wearable electrocardiosignal measuring device provided by the invention is described in detail below in conjunction with accompanying drawing.

Wearable electrocardiosignal measuring device provided by the invention; Ultimate principle is that movably electrocardiogram acquisition electrode is set on wearable clothing; Make electrode be in heart better position on every side through the position of regulating the electrocardiogram acquisition electrode during use, thereby obtain measurement data more accurately.Wearable electrocardiosignal measuring device provided by the invention comprises wearable clothing, electrocardio-data collection unit and controlled processing unit, at first combines Fig. 1 and Fig. 2 that the shifting principle of electrocardiogram acquisition electrode of the present invention is described below.

Please consult Fig. 1 and Fig. 2 in the lump, the rail plate 6 that the electrocardiogram acquisition unit comprises the electrocardiogram acquisition electrode fixing device and supplies this fixture to slide.Particularly, the electrocardiogram acquisition electrode fixing device comprises base 2, trunk portion 3, top 4 and Elastic buckle 5.Wherein, Electrocardiogram acquisition electrode 1 is arranged on the base 2; Base 2 is connected with top 4 through trunk portion 3, and trunk portion 3 is provided with opposed Elastic buckle 5, can be between between trunk portion 3 and the base 2 or trunk portion 3 and the top 4 to be fixedly connected or to removably connect; And preferably adopt to removably connect, so that the electrocardiogram acquisition electrode fixing device is installed on the rail plate 6.Rail plate 6 comprises chute 7; Be provided with the slit 8 that extends with chute 7 at the middle part of chute 7; Slit 8 can supply the trunk portion 3 of electrocardiogram acquisition electrode fixing device to pass, and is provided with the groove 9 perpendicular to slit in slit 8 both sides, and preferably; The trunk portion 3 of the width of slit 8 and electrocardiogram acquisition electrode adapts, and the Elastic buckle 5 of the width of groove 9 and electrocardiogram acquisition electrode adapts.

As shown in Figure 2, the electrocardiogram acquisition electrode fixing device passes chute 7 intermediary slits 8, electrocardiogram acquisition electrode 1 one sides and contact skin, and top 4 one sides are exposed to wearable clothing outer surface, so that the user operation.Can push Elastic buckle 5 both sides during use; Make its deformation, reducing the size of trunk portion 3, thereby the electrocardiogram acquisition electrode fixing device can be moved in rail plate 6 intermediary chutes 7; When moving to suitable position; Discharge Elastic buckle 5, Elastic buckle 5 is got in the corresponding groove 9, be fixed on the position on the rail plate 6 thereby limit the electrocardiogram acquisition electrode.

Need to prove; In practical application; Rail plate 6 can be processed by insulant, and 1 at electrocardiogram acquisition electrode passes through lead and is electrically connected with controlled processing unit, and lead is arranged in the interlayer of wearable clothing; As long as reserve enough length, the optional position that makes the electrocardiogram acquisition electrode can arrive rail plate 6 gets final product.Certainly, rail plate 6 is also processed by conductive material, at this moment, realizes being electrically connected through rail plate 6 between electrocardiogram acquisition electrode 1 and the controlled processing unit.

What also need explain is that other fixed forms realization electrode location on guide rail such as knob also can be adopted in the location of electrocardio acquisition electrode on rail plate except that the mode that adopts Elastic buckle illustrated in figures 1 and 2 and groove in practical application.

In addition, in practical application, it is linear shown in Figure 2 that the shape of guide rail not only can adopt; Also can adopt Fig. 3 to M shape, triangle, rectangle or circle shown in Figure 6; Certainly also can adopt other shapes, the distortion of M shape guide rail for example shown in Figure 3 promptly has the diverging rail plate of 3,4 or 8 branch roads; And be not 6 branch roads shown in Fig. 3, as long as the electrocardiogram acquisition electrode is freely shifted one's position within the specific limits.

In wearable electrocardiosignal measuring device provided by the invention, preferably dispose 3 rail plates, and the electrocardiogram acquisition electrode all is set on every rail plate at cardiac position place, the shirtfront of wearable clothing.Certainly in practical application; Also a rail plate can only be set on wearable clothing; This moment, the shape of rail plate can adopt triangle, rectangle, circle, diverging or other shapes that is fit to, as long as can cover the ecg signal acquiring point around the heart.It is to be noted; No matter be that a rail plate or 3 rail plates are set; Perhaps the rail plate of other numbers all must dispose 2 electrocardiogram acquisition electrodes at least, when electrocardio acquisition electrode number of variations, can dispose the rail plate of respective numbers as required.In addition; Also configurable other positions of electrocardiogram acquisition electrode and rail plate at wearable clothing; For example not only can dispose removable electrocardiogram acquisition electrode in the cardiac position place, also can dispose removable electrocardiogram acquisition electrode at abdominal part or back place in the shirtfront.

Be that example is explained the distribution mode of guide rail on wearable clothing with the linear rail plate below.As shown in Figure 7, the linear rail plate can be in the distribution triangular in shape of position, wearable clothing shirtfront, that is, three linear sliding rails roughly surround triangle.Perhaps also can be as shown in Figure 8, three parallel distributions of linear sliding rail, wherein the upper end distributes two, and the lower end distributes one.When guide rail was other shapes, its distribution mode can employing and Fig. 7 or the similar mode of Fig. 8, for example when adopting the M shape rail plate, can adopt distribution mode as shown in Figure 9.In addition, in practical application, wearable clothing also can adopt T-shirt shape or X-shaped braces shape shown in Figure 10 except that the vest shape shown in Fig. 7-9, also can adopt other shapes certainly, for example I-shaped braces.

