CN205885425U - Wearable electrocardio monitoring facilities - Google Patents

Abstract

The utility model relates to a wearable electrocardio monitoring facilities, include: can twine the first braces at the neck, a plurality of electrodes that lead, set up in the position that first braces detected corresponding to the surperficial electrocardiosignal of human body, the detector, set up in on the first braces, and with a plurality of the electrode that leads is connected, is used for from a plurality of user's the physiology signal of telecommunication is received to the electrode that leads, with right the user carries out the electrocardio monitoring. The utility model discloses a wearable electrocardio monitoring facilities portable, convenient to use is favorable to in time detecting user's electrocardiogram data.

Description

Wearable cardioelectric monitor equipment

Technical field

This utility model is related to medical instruments field, more particularly, to a kind of wearable cardioelectric monitor equipment.

Background technology

Cardioelectric monitor passes through to detect that cardiac electrical activity changes in the potential difference (leading) of the specific point-to-point transmission of body surface, comes The working condition of reflection heart.Discovery and treatment for cardiovascular disease have very important effect.At present, patient is usual Carry out cardioelectric monitor in medical institutions, clap electrocardiogram for example with electrocardiograph, or monitoring 24 hr Ambulatory EKG Monitoring etc..

But the equipment such as current electrocardiograph, cost is expensive, and exists and carry inconvenience, and Monitoring Data shows not in time The shortcomings of.

Utility model content

Technical problem

In view of this, the technical problems to be solved in the utility model is to provide a kind of portable, wearable electrocardio prison Measurement equipment.

Solution

In order to solve above-mentioned technical problem, according to an embodiment of the present utility model, there is provided a kind of wearable electrocardio Monitoring device, comprising:

The first braces of cervical region can be wrapped in；

Multiple crosslinking electrodes, are arranged at the position that described first braces corresponds to human body surface ECG signal sampling；

Detector, is arranged on described first braces, and is connected with multiple described crosslinking electrodes, for described leading from multiple Connection electrode receives the electro-physiological signals of user, to carry out cardioelectric monitor to described user.

For the said equipment, in a kind of possible implementation, described first braces includes wound section and suspension part Point；

Multiple described crosslinking electrodes include:

First electrode, the wound section being arranged at described first braces corresponds to the position of rear cervical region；

Second electrode and the 3rd electrode, are arranged at the wound section of described first braces and are located at described first electrode respectively Both sides；

4th electrode, the suspended portion being arranged at described first braces corresponds to the position of ensiform process of sternum.

For the said equipment, in a kind of possible implementation, described 4th electrode and described detector may be contained within The suspended portion of described first braces corresponds to the position of ensiform process of sternum, and described 4th electrode is arranged at described detector On shell.

For the said equipment, in a kind of possible implementation, also include: chest and/or abdominal part can be wrapped in Second braces, described second braces is connected by adapter with described detector.

For the said equipment, in a kind of possible implementation, multiple described crosslinking electrodes also include: be arranged at described The 5th electrode on second braces, the 6th electrode, the 7th electrode and the 8th electrode；

Described 5th electrode is arranged at described second braces and corresponds to the position on the left of breastbone；

Described 6th electrode is arranged at the position that described second braces corresponds to left midaxillary line；

Described 7th electrode is arranged at the position that described second braces corresponds to right midaxillary line；

Described 8th electrode is arranged at the position that described second braces corresponds to the retrosternal apex of the heart.

For the said equipment, in a kind of possible implementation, described detector and described 5th electrode, the described 6th Electrode, described 7th electrode and described 8th electrode connect respectively, for from described 5th electrode, described 6th electrode, described 7th electrode and the electro-physiological signals of the described 8th electrode described user of reception.

For the said equipment, in a kind of possible implementation, described detector includes:

Memory module, for preserving the electro-physiological signals receiving from described crosslinking electrode；

Wireless transport module, for sending received electro-physiological signals to exterior terminal.

For the said equipment, in a kind of possible implementation, described detector includes:

Usb module, can be connected with exterior terminal by usb interface, for outside terminal transmission data.

For the said equipment, in a kind of possible implementation, described detector includes:

Display lamp, for representing the working condition of wearable cardioelectric monitor equipment.

For the said equipment, in a kind of possible implementation, comprising: power supply；

Described power supply includes at least one in charge power supply, external power supply and supplying cell.

Beneficial effect

Wearable cardioelectric monitor equipment of the present utility model is easy to carry, easy to use, is conducive in time detection to use The electrocardiogram (ECG) data of person.

