CN103519805A - Handheld electrocardiograph detection device - Google Patents

Abstract

The invention provides a handheld electrocardiograph detection device which is suitable for multiple handheld operation modes. The handheld electrocardiograph detection device comprises similar-cylinder-shaped shell, a first dry-type electrode and a second dry-type electrode. The shell is provided with an upper end portion, a lower end portion and a surrounding face, wherein the upper end portion and the lower end portion are located at the two ends of the direction of a long shaft respectively. The surrounding face surrounds the long shaft and is connected with the upper end portion and the lower end portion. The first dry-type electrode is located at the upper end portion or the surrounding face or the lower end portion. The second dry-type electrode is located on the surface of the lower end portion. The similar-cylinder-shaped shell, the first dry-type electrode and the second dry-type electrode are constructed together. When a user is in the use mode that one holding hand is utilized for making contact with the first dry-type electrode, and the second dry-type electrode makes contact with the other limb or the surface of the body, the various handheld operation modes are provided for the user to select to achieve the use mode.

Description

Handheld electrocardio detecting device

Technical field

The present invention relates to a kind of Handheld electrocardio detecting device, in particular, the present invention relates to a kind of Handheld electrocardio detecting device that provides multiple hand-held mode to select.

Background technology

Cardiovascular disease universal, makes modern increasing for the attention rate of cardiovascular health, therefore, many coherence check devices that can use at home in response to and give birth to, ECG detection device is exactly wherein one.

Hand-held or Portable ECG detection device are contact electrodes due to what use, that is, dry-type electrode, need not use conductive paste to measure, convenience is high, is therefore quite applicable to house or carries use, also therefore, there is on the market more and more selection.

Due to what adopt, it is contact electrode, therefore how to allow the way of contact more meet ergonomics, more stable, and it is bad to reduce the signal unstable, illogical attitudes is derivative, just become Handheld electrocardio detecting device emphasis in design now, as US7,197,351, US7,149,571, and US2009/0299206 etc. is the discussion in this respect.

In the past, adopt of outward appearance of hand-held, Portable ECG detection device be take square as main design more, therefore, when selecting the setting position of electrode, how can only select to be placed on tetragonal around, and attempt increasing the convenience in use by changing tetragonal shape around, and increasing the stability of contact, this can find out clue by the evolution of above-mentioned reference paper.

In addition, from the content of above-mentioned prior art also, the measuring method of Handheld electrocardio detecting device mainly can be divided into two kinds, one is the mode as Figure 1A, with four fingers, holding fuselage contact is simultaneously arranged at electrode around of square and measures, another is the mode as Figure 1B, mainly with the electrode on forefinger contact square one end face, and grips machine to measure simultaneously.

Two kinds of above-mentioned modes all have its convenience in the use, therefore, it is simultaneous main flow hand-held mode in the market, just, from above-mentioned content also, these two kinds of design forms have certain restriction to hand-held mode of operation, that is, after electrode position and machine shape are fixing, if user wants to adopt different hand-held modes, just may there is the posture situations such as nature, electrode contact be difficult.

When Handheld electrocardio detecting device adopts rectangular shape, the holding mode that grips hands is easily limited to the setting position of electrode, namely, after the position of electrode is fixed, holding mode has also been subject to certain restriction simultaneously, just as Figure 1A and the shown ECG detection device of Figure 1B, if grip the device of Figure 1B to grip the mode of Figure 1A device, may make to grip hands and present factitious angle, or allow and grip hands and interelectrode to contact appearance unstable, vice versa, but, because these two kinds of hand-held modes are current forms of the main employing of Handheld electrocardio detecting device on the market, so, the holding mode that user must be wished in use habit the decision of the i.e. consideration instantly of buying oneself conventionally why, just can not buy the unused problem of rear use back home, but for from original user, this can be puzzlement in a way really.

