CN205433683U - Electrocardio monitoring devices and be used for this electrocardio monitoring devices's pectoral girdle - Google Patents

Abstract

The utility model relates to an electrocardio monitoring devices and be used for this electrocardio monitoring devices's pectoral girdle, the electrocardio monitoring devices include: the electrocardio monitor, it includes: the casing, set up in the inside power of casing, processing module and by the treatment circuit extends in outside the sensing electrodes and the reference electrode of casing, and the adjustable pectoral girdle of chest measurement, the front portion of pectoral girdle is the layered structure, the outer of layered structure is provided with the opening and is used for making along the chest measurement direction the closed junction surface of opening, the inlayer of layered structure is insulating fabric and is equipped with being used for exposing reference electrode's trompil, wherein, the electrocardio monitor passes through the opening detachably arrange in between two layers of the layered structure of pectoral girdle, through inciting somebody to action sensing under the state of pectoral girdle wearing and human body electric capacity between the sensing electrodes and human skin detects the electrocardiosignal.

Description

A kind of electrocardiograph monitoring device and the pectoral girdle for this electrocardiograph monitoring device

Technical field

This utility model relates to armarium, relates more specifically to a kind of electrocardiograph monitoring device and the pectoral girdle for this electrocardiograph monitoring device.

Background technology

The cardioelectric monitor pectoral girdle commonly used in the market is the pectoral girdle with electrocardio monitoring function, it is to utilize traditional metal electrode directly to contact skin to sense heart rate, pectoral girdle uses nylon Paste button to control degree of tightness (i.e. controlling chest measurement), and pectoral girdle is very hard, therefore wear like a hen on a hot girdle, or carried Le rib tight, band Song Liaohui slides, and metal electrode is easily caused allergy, therefore cannot be carried out chronically, measure continuously, directly affect testing result.

Have also appeared a kind of contactless cardioelectric monitor sensor now, it directly contacts skin without sensing electrode, senses electrocardiosignal by the capacitive coupling between monitoring sensing electrode and human body.Although the defect of this contactless uncomfortable and easy allergy overcoming that electrode directly contacts that skin brings, but still lack a kind of convenience, wear operation comfortable, easy, pectoral girdle formula electrocardiograph monitoring device easy to clean.

Utility model content

In consideration of it, this utility model provides a kind of electrocardiograph monitoring device and the pectoral girdle for this electrocardiograph monitoring device, to substantially eliminate one or more problem caused because of the limitation of prior art and shortcoming.

In order to realize the purpose of this utility model, in one side of the present utility model, it is provided that a kind of electrocardiograph monitoring device, comprising:

Cardioelectric monitor device, comprising: housing, be arranged at the power supply of described enclosure interior, processing module and extended sensing electrode and the reference electrode of hull outside by described process circuit；And

The adjustable pectoral girdle of chest measurement, the front portion of described pectoral girdle is hierarchy, the outer layer of described hierarchy is provided with opening and for the junction surface making described opening close along chest measurement direction, and the internal layer of described hierarchy is insulating fabrics and is provided with the perforate for exposing described reference electrode；

Wherein, described cardioelectric monitor device is removably disposed in by described opening between two layers of the hierarchy of described pectoral girdle, by sensing the electric capacity between described sensing electrode and human body skin when by described pectoral girdle wearing and human body, detects electrocardiosignal.

Preferably, described junction surface is slide fastener.

Preferably, described pectoral girdle is provided with the adjustable shoulder belt of length.

Preferably, described shoulder belt is staggered form shoulder belt.

Preferably, the two ends of described pectoral girdle are respectively arranged with hook portion and button portion, for the connection at pectoral girdle two ends.

Preferably, described cardioelectric monitor device also includes the display lamp indicating the duty of this cardioelectric monitor device；The outer layer of described hierarchy is provided with the indicator hole corresponding with described display lamp.