According to below with reference to the accompanying drawings to detailed description of illustrative embodiments, further feature of the present utility model and aspect will It is made apparent from.

Brief description

Comprise in the description and constitute the accompanying drawing of a part of description and description together illustrates this practicality newly The exemplary embodiment of type, feature and aspect, and be used for explaining principle of the present utility model.

Fig. 1 illustrates the perspective view of the wearable cardioelectric monitor equipment according to this utility model one embodiment；

Fig. 2 a illustrates that the front of the wearable cardioelectric monitor equipment singly leading according to this utility model one embodiment shows It is intended to；

Fig. 2 b illustrates that the reverse side of the wearable cardioelectric monitor equipment singly leading according to this utility model one embodiment shows It is intended to；

Fig. 2 c and Fig. 2 d illustrates the wearable cardioelectric monitor equipment singly leading according to this utility model one embodiment The schematic diagram that electrode is arranged in body surface；

Fig. 2 e illustrates the another kind of the wearable cardioelectric monitor equipment singly leading according to this utility model one embodiment Schematic diagram；

Fig. 3 a illustrates that the front of the wearable cardioelectric monitor equipment of the multi-lead according to this utility model one embodiment is stood Body structural representation；

Fig. 3 b illustrates that the reverse side of the wearable cardioelectric monitor equipment of the multi-lead according to this utility model one embodiment stands Body structural representation；

Fig. 3 c illustrates that the vertical view of the wearable cardioelectric monitor equipment of the multi-lead according to this utility model one embodiment is shown It is intended to；

Fig. 3 d and Fig. 3 e illustrates the wearable cardioelectric monitor equipment of the multi-lead according to this utility model one embodiment The schematic diagram that electrode is arranged in body surface.

Specific embodiment

Describe various exemplary embodiments of the present utility model, feature and aspect below with reference to accompanying drawing in detail.In accompanying drawing Identical reference represents the same or analogous element of function.Although the various aspects of embodiment shown in the drawings, It is unless otherwise indicated it is not necessary to accompanying drawing drawn to scale.

Special word " exemplary " means " as example, embodiment or illustrative " here.Here as " exemplary " Illustrated any embodiment should not necessarily be construed as preferred or advantageous over other embodiments.

In addition, in order to better illustrate this utility model, give numerous concrete in specific embodiment below Details.It will be appreciated by those skilled in the art that not having some details, this utility model equally can be implemented.Real at some In example, method well known to those skilled in the art, means, element and circuit are not described in detail, in order to highlight this reality With new purport.

Fig. 1 illustrates the perspective view of the wearable cardioelectric monitor equipment according to this utility model one embodiment. As shown in figure 1, this wearable cardioelectric monitor equipment specifically includes that the first braces 11 that can be wrapped in cervical region；Multiple lead Electrode 13, is arranged at the position that described first braces 11 corresponds to human body surface ECG signal sampling；Detector 15, is arranged at institute State on the first braces 11, and be connected with multiple described crosslinking electrodes 13, for receiving user from multiple described crosslinking electrodes 13 Electro-physiological signals, so that cardioelectric monitor is carried out to described user.

Specifically, due to the difference of crosslinking electrode 13 arrangement mode, can support singly to lead or the electrocardio of multi-lead is supervised Survey mode.

In a kind of possible implementation, Fig. 2 a illustrate according to this utility model one embodiment singly lead wearable Cardioelectric monitor equipment front schematic view, Fig. 2 b illustrates the wearable heart singly leading according to this utility model one embodiment The reverse side schematic diagram of pyroelectric monitor equipment, Fig. 2 c and Fig. 2 d illustrate according to this utility model one embodiment singly lead wearable The schematic diagram that the electrode of cardioelectric monitor equipment is arranged in body surface.As shown in Figure 2 a and 2 b, this wearable cardioelectric monitor equipment The cardioelectric monitor that singly leads can be realized.In the case of singly leading, the first braces 11 of this wearable cardioelectric monitor equipment wraps Include wound section 10 and suspended portion 30, multiple described crosslinking electrodes 13 include: first electrode 131, second electrode the 132, the 3rd Electrode 133 and the 4th electrode 134.Wherein, as shown in Fig. 2 c and Fig. 2 d, first electrode 131, it is arranged at described first braces 11 Wound section 10 corresponds to the position of rear cervical region.Second electrode 132 and the 3rd electrode 133, are arranged at described first braces 11 Wound section 10 and respectively be located at described first electrode 131 both sides；4th electrode 134, is arranged at described first braces 11 Suspended portion 30 corresponds to the position of ensiform process of sternum.