In addition, by prior art US 7,149,571, US 7,197,351, and the evolution of US 2009/0299206 is known, even if passed through long research and development, the external form of Handheld electrocardio detecting device is still maintained at rectangle, the research of each side all focuses on rectangular shape is changed, though comfort when such variation has improved holding operation really, has also eliminated and may cause the incorrect factor of signal, the relevant narration that allows user can freely change hand-held mode has not yet to see.

So, if a kind of Handheld electrocardio detecting device can be provided, can allow user freely according to the user of self, be accustomed to or change hand-held mode according to different environments for use and restriction, for example, select the mode shown in Figure 1A or Figure 1B, or other meet the mode of individual use habit, believe and will have sizable help to the popularization degree of Handheld electrocardio detecting device and development.

Therefore, if a kind of ECG detection device can be provided, its shape can allow user easily, easily convert different hand-held modes, and the demand when really reacting actual measurement, believes and can bring user sizable convenience.

Summary of the invention

Object of the present invention is to provide a kind of Handheld electrocardio detecting device, and it has shape and the electrode setting position that is simultaneously applicable to multiple hand-held mode, to allow user freely to adopt different hand-held modes according to different self-demands.

The invention provides a kind of Handheld electrocardio detecting device that is applicable to multiple hand-held mode, it comprises and is the columned housing of class, one first dry-type electrode, and one second dry-type electrode, wherein, this housing has a upper part and an end portion that lays respectively at its long axis direction two ends, and around this major axis and connect this upper part and this end portion one around face, this first dry-type electrode is positioned at this upper part, should be around face, or this end portion, and this second dry-type electrode is positioned at the surface of this end portion, and, together with first and second dry-type electrode of such cylindrical shell and this, be constructed to, can utilize a gripping hands to contact this first dry-type electrode and this second dry-type electrode is contacted under the occupation mode of another limbs or body surface at user, the multiple hand-held mode that provides user to reach this occupation mode is selected.

In a preferred embodiment, should further be constructed to have a gripping supplementary structure around face, the multiple hand-held mode of this occupation mode is provided to provide together with such cylindrical shell to be selected, at this, this gripping supplementary structure can be to meet one or more depression or the projection that grips hands, for example, it can be to be applicable to the depression of hand shape and protruding combination, it can be the surface detail that helps hand to grip, projection etc., also can be the special shape that visual effect is provided simultaneously, therefore, there is no certain restriction, so long as can help to grip any structure that hands carries out hand-held, be all the mode that this gripping supplementary structure of the present invention can be implemented.

And conception according to a further aspect of the invention, this gripping supplementary structure also can be embodied as and be arranged at this upper part, now, similarly, this gripping supplementary structure can be embodied as various shapes according to the actual requirements, it can be, for example, depression, projection, curved surface, inclined-plane, plane etc., or any irregular shape, without any restriction, need be only that the structure that can help gripping hands to carry out hand-held is all enforceable mode.

In particular, on the surface of this gripping supplementary structure, also this first dry-type electrode can be further set, with when helping user to carry out holding operation, also reach and grip contacting between hands and the first dry-type electrode.

At this, be noted that the quantity of this gripping supplementary structure and position can change according to actual demand, for example, can upper part or should be around face on all there is gripping supplementary structure, or there are a plurality of gripping supplementary structures etc. at this on around face simultaneously, there is no certain restriction.

In addition, can also be beyond this first dry-type electrode and the second dry-type electrode according to Handheld electrocardio detecting device of the present invention, the electrode that comprises again other, for example, reference electrode, be positioned at equally the surface of this housing, can be this upper part, this end portion and/or should be around face, to carry out electrocardio while detecting, contact grips hands or other limbs or body surface, without any restriction, only need when completing contact, this first electrode and the second electrode also reach contact.

Moreover, according to also comprising a display element on Handheld electrocardio detecting device of the present invention, can be during measuring and/or measure finish after display measurement relevant information, for example, average heart beating, ecg wave form, analysis results etc., and operation-interface, operate for user.