Preferably, described processing module comprises the steps that filter circuit, for being filtered processing to the signal of sensing；Amplifying circuit, for being amplified process to signal；A/D convertor circuit, for being AD converted signal；And wireless communication module, for testing result is sent to external device (ED).

Preferably, described processing module may also include that disengaging testing circuit, determines whether described reference electrode departs from from human body skin for sensing based on described sensing electrode.

Preferably, the position corresponding with sensing electrode of the hierarchy of described pectoral girdle is fixed with cushion rubber, and described cushion rubber is for fixing sensing electrode.

Another aspect of the present utility model provides a kind of pectoral girdle for above-mentioned electrocardiograph monitoring device.

In the electrocardiograph monitoring device of the embodiment of the present invention, cardioelectric monitor device can disassemble from pectoral girdle, therefore, the most easily operates, is easy to clean and change, and chest measurement scalable, therefore, substantially increases Consumer's Experience.

Attendant advantages of the present utility model, purpose, and feature will will partly be illustrated by the following description, and hereafter will become obvious to rear section for those of ordinary skill in the art studying, or can know according to practice of the present utility model.The purpose of this utility model and further advantage can be realized by the structure specifically noted in written explanation and claims and accompanying drawing thereof and be obtained.

It will be appreciated by those skilled in the art that the purpose that can realize with this utility model and advantage are not limited to above concrete described, and according to understand that this utility model is capable of above and other purpose with will be apparent from described further below.

Accompanying drawing explanation

With reference to the following drawings, it is better understood with many aspects of the present utility model.In accompanying drawing:

Fig. 1 is the schematic diagram of this utility model one embodiment mesothorax belt electrocardiograph monitoring device；

Fig. 2 is the schematic diagram in this utility model embodiment outside pectoral girdle；

Fig. 3 is the schematic diagram in this utility model embodiment inside pectoral girdle；

Fig. 4 is the structural representation of electrocardiograph monitoring device in this utility model one embodiment；

Fig. 5 is the sectional view of cardioelectric monitor pectoral girdle in this utility model one embodiment；

Fig. 6 (a) and 6 (b) are respectively in this utility model one embodiment to dress the human body front and back schematic diagram of cardioelectric monitor pectoral girdle；

Fig. 7 is the conceptual diagram of electrocardiograph monitoring device in this utility model one embodiment；And

Fig. 8 is the flow chart of cardioelectric monitor in this utility model one embodiment.

Detailed description of the invention

Below, preferred implementation of the present utility model is described in detail.The example of these preferred implementations is illustrated in the accompanying drawings.The embodiment of the present utility model shown in accompanying drawing and described with reference to the accompanying drawings is merely exemplary, and technical spirit of the present utility model and primary operational thereof are not limited to these embodiments.

At this, it can further be stated that, in order to avoid having obscured this utility model because of unnecessary details, illustrate only in the accompanying drawings and according to the closely-related structure of scheme of the present utility model and/or process step, and eliminate other details little with this utility model relation.

This utility model embodiment aims to provide one can monitor daily electrocardio, exercise ECG continuously, chronically, the cardioelectric monitor pectoral girdle (or claiming pectoral girdle formula electrocardiograph monitoring device) that monitoring electrode can be next to the skin with human body capacitive coupling, comfortable wearing.

Pectoral girdle formula electrocardiograph monitoring device in this utility model uses contactless capacitive electrode to replace traditional metal electrode to carry out the monitoring of electrocardiosignal (such as heart rate).This test device, by sensing electrode, the capacitively coupled electric capacity formed between insulator (clothes) and measured's skin, detects the bio-voltage of human body change, i.e. electrocardiosignal.

In this device, pectoral girdle uses detachable back buckle mode to connect, and increases the design of length adjustable shoulder straps, and back shoulder belt can use interleaved mode, prevent sliding shoulder straps.Such design, for different sexes, the user of different stature, can make it regulate pectoral girdle according to self-condition, wear Energy and comfort such that it is able to carry out continuously, cardioelectric monitor chronically.Four ends of shoulder belt can be respectively equipped with shoulder belt hook, connection corresponding with the shoulder harness button on pectoral girdle.The front end of shoulder belt is provided with scalable button.The length of shoulder belt can be adjusted according to different statures, different sexes.