The measuring principle of the wearable electrocardiogram (ECG) data measuring device of the present invention is described below in conjunction with accompanying drawing.Shown in figure 11, the electrocardiogram (ECG) data measuring device comprises electrocardiogram acquisition unit 10, controlled processing unit 11, display unit 12 and PMU 13.Wherein, the electrocardiosignal of electrocardiogram acquisition unit 10 transfers to controlled processing unit 11 through amplification, filtering, AD conversion after conversion is digital signal at last; Controlled processing unit 11 obtains electrocardio ripple signal and heart rate value based on said digital signal, transmits it to display unit 12 then to show measurement result; PMU module 13 provides energy for electrocardiogram acquisition unit 10, controlled processing unit 11 and display unit 12.

Need to prove; In practical application; Controlled processing unit can be arranged near guide rail and the electrocardiogram acquisition electrode; Other positions that also can be arranged on wearable clothing especially when wearable clothing adopt T-shirt shape, can be arranged on sleeve front position place with controlled processing unit, perhaps only display module are arranged on the sleeve front position and sentence and make things convenient for user to check measurement result.

Certainly in practical application, watch measurement result for the convenience of the users, can display unit be separated, and increase wireless sending module, through this module these data are sent to isolating display unit.Particularly, the electrocardiogram (ECG) data measuring device comprises a shell, and shell is provided with action button, is provided with electrocardiogram acquisition unit, controlled processing unit, PMU and wireless sending module in the shell.The electrocardiosignal that the electrocardiogram acquisition unit collects is through amplification, filtering, AD conversion, convert digital signal to after, under the control of controlled processing unit, sample, extract electrocardio ripple signal and heart rate value, and send to display unit through wireless sending module.Display unit can be user can receive mobile phone, PC that transmits or the display unit of making separately etc.More general wireless transmission method has bluetooth, infrared, RF radio frequency transmission etc., wherein is best with the bluetooth.

Wearable electrocardiogram (ECG) data measuring device provided by the invention can make the electrocardiogram acquisition electrode be in heart better position on every side through the position of regulating the electrocardiogram acquisition electrode, that is, the position that electrocardiosignal is stronger, thus measurement data more accurately can be obtained; As for how judging whether the electrocardiogram acquisition electrode is in correct position; User can be through observing the waveform on the display unit in practical application; When showing that baseline steadily, show that then electrode is in better position during waveform greatly and clearly; Otherwise the counter electrode position is adjusted accordingly, until obtain showing baseline steadily, greatly and clearly till the waveform.

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

Claims (10)

1. a wearable electrocardiosignal measuring device is characterized in that, comprises ecg signal acquiring unit, controlled processing unit and wearable clothing, wherein

Electrocardiosignal is gathered according to the instruction of said controlled processing unit in said ecg signal acquiring unit, and the electrocardiosignal of being gathered is sent to said controlled processing unit;

The electrocardiosignal that said controlled processing unit is gathered based on said electrocardiogram acquisition unit and obtain electrocardio ripple signal and heart rate value;

Said ecg signal acquiring unit is arranged on the said wearable clothing;

Said ecg signal acquiring unit comprises the shift unit of electrocardiogram acquisition electrode and the said electrocardiogram acquisition of conversion position, and said electrocardiogram acquisition electrode is arranged on the said shift unit.

2. wearable electrocardiosignal measuring device as claimed in claim 1 is characterized in that the quantity of said shift unit is three, on each shift unit, is provided with an electrocardiogram acquisition electrode.

3. wearable electrocardiosignal measuring device as claimed in claim 2 is characterized in that, said three shift units are symmetrically distributed at cardiac position place, the shirtfront of said wearable clothing.

4. wearable electrocardiosignal measuring device as claimed in claim 1 is characterized in that the quantity of said shift unit is 1, and institute's shift unit is provided with three electrocardiogram acquisition electrodes.

5. like any described wearable electrocardiosignal measuring device of claim 1-4, it is characterized in that the rail plate that said shift unit comprises the electrocardiogram acquisition electrode fixing device and supplies said fixture to slide.

6. wearable electrocardiosignal measuring device as claimed in claim 5; It is characterized in that; Said electrocardiogram acquisition electrode fixing device comprises base and the trunk portion that links to each other with base; Said base is provided with the electrocardiogram acquisition electrode, and said trunk portion is provided with opposed Elastic buckle, and said rail plate comprises slit and a plurality of groove perpendicular to said slit that extends with guide rail; The width of said groove is corresponding with said Elastic buckle size, and the width of said slit is corresponding with said trunk portion.

7. like claim 5 a described wearable electrocardiosignal measuring device, it is characterized in that the shape of said rail plate comprises linear, rectangle, circle, triangle, M shape.

8. wearable electrocardiosignal measuring device as claimed in claim 1 is characterized in that, also comprises display unit, and said display unit is based on the indication of said controlled processing unit and show measurement result.

9. wearable electrocardiosignal measuring device as claimed in claim 8 is characterized in that said display unit is connected through wired or wireless with said controlled processing unit.

10. wearable electrocardiosignal measuring device as claimed in claim 1 is characterized in that said wearable clothing comprise vest, T-shirt or braces.

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