In addition, for the surface of this end portion of this second electrode is set, can change according to demand and to some extent too, for example, can form mild projection, easier etc. to convey the convenience of other partial skins, therefore, same not restriction.

The present invention also provides a kind of Handheld electrocardio detecting device that is applicable to multiple hand-held mode, comprising: a housing, be class cylindric, and comprising: a upper part and an end portion, lay respectively at the two ends of the long axis direction of this housing; And one around face, around this major axis, and connect this upper part and this end portion; One first dry-type electrode; And one second dry-type electrode, be positioned at the surface of this end portion; Wherein, this upper part is constructed to have a gripping supplementary structure, and this first dry-type electrode is arranged at the surface of this gripping supplementary structure; And such cylindrical shell, this first and this second dry-type electrode provide user utilizing a gripping hands to contact this first dry-type electrode and this second dry-type electrode is contacted under the occupation mode of another limbs or body surface together with this gripping supplementary structure, reach the multiple hand-held mode of this occupation mode and select.

Accordingly, the class cylindrical shell that is different from prior art by employing, can be under identical electrode configuration according to Handheld electrocardio detecting device of the present invention, provide user to carry out the different choice of hand-held, can allow user still there will not be factitious posture and unsettled electrode contact according to freely converting the mode of hand-held depending on actual demand, and then allow user can under identical acquisition cost, obtain larger utilization benefit.

Accompanying drawing explanation

Figure 1A ~ 1B: show according to the hand-held of the Handheld electrocardio detecting device of prior art;

Fig. 2 A ~ 2B: show Handheld electrocardio detecting device schematic diagram according to an embodiment of the invention;

Fig. 2 C ~ 2F: show the preferred embodiment according to the present invention, there is the schematic diagram of the Handheld electrocardio detecting device of a gripping supplementary structure in upper part;

Fig. 3 A ~ 3D: show as the multiple hand-held mode that ECG detection device was suitable for of Fig. 2 A～2F;

Fig. 4 A ~ 4C: show as the practical operation schematic diagram of the ECG detection device of Fig. 2 A～2F;

Fig. 5 A ~ 5B: the Handheld electrocardio detecting device schematic diagram that shows one another embodiment according to the present invention;

Fig. 5 C ~ 5E: show the preferred embodiment according to the present invention, there is the schematic diagram of the Handheld electrocardio detecting device of a gripping supplementary structure on around face;

Fig. 6 A ~ 6C: show as the multiple hand-held mode that ECG detection device was suitable for of Fig. 5 A～5E;

Fig. 7 A ~ 7C: show as the practical operation schematic diagram of the ECG detection device of Fig. 5 A～5E;

Fig. 8 A ~ 8C: the possible example that shows the class cylindrical shell of Handheld electrocardio detecting device according to the present invention;

Fig. 9 A ~ 9B: show according to the present invention the Handheld electrocardio detecting device schematic diagram of an embodiment again and again; And

Figure 10: show the schematic diagram that Handheld electrocardio detecting device according to the present invention is connected with another physiology detection apparatus.

Wherein, description of reference numerals is as follows:

20 ECG detection devices

22 upper parts

23 end portions

24 around face

25 first dry-type electrodes

26 second dry-type electrodes

27 depressions

28 depressions

51 first dry-type electrodes

52 second dry-type electrodes

More than 53 depression

54 depressions lower than plane

91 first dry-type electrodes

92 second dry-type electrodes

The specific embodiment

Be different from prior art, according to ECG detection device of the present invention, what housing adopted is class cylindrical shape, this is exactly mainly the restriction of wishing to break away from known rectangle, redefine the shape of the ECG detection device that is more suitable for hand-held ergonomics, the main consideration point that determines shape is, how to reach the ergonomics meeting most while measuring with hand-held, and the hand-held comfort of reaching the best, by mode so, between hands and electrode, naturally also can there is good contacting, and then record more clear good signal.