In the case of singly leading, detector 15 is from first electrode 131, second electrode 132, the 3rd electrode 133 and the 4th Electrode 134 receives user in the electro-physiological signals of corresponding sites, can be calculated the cardioelectric monitor number singly leading According to.Detector 15 can also send the physiology electric receiving wire size to exterior terminal and be calculated and show.

In a kind of possible implementation, as shown in Figure 2 b, described 4th electrode 134 and described detector 15 are respectively provided with Suspended portion 30 in described first braces 11 corresponds to the position of ensiform process of sternum, and described 4th electrode 134 is arranged at institute State on the shell of detector 15.Wherein, the 4th electrode 134 and the shell of detector 15 can be separately positioned, the company of the two The mode of connecing can be similar with snap-fastener.Certainly, the 4th electrode 134 can also be the projected electrode being directly embedded into detector 15 shell.

Wherein, the first braces 11 wound section 10 can be wider, and suspended portion 30 can be narrower, to meet human body pendant Wearing comfort level is standard.Additionally, the permissible material of wound section 10 of the first braces 11 and width all can flexibly select.Example As, when arranging button-type electrode on the first braces 11, braces width is preferably greater than electrode diameter, as Fig. 2 a and Fig. 2 b institute Show；When arranging hollow cylinder electrode on the first braces 11, braces width is preferably less than electrode internal diameter, as shown in Figure 2 e.

Fig. 3 a illustrates that the front of the wearable cardioelectric monitor equipment of the multi-lead according to this utility model one embodiment is stood Body structural representation, Fig. 3 b illustrates the anti-of the wearable cardioelectric monitor equipment of the multi-lead according to this utility model one embodiment Face perspective view, Fig. 3 c illustrates the wearable cardioelectric monitor equipment of the multi-lead according to this utility model one embodiment Schematic top plan view.Fig. 3 d and Fig. 3 e illustrates that the wearable cardioelectric monitor of the multi-lead according to this utility model one embodiment sets The schematic diagram that standby electrode is arranged in body surface.

In a kind of possible implementation, as shown in Fig. 3 a, Fig. 3 b and Fig. 3 c, this wearable cardioelectric monitor equipment can To realize multi-lead cardioelectric monitor.In the case of multi-lead, this wearable cardioelectric monitor equipment is except the first above-mentioned electricity Outside the electrode 134 of pole 131 to the 4th, can also include: can be wrapped in the second braces 21 of chest and/or abdominal part, described Two braces 21 are connected by adapter 23 with described detector 15.Described second braces 21 is provided with the 5th electrode 211, Six electrodes 212, the 7th electrode 213 and the 8th electrode 214.Wherein, as shown in Fig. 3 b and Fig. 3 d, described 5th electrode 211 is arranged Correspond to the position on the left of breastbone in described second braces 21；It is corresponding that described 6th electrode 212 is arranged at described second braces 21 Position in left midaxillary line；Described 7th electrode 213 is arranged at the position that described second braces 21 corresponds to right midaxillary line.As figure Shown in 3c and Fig. 3 e, described 8th electrode 214 is arranged at the position that described second braces 21 corresponds to the retrosternal apex of the heart.Ability Field technique personnel, it is understood that the position of above-mentioned electrode is apparent position, can have a little in the range of measurement error allows Deviate.

In the case of multi-lead, detector 15 is from first electrode 131, second electrode 132, the 3rd electrode the 133, the 4th electricity Pole 134, the 5th electrode 211, the 6th electrode 212, the 7th electrode 213 and the 8th electrode 214 receive user in corresponding body surface The electro-physiological signals of position, can be calculated the 12 cardioelectric monitor data led.Detector 15 can also be by the physiology receiving Electric wire number sends to exterior terminal and is calculated and show.

In a kind of possible implementation, the material used by the second braces 21 can select resilient material, thus Adapt to different builds.Or the length setting of the second braces 21 is adjustable.For example it is all provided between each two electrode Put the coupling part that can adjust length.

Furthermore, it is possible to be fixedly connected one end of the second braces 21 with detector 15, the other end of the second braces 21 passes through The adapters such as buckle, hook, double buckle 23 connect.Or, the two ends of the second braces 21 and adapter 23 are dismountable company Connect.

In a kind of possible implementation, detector 15 may include that memory module (not shown), for preserving The electro-physiological signals receiving from described crosslinking electrode 13；Wireless transport module (not shown), for sending out to exterior terminal Send received electro-physiological signals.

Specifically, detector 15 can preserve the sites different in human body receiving from each electrode and detect Electro-physiological signals, and it is possible to preserve calculated electrocardiosignal.It is sent to outer by wireless transport module such as wifi Portion's terminal is for example: in mobile phone, flat board, notebook, desktop computer etc..