Referring to figs. 1 through shown in Fig. 3, this pectoral girdle formula electrocardiograph monitoring device includes: cardioelectric monitor device and the adjustable pectoral girdle of chest measurement 10.

Cardioelectric monitor device is removably positioned in the slide fastener of pectoral girdle, is applied not only to Real-time Collection electrocardiosignal, processes signal, it is also possible to carries out the wireless transmission of signal.Cardioelectric monitor device comprises the steps that housing 17, is arranged at the power supply (not shown) of enclosure interior, processing module (main control module) and connects processing module and extend to sensing electrode 18 and the reference electrode 19 of hull outside, and the parts of its middle shell 17 and inside can be collectively referred to as collecting cassette.Sensing electrode 18 is used for gathering electrocardiosignal, and the electrocardiosignal that sensing electrode 18 gathers such as can be transferred to processing module by scalable flexible connection harness, and scalable flexible connection harness also can carry out a range of flexible.Processing module is for the process of electrocardiosignal, state control, power management and wireless transmission etc..Battery is used for as system power supply.Housing 17 is for being placed in processing module in its cavity.

The front portion of pectoral girdle 10 is hierarchy, and the outer layer of this hierarchy is provided with opening and for the junction surface 13 making opening close along chest measurement direction, and the internal layer of hierarchy is insulating fabrics and is provided with the perforate (not shown) for exposing reference electrode.In one embodiment, junction surface 13 is slide fastener, it is also possible to for the locked part connected by manner.

Cardioelectric monitor device is removably disposed in by opening between two layers of the hierarchy of pectoral girdle, senses the electric capacity between electrode and human body skin by detection when by pectoral girdle wearing and human body, detects electrocardiosignal.Such as, specifically, the design of pectoral girdle interlude can be double-decker, outer layer is laterally sewed with slide fastener 13, for easy disassembly monitor, internal layer uses soft insulating fabrics, centre exposed (i.e. circular hole is left at center), for reference electrode is exposed, make reference electrode and contact human skin.The position of 2 sensing electrodes of cardioelectric monitor device can be respectively embedded into two rubber rings, uses binding agent to be bonded at the outer surface of internal layer fabric, for fixing sensing electrode.

Cardioelectric monitor device is also provided with indicating the display lamp of the duty of this cardioelectric monitor device and switching on and shutting down button etc..Correspondingly, the outer layer of the hierarchy of pectoral girdle 10 and corresponding position, display lamp position (such as pectoral girdle lower limb) can be provided with indicator lamp hole 16, in order to check the duty of equipment；Pectoral girdle top edge can leave the switching on and shutting down key hole 12 corresponding with switching on and shutting down key position, facilitates subscriber switch machine to arrange.

In this utility model embodiment, processing module comprise the steps that the filter circuit for being filtered processing to the signal of sensing, for the amplifying circuit being amplified signal processing, determine for sensing based on sensing electrode reference electrode whether from human body skin depart from depart from testing circuit, for signal is simulated-A/D convertor circuit (ADC) of numeral conversion, for carrying out the microprocessor of overall control, the wireless communication module for sending testing result to external device (ED), electric power management circuit.

In whole data handling procedure, the setting of electrocardiosignal amplification, the setting of filter range, the setting of A/D conversion, the Processing Algorithm of digital signal are arranged and data to upload the setting of mode be not that monitoring is required for the step done every time, can set in advance, only need to change time the amendment that is configured.

In this utility model, pectoral girdle is provided with the adjustable shoulder belt of length 20, it is preferable that shoulder belt is staggered form shoulder belt, as shown in Figure 1.