At this, select the reason of class cylindrical shape to be:

1. compared to needs, grip the rectangular design of action adapting device external form, class cylindrical shape is relatively little for the restriction of hand-held method, simultaneously for example, for the restriction (, the size of hands) that grips hands also relatively little.

2. the near circular-arc surface that class is cylindric provided also can make up while gripping rectangle, hands may and surface of shell between the bad situation of fitting.

Refer to Fig. 2 A ~ 2B, it shows according to the schematic diagram of the ECG detection device of a preferred embodiment of the present invention, as shown in the figure, one ECG detection device 20 has the columned housing of a class, this housing has a upper part 22 and an end portion 23, and connect this upper part and this end portion one around face 24.

At this, the cylindric expression of so-called class, this housing only need approach cylindric, for example, it can be to have the cylindrical shape that partial shape changes, or tangent plane as shown in Figure 8 A connects rotund polygon, or having as D shape tangent plane as shown in Figure 8 B, or as shown in Figure 8 C there is oval tangent plane etc., therefore, the shape of this housing can change to some extent according to design, without any restriction, in addition, this upper part and this end portion scope shared in such cylindrical shell two ends is also unrestricted, can implement situation and variation to some extent according to actual.

Moreover, this ECG detection device also can comprise at least two dry-type electrodes, is arranged at the surface of such cylindrical shell, the use of usining as electrocardiosignal acquisition, wherein, one electrode is to contact for the gripping palmistry with user, and another electrode is for example, for contacting other partial skins except gripping hands,, another limbs, as another hands, foot etc., or body surface, as chest etc.

In embodiment as shown in Figure 2 A and 2 B, two electrodes 25,26 are arranged at respectively on this upper part 22 and this end portion 23, for carrying out electrocardiosignal acquisition, at this, the first dry-type electrode 25 is to grip hands for contact when ECG detection device is held, and the second dry-type electrode 26 is for contacting other position skins except gripping hands, for example, another limbs or body surface.

In addition, as shown in Figure 5A, the setting position of electrode also can this around face 24 on, now, being arranged at around the first dry-type electrode 51 on face is to contact for the gripping palmistry with user, and the second dry-type electrode 52 that is used for contacting another limbs or body surface is to be positioned at end portion 23.At this, at this around the circumference of a circle segment as shown in Figure 5A of the electrode on face, or alternatively, as shown in Figure 5 D, around whole circumference, without any restriction, and, this electrode 51 does not limit around the distribution mode on face 24 in this yet, for example, and except considering the convenience of contact, also can form the pattern with visual effect, for example, form heart-shaped etc., only otherwise the carrying out that impact is measured.

And except above-mentioned electrode setting mode, also can there is other selection, for example, quantity can increase according to need, for example, as with reference to electrode, also can be different as for the position increasing, for example, this upper part, should be around face, and/or this end portion all can arrange plural electrode, Fig. 5 B has shown around the situation that two electrodes are set on face, Fig. 8 C has shown that end portion arranges the situation of two electrodes, or, also can adopt upper part, around face, and end portion is all provided with the mode of electrode, need be only the position that user can conveniently contact with electrode, therefore, without any restriction.

So, by above-mentioned, according to the housing of the Handheld electrocardio detecting device of this case and electrode, configure, with regard to can be to grip on the other hand a wherein electrode and make the occupation mode at another other positions of electrode contact health of housing contact, provide multiple hand-held mode to select.

For example, when two electrodes lay respectively at this upper part and this end portion, user can four finger rings around this around face, and with thumb contact, be positioned at the electrode (as shown in Figure 3A) of this upper part, or also can forefinger or middle abutment be positioned at the electrode of upper part and take advantage of a situation and maintain and help such cylindrical shell (as shown in Figure 3A) with other fingers, in addition, when two electrodes lay respectively at this around face and this end portion (as shown in Fig. 6 A to Fig. 6 B), or when this upper part, should be around face, and this end portion is while being all provided with electrode, two kinds of above-mentioned hand-held modes are all suitable for too.