In a kind of possible implementation, detector 15 can also include usb module (not shown), can pass through Usb interface 31 (as shown in Figure 3 a) is connected with exterior terminal, for outside terminal transmission data, or has charge function concurrently.

In a kind of possible implementation, the shell of detector 15 can arrange display lamp 33, by display lamp Light and shade, color, flicker etc., to represent the working condition of wearable cardioelectric monitor equipment.For example: when lamp is bright, represent normal inspection Survey, represent when lamp goes out and quit work, during lamp flicker, represent operation irregularity.Additionally, as shown in Fig. 3 a and Fig. 2 a, in detector 15 Operation button 35 can also be arranged on shell, for controlling the startup of wearable cardioelectric monitor equipment, closing, function selecting Deng.This utility model not shape of limit button, quantity and implementation, the flexible function choosing that specifically can realize as needed Select.

Additionally, the power supply of this wearable cardioelectric monitor equipment can be in charge power supply, external power supply and supplying cell At least one.

Wearable cardioelectric monitor equipment of the present utility model is easy to carry, easy to use, is conducive in time detection to use The electrocardiogram (ECG) data of person.The electrocardiogram (ECG) data singly leading can not only be obtained additionally it is possible to obtain the electrocardiogram (ECG) data of multi-lead.

The above, specific embodiment only of the present utility model, but protection domain of the present utility model does not limit to In this, any those familiar with the art, in the technical scope that this utility model discloses, can readily occur in change Or replace, all should cover within protection domain of the present utility model.Therefore, protection domain of the present utility model should be with described power The protection domain that profit requires is defined.

Claims (10)

1. a kind of wearable cardioelectric monitor equipment is it is characterised in that include:

The first braces of cervical region can be wrapped in；

Multiple crosslinking electrodes, are arranged at the position that described first braces corresponds to human body surface ECG signal sampling；

Detector, is arranged on described first braces, and is connected with multiple described crosslinking electrodes, for from multiple described electricity that lead Pole receives the electro-physiological signals of user, to carry out cardioelectric monitor to described user.

2. equipment according to claim 1 is it is characterised in that described first braces includes wound section and suspended portion；

Multiple described crosslinking electrodes include:

First electrode, the wound section being arranged at described first braces corresponds to the position of rear cervical region；

Second electrode and the 3rd electrode, are arranged at the wound section of described first braces and are located at the two of described first electrode respectively Side；

4th electrode, the suspended portion being arranged at described first braces corresponds to the position of ensiform process of sternum.

3. equipment according to claim 2 it is characterised in that described 4th electrode and described detector may be contained within described The suspended portion of the first braces corresponds to the position of ensiform process of sternum, and described 4th electrode is arranged at the shell of described detector On.

4. equipment according to claim 2 is it is characterised in that also include: can be wrapped in the second of chest and/or abdominal part Braces, described second braces is connected by adapter with described detector.

5. equipment according to claim 4 is it is characterised in that multiple described crosslinking electrode also includes: is arranged at described The 5th electrode on two braces, the 6th electrode, the 7th electrode and the 8th electrode；

Described 5th electrode is arranged at described second braces and corresponds to the position on the left of breastbone；

Described 6th electrode is arranged at the position that described second braces corresponds to left midaxillary line；

Described 7th electrode is arranged at the position that described second braces corresponds to right midaxillary line；

Described 8th electrode is arranged at the position that described second braces corresponds to the retrosternal apex of the heart.

6. equipment according to claim 5 is it is characterised in that described detector and described 5th electrode, described 6th electricity Pole, described 7th electrode and described 8th electrode connect respectively, for from described 5th electrode, described 6th electrode, described Seven electrodes and the electro-physiological signals of the described 8th electrode described user of reception.

7. equipment according to any one of claim 1 to 5 is it is characterised in that described detector includes:

Memory module, for preserving the electro-physiological signals receiving from described crosslinking electrode；

Wireless transport module, for sending received electro-physiological signals to exterior terminal.

8. equipment according to any one of claim 1 to 5 is it is characterised in that described detector includes:

Usb module, can be connected with exterior terminal by usb interface, for outside terminal transmission data.

9. equipment according to any one of claim 1 to 5 is it is characterised in that described detector includes:

Display lamp, for representing the working condition of wearable cardioelectric monitor equipment.

10. equipment according to any one of claim 1 to 5 is it is characterised in that include: power supply；

Described power supply includes at least one in charge power supply, external power supply and supplying cell.