CN209059195U - A kind of conduction pad pasting and electrocardiograph monitoring device - Google Patents
A kind of conduction pad pasting and electrocardiograph monitoring device Download PDFInfo
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- CN209059195U CN209059195U CN201721923178.9U CN201721923178U CN209059195U CN 209059195 U CN209059195 U CN 209059195U CN 201721923178 U CN201721923178 U CN 201721923178U CN 209059195 U CN209059195 U CN 209059195U
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Abstract
The utility model provides a kind of conductive pad pasting, for cardioelectric monitor equipment to be fitted in human skin, and the electrode of cardioelectric monitor equipment is electrically connected with human skin, comprising: substrate, conducting medium, the first glue-line and the second glue-line;The substrate includes opposite first surface and second surface, and the through-hole through first surface and second surface is provided on substrate, and the substrate is divided into through hole area and supporting region by the through-hole;First glue-line fits in the supporting region of first surface, and encloses the through hole area for setting first surface in a ring;Second glue-line fits in the supporting region of second surface, and encloses the through hole area for setting second surface in a ring;The conducting medium exposes to through hole area, and when the first glue-line or the second glue-line fit in cardioelectric monitor equipment, the conducting medium is contacted with the fitting of the electrode surface of cardioelectric monitor equipment.The utility model also provides a kind of electrocardiograph monitoring device.
Description
[technical field]
The utility model relates to cardiac monitoring field more particularly to a kind of conductive pad pastings and electrocardiograph monitoring device.
[background technique]
The health of modern life cardiac is more and more people problem of interest.By years of researches and clinical card
It is real, it can detecte out the electrocardio change curve of heart by cardioelectric monitor equipment, i.e., electrocardiogram described in usual clinical medicine leads to
It crosses and the heart diseases such as arrhythmia cordis, myocardial ischemia may determine that the analysis of electrocardiogram.In existing cardioelectric monitor equipment, need
The electrode of cardioelectric monitor equipment is fitted in the position of the close heart of human body, the chest position as where heart.
The electrode paste of the electrode of cardioelectric monitor equipment and human body being bonded usually by the hand-held cardioelectric monitor equipment of user
Electrocardio is fitted at chest at nearly chest or by conductive pad pasting.
And existing conductive pad pasting is with electrocardioelectrode when being bonded, conductive pad pasting is electrically connected unstable with electrode, and electrocardio is caused to believe
Number detection interference signal it is more, can not accurately obtain ecg information.
[utility model content]
To overcome technological deficiency present in conductive pad pasting at present, the utility model provides a kind of conductive pad pasting and electrocardio
Monitoring device.
The technical solution that the utility model solves technical problem is to provide a kind of conductive pad pasting, is used for cardioelectric monitor equipment
Human skin is fitted in, and the electrode of cardioelectric monitor equipment is electrically connected with human skin, including substrate, conducting medium,
One glue-line and the second glue-line;The substrate includes opposite first surface and second surface, is provided on substrate through
The substrate is divided into through hole area and supporting region by the through-hole on one surface and second surface, the through-hole;First glue-line fits in
The supporting region of first surface, and the through hole area for setting first surface is enclosed in a ring;Second glue-line fits in the supporting region of second surface,
And the through hole area for setting second surface is enclosed in a ring;The conducting medium exposes to through hole area, pastes in the first glue-line or the second glue-line
When together in cardioelectric monitor equipment, the conducting medium is contacted with the fitting of the electrode surface of cardioelectric monitor equipment.
Preferably, the area ratio of the conducting medium exposes to the first glue-line surface area and first surface is 40%-
85%.
Preferably, the area ratio of surface area and first surface of first glue-line far from substrate is 25%-60% and/or second
The area ratio of surface area and second surface of the glue-line far from substrate is 25%-60%.
Preferably, the substrate is flexible base board, with a thickness of 0.1~1.5mm.
Preferably, first glue-line and/or the second glue-line are pressure-sensitive adhesive layer.
Preferably, the conducting medium is conducting resinl, and the area of conducting resinl is greater than or equal to the area of through-hole.
Preferably, the conductive pad pasting further includes gripping member, the edge connection of the gripping member and substrate, for being user
It provides and holds.
Preferably, the conductive pad pasting further includes the first release layer, and it is separate that first release layer fits in the first glue-line
The surface of substrate.
Preferably, the conductive pad pasting further includes the second release layer, and it is separate that second release layer fits in the second glue-line
The surface of substrate.
The utility model also provides a kind of electrocardiograph monitoring device, including cardioelectric monitor equipment and conductive pad pasting;The electrocardio
Monitoring device includes first electrode component, second electrode component and electrode connecting line, and electrode connecting line is electrically connected first electrode
Component and second electrode component;The conduction pad pasting includes substrate, conducting medium, the first glue-line and the second glue-line;The base
Plate includes opposite first surface and second surface, and the through-hole through first surface and second surface, institute are provided on substrate
It states through-hole and the substrate is divided into through hole area and supporting region;First glue-line fits in the supporting region of first surface, and in a ring
Enclose the through hole area for setting first surface;Second glue-line fits in the supporting region of second surface, and encloses set the logical of second surface in a ring
Porose area;The conducting medium exposes to through hole area, when conductive pad pasting fits in the cardioelectric monitor equipment, conducting medium and
The touching of the electrode paste splice grafting of one electrode assembly and second electrode component.
Compared with existing design, conduction pad pasting provided by the utility model is had the advantage that
1, cardioelectric monitor equipment is fitted in by the first glue-line, conducting medium is contacted with the electrode of cardioelectric monitor equipment and is electrically connected
It connects, transmit the electric signal of cardioelectric monitor device electrode by conducting medium and exposes to the second glue-line side, then pass through second
Glue-line contacts fitting with human skin, so that stablizing the electrode of cardioelectric monitor equipment fits in human skin, obtains heart
Ecg information.
2, around by the first glue-line and the second glue-line difference ring attaching together in conducting medium opposite sides, it is situated between in conduction
Annular bonding is formed around matter, so that conducting medium can be securely electric with the electrode of cardioelectric monitor equipment and human skin
Connection, so that the electric signal transmission between