Due to the design compared to rectangle, when using class cylindrical shell, be preferably, housing can allow and grip hands and hold completely, and diameter do not need too large, also therefore, when adopting different hand-held mode, gripping posture can freely change, and is not restricted, and this is also difference maximum between this case and rectangular design Handheld electrocardio detecting device.

Except such cylindrical shell itself can be with hands, grip a wherein electrode the occupation mode at another other positions of electrode contact health is provided multiple hand-held selects of contact, according to the ECG detection device of this case, also can comprise a gripping supplementary structure, further to help the hand-held of user.

According to this case conception on the one hand, this gripping supplementary structure can be arranged at this upper part 22, and in this case, this effect that grips supplementary structure is to provide the displacement structure that is beneficial to the finger that is placed on this upper part.For example, in preferred embodiment as shown in Figure 2 C, this gripping supplementary structure can be the depression of one on this upper part 27, to provide, meet the concave surface of pointing curve, in addition, in another preferred embodiment as shown in Figure 2 D, this gripping supplementary structure can be the depression 28 of a tool angle on this upper part, so that this depression just in time meets outside the setting position of finger while gripping, also by downward extension, further provide and more meet the angle that finger is placed, or, as shown in Figure 2 E, this gripping supplementary structure also can form the inclined-plane on this upper part, contribute to equally to grip the contact of hands, therefore, this shape that grips supplementary structure does not have special restriction, can change to some extent according to actual design, for example, also can be projection (Fig. 2 F), curved surface, plane, inclined-plane or irregularly shaped etc.

And according to a preferred embodiment of this case, the electrode 25 that grips hands in order to contact can be set on this gripping supplementary structure further, for example, in the situation of Fig. 2 C, electrode 25 can only be arranged in the scope of this depression 27, or extend the scope of this depression 27, or as shown in Fig. 2 D and Fig. 2 E, electrode 25 can be equal to or less than the scope on depression or inclined-plane, or as shown in Figure 2 F, electrode 25 is formed whole upper part, thus, by this, grip the help of supplementary structure, between electrode 25 and finger contact can be more stable, naturally contribute to obtain signal more clearly.

So, the situation of practical operation can be, as shown in Figure 3A, when adopting four finger rings around this mode of operation around face, the gripping supplementary structure and the electrode that are positioned at this upper part just can contact thumb, in addition, as shown in Fig. 3 B and Fig. 3 C, when adopting the five fingers to maintain together such cylindrical mode of operation, this gripping supplementary structure is that the position of placing forefinger or middle finger can be provided just, therefore, no matter adopt which kind of hand-held, user all can naturally grip, and naturally reach finger contact with interelectrode, and no matter end portion contact is body surface, or another limbs, as Fig. 4 A ~ 4C, not nature can not seem in operation.

Moreover according to this case conception on the other hand, this gripping supplementary structure also can be arranged at this around on face 24, and in this case, this effect that grips supplementary structure is to provide to be beneficial to and is placed on this around the displacement structure of the finger on face.For example, this gripping supplementary structure can be to have to meet a plurality of depressions of pointing curved surface, so that the placement location of finger contact should be around face time to be provided, in a specific embodiments, as shown in Fig. 5 C and Fig. 5 D, the plurality of depression 53 can form parallel to each other and vertical with the long axis direction of this housing or be an angle, more clearly to guide the holding operation of user, or as shown in Fig. 5 E, this gripping supplementary structure 54 also can be embodied as lower than this mode around the depression of the plane of face simply, or, also can form depression and the protruding design mutually combining, or the decorative pattern on similar on-slip surface etc., without any restriction.

According in a preferred embodiment of this case, similarly, be positioned at this around the electrode that grips hands in order to contact also can be further set on this gripping supplementary structure of face 24, and by the gripping supplementary structure around meeting ergonomics on face, in the time of can further reducing user finger and be arranged at the electrode contact on whole plane, may feel contact surface deficiency and the situation of Overexertion naturally also to contribute to obtain signal more clearly.