The two ends of pectoral girdle are respectively arranged with bandage hook (hook portion) 11 and (buckleing portion) 15 buckled by bandage, for the connection at pectoral girdle two ends.The side being provided with button portion is also provided with elastic cord 14, telescopic adjustment by a small margin for pectoral girdle, according to sex or the difference of stature, when need to significantly reconcile, bandage row can be used to buckle the length increasing pectoral girdle, pectoral girdle is additionally provided with shoulder harness button, for being connected with shoulder belt, shoulder belt back can interconnection, end is respectively equipped with shoulder belt hook, corresponding with the shoulder harness button on pectoral girdle connect.

As shown in Figures 2 and 3, electrocardio sensor is positioned between pectoral girdle interlude outer layer and internal layer, and sensing electrode is fixed in the rubber ring of internal layer.The main control module of electrocardio sensor is placed in the center of pectoral girdle interlude, and reference electrode is placed in the back of main control module, matches with the exposed section size at pectoral girdle internal layer fabric center；Switching on and shutting down button is placed in the upper end of main control module, matches with the exposed section size of pectoral girdle outer layer switching on and shutting down button, and display lamp is placed in the lower end of main control module, matches with the exposed section size of pectoral girdle outer layer display lamp.Soft telescopic wire is used to be connected between sensing electrode and main control module.

Fig. 4 is the rearview of electrocardio sensor.The collection face of reference electrode and two sensing electrodes, towards human body, directly or indirectly contacts with human body.

Fig. 5 is the sectional view of pectoral girdle, and between internal layer and outer layer in addition to placing the part of electrocardio sensor, other parts can use the insulating sponge of softness to fill, with fixing electrocardio sensor so that it is not easily shifted, and the wear comfort of the product simultaneously also increased.

Fig. 6 (a) and Fig. 6 (b) is respectively in this utility model one embodiment to dress the human body front and back schematic diagram of cardioelectric monitor pectoral girdle.Design based on pectoral girdle formula electrocardiograph monitoring device of the present utility model, for different sexes, the user of different stature, can make it regulate pectoral girdle according to self-condition, wear Energy and comfort such that it is able to carry out continuously, cardioelectric monitor chronically.

Fig. 7 is to utilize the capacitive electrode coupling model formed between contactless electrode and human body, and wherein (a) is coupling model principle schematic, and (b) is equivalent circuit diagram.Contactless electrode, by sensing electrode (contactless electrode), capacitively coupled electric capacity between insulating fabrics and measured's skin, can detect the bio-voltage that human body changes.Contactless electrode instead of traditional metal electrode, it is achieved that the deformable coupling of profile coupling regime in Fig. 7.

Fig. 8 is the operation chart utilizing plateform system that electrocardiograph monitoring device realizes real-time mobile monitoring.Noncontacting proximity sensor collection comprises the signal of ecg information, through signal denoising, separate and amplify many times (such as 50 times) after, signal processing is carried out through low-power-consumption embedded signal processing system, wirelessly it is sent to the external device (ED)s such as PC, mobile phone or mobile device, carries out showing, analyzing and early warning operation on external equipment by the embedded application software of exploitation.Simultaneously, the external device (ED)s such as the PC of user, mobile phone or mobile device can be connected with expert's end by network, once there are abnormal conditions in heart, user side and/or expert's end system can send alarm, household or medical personnel obtain alarm, emergency case is made rapidly emergency measure, makes patient be given treatment in the very first time.

The circuit design of detachable, the scalable of the cardioelectric monitor pectoral girdle in this utility model and good fixing design, the topology layout that cardioelectric monitor device matches from pectoral girdle and the low-power consumption of electrocardio sensor, real-time stabilization makes different sexes, the user of different stature regulate pectoral girdle according to self-condition, wear Energy and comfort such that it is able to continuously, for a long time, cosily carry out cardioelectric monitor.

In this utility model, contactless capacitive electrode is used to replace traditional metal electrode to gather electrocardiosignal, sensing electrode is not directly contacted with human body, avoid directly contact and cause skin allergy, the harmful effect of injury skin, and because being capacitive coupling between sensing electrode and human body, therefore there is the input impedance of superelevation, it is easy to monitoring, and uses breast band type structure more can facilitate to measure electrocardiosignal.