So, the situation of practical operation can be, be no matter adopt four finger rings around this holding mode around face, as shown in Figure 6A, or adopt the five fingers to maintain together such cylindrical mode, as shown in Fig. 6 B and Fig. 6 C, user all can grip easily, and naturally reaches finger and contact with interelectrode, and what no matter contact is body surface or another limbs, as Fig. 7 A ~ 7C, not nature can not seem in operation.

At this, be attentively, the setting of this gripping supplementary structure and electrode does not have absolute relation, can arrange or not arrange electrode on this gripping supplementary structure, and setting position is also can be on demand different and have consideration separately, completely unrestricted.

In addition, although above-mentioned, be to narrate only to there is the embodiment of single gripping supplementary structure on class cylindrical shell, but when reality is implemented, a plurality of embodiment can common implementing, for example, this gripping supplementary structure can be present in this upper part simultaneously and be somebody's turn to do around on face, no matter whether there is electrode to be located thereon, further to stablize the carrying out of hand-held, therefore, the quantity of this gripping supplementary structure and setting position there is no certain restriction, can change according to actual demand.

Moreover, in a special embodiment, as shown in Figure 9 A, the first dry-type electrode 91 and the second dry-type electrode 92 also can be positioned at this end portion simultaneously, because when the electrocardiosignal of the position of measuring is enough strong, for example, during near chest heart, only need the first electrode 91 and 92, the second electrode to have distance just can measure, in this case, the simple medium as gripping of such cylindrical shell, or further, as shown in Figure 9 A, also can form grip supplementary structure on around face or this upper part at this, make gripping more smooth, alternatively, in another embodiment, as shown in Figure 9 B, also can on around face or upper part, other electrodes be set again, as reference electrode, therefore, without any restriction.

In addition, Ye Keru first end section, this second end section is the same, can form the structure that meets ergonomics, and for example, inclined-plane, projection, irregularly shaped etc., further to help to be positioned at contacting between electrode on this second end section and human body.

At this, be with should be noted that, although the above embodiments are to narrate with specific example, but electrode setting position of the present invention is not limited to lifted particular example, so long as adopt the columned housing of class and by electrode be arranged at such cylindrical shell can contact surface on, and make the hands of grip device carry out hand-held electrocardio contact electrode naturally while measuring, and can provide multiple hand-held mode, belong to the scope that the present invention protects, for example, upper around face, lower two parts all can arrange electrode, or two electrodes etc. are set on this upper part, and, above-mentioned electrode setting mode is also not limited to independent use, also can implement simultaneously, for example, can be simultaneously on this, end portion and around electrode is all set on face, in addition, the quantity of electrode also can change to some extent according to actual demand, for example, can set up reference electrode, therefore, completely unrestricted.

Moreover, in particular, in order to provide user more convenient operating of contacts, electrode (the part of using, or all) can further arrange and detect user and contact whether suitable mechanism with interelectrode, for example, can connect a contact sensing element, with the perhaps variation of resistance of faradism, and then learn whether electrode has contacted human body, or can connect a pressure sensing element, whether the strength putting on electrode with sensing user is suitable, or can connect a switch element, to learn that whether user's the application of force is enough etc., accordingly, having more advantage is, further be embodied as, electrocardio detects and can after contact reaches default value, electrocardio detection automatically start, even, can be embodied as by electrode contact opening device.

In addition, except the arranging of electrode, on this ECG detection device, also can there is display element, for example, to show relevant metrical information,, during measuring and/or measure after finishing and show average heart beating, waveform, and measurement, analysis result etc., also can comprise operation-interface, to facilitate user to operate, for example, input related setting, selection operation mode etc.

In addition, according to this ECG detection device of the present invention, also can be embodied as and can be connected to another physiology detection apparatus, as shown in figure 10, at this, the kind of this another physiology detection apparatus take can provide and electrocardiosignal between tool correlation information person as good, for example, but be not limited to, one sphygomanometer, one blood oxygen transducer etc., and when two kinds of physiology detection apparatus combine, just can provide element shared advantage, for example, according to cardiac signal detection device of the present invention, can only there is on and off switch and whether display measurement normally carries out and/or measurement result normal cresset whether, after measuring, the display element of connected this another physiology detection apparatus of recycling shows, also can further calculate, analyze etc., thus, according to cardiac signal detection device of the present invention, even can be embodied as by this size that is more suitable for carrying, or, alternatively, also can be to receive the signal from other physiology detection apparatus according to ECG detection device of the present invention, and carry out the cross-reference between input signal and measured signal itself, to draw further result, therefore, unrestricted on the implementation, can adjust according to actual demand.

In sum, according to Handheld electrocardio detecting device of the present invention, it is by adopting the columned external form of class, and be arranged at class cylindrical shell surface upper put through design electrode, and allow user no longer be limited to specific operation format, can change different hand-held according to user demand difference, and then allow user can under identical acquisition cost, obtain larger utilization benefit, in addition, due to the ECG detection device compared to existing rectangular arrangement, class cylindrical shape according to the present invention more meets the ergonomics of hand-held, therefore, the mode of hand-held can not be limited to the setting position of electrode, also allow user can more naturally carry out measuring operation.

Claims (9)

1. be applicable to a Handheld electrocardio detecting device for multiple hand-held mode, comprise:

One housing, is class cylindric, comprising:

One upper part and an end portion, lay respectively at the two ends of the long axis direction of this housing; And

One around face, around this major axis, and connects this upper part and this end portion;

One first dry-type electrode, is positioned at this upper part, is somebody's turn to do around face or this end portion; And

One second dry-type electrode, is positioned at the surface of this end portion;

Wherein, together with first and second dry-type electrode of such cylindrical shell and this, be constructed to, can utilize a gripping hands to contact this first dry-type electrode and this second dry-type electrode is contacted under the occupation mode of another limbs or body surface at user, the multiple hand-held mode that provides user can reach this occupation mode be selected.

2. device according to claim 1, wherein, should also be constructed to have a gripping supplementary structure around face, the multiple hand-held mode of this occupation mode is provided to provide together with such cylindrical shell and is selected.

3. device according to claim 2, wherein, this first dry-type electrode is positioned at the surface of this gripping supplementary structure.

4. device according to claim 2, wherein, this grips supplementary structure is that this is around at least one depression on face.

5. device according to claim 1, wherein, this device also comprises a reference electrode, this reference electrode be positioned at this upper part, should be around face or this end portion.

6. device according to claim 1, wherein, this device also comprises a display element, with display measurement relevant information.

7. device according to claim 1, wherein, this device is also connected to another physiology detection apparatus, the electrocardiosignal recording is sent to this another physiology detection apparatus, so show, analytic method.

8. be applicable to a Handheld electrocardio detecting device for multiple hand-held mode, comprise:

One housing, is class cylindric, comprising:

One upper part and an end portion, lay respectively at the two ends of the long axis direction of this housing; And

One around face, around this major axis, and connects this upper part and this end portion;

One first dry-type electrode; And

One second dry-type electrode, is positioned at the surface of this end portion;

Wherein, this upper part is constructed to have a gripping supplementary structure, and this first dry-type electrode is arranged at the surface of this gripping supplementary structure; And

Such cylindrical shell, this first and this second dry-type electrode provide user utilizing a gripping hands to contact this first dry-type electrode and this second dry-type electrode is contacted under the occupation mode of another limbs or body surface together with this gripping supplementary structure, reach the multiple hand-held mode of this occupation mode and select.

9. device according to claim 8, wherein, this gripping supplementary structure is a curved surface, an inclined-plane, a plane, depression or a projection.

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