Further, the application of corresponding network development platform, enable user household and medical personnel to be reported to the police when user's heart goes wrong, patient is giveed first-aid measures, make patient be given treatment in the very first time.

Electrocardiograph monitoring device of the present utility model can whenever and wherever possible, comfortable, conveniently and efficiently, more intelligently carry out EGC parameter detection, and owing to cardioelectric monitor device is detachable, be highly convenient for cleaning and the replacing of pectoral girdle.It is to say, detected person is whether working or having a rest, indoor or outdoor, ecg information can be monitored.For detected person, this electrocardiograph monitoring device is easy to use, pressing a button gently, and the ecg information of self just can be sent to doctor there.And the electrocardiogram (ECG) data of collection can be analyzed by monitoring device, and test result feeds back to medical personnel, and the situation is critical when, medical personnel are reminded to provide corresponding emergency treatment to it.

The feature described as described above for a kind of embodiment and/or illustrate can use in one or more other embodiment in same or similar mode, and/or the feature use combining with the feature in other embodiment or substituting in other embodiment.

It should be noted that above-described embodiment be only explanation this utility model and unrestricted the scope of the claims of the present utility model, any based on equivalents technology of the present utility model, all should be in scope of patent protection of the present utility model.

Claims (10)

1. an electrocardiograph monitoring device, it is characterised in that this electrocardiograph monitoring device includes:

Cardioelectric monitor device, comprising: housing, be arranged at the power supply of described enclosure interior, processing module and extended sensing electrode and the reference electrode of hull outside by described process circuit；And

The adjustable pectoral girdle of chest measurement, the front portion of described pectoral girdle is hierarchy, the outer layer of described hierarchy is provided with opening and for the junction surface making described opening close along chest measurement direction, and the internal layer of described hierarchy is insulating fabrics and is provided with the perforate for exposing described reference electrode；

Wherein, described cardioelectric monitor device is removably disposed in by described opening between two layers of the hierarchy of described pectoral girdle, by sensing the electric capacity between described sensing electrode and human body skin when by described pectoral girdle wearing and human body, detects electrocardiosignal.

Electrocardiograph monitoring device the most according to claim 1, it is characterised in that:

Described junction surface is slide fastener.

Electrocardiograph monitoring device the most according to claim 1, it is characterised in that:

The adjustable shoulder belt of length it is provided with on described pectoral girdle.

Electrocardiograph monitoring device the most according to claim 3, it is characterised in that:

Described shoulder belt is staggered form shoulder belt.

Electrocardiograph monitoring device the most according to claim 1, it is characterised in that:

The two ends of described pectoral girdle are respectively arranged with hook portion and button portion, for the connection at pectoral girdle two ends.

Electrocardiograph monitoring device the most according to claim 1, it is characterised in that:

Described cardioelectric monitor device also includes the display lamp indicating the duty of this cardioelectric monitor device；

The outer layer of described hierarchy is provided with the indicator hole corresponding with described display lamp.

Electrocardiograph monitoring device the most according to claim 1, it is characterised in that described processing module includes:

Filter circuit, for being filtered processing to the signal of sensing；

Amplifying circuit, for being amplified process to signal；

A/D convertor circuit, for being AD converted signal；And

Wireless communication module, for sending testing result to external device (ED).

Electrocardiograph monitoring device the most according to claim 7, it is characterised in that described processing module also includes:

Depart from testing circuit, determine whether described reference electrode departs from from human body skin for sensing based on described sensing electrode.

Electrocardiograph monitoring device the most according to claim 1, it is characterised in that:

The position corresponding with sensing electrode of the hierarchy of described pectoral girdle is fixed with cushion rubber, and described cushion rubber is for fixing sensing electrode.

10. the pectoral girdle for the electrocardiograph monitoring device as described in any one in claim 1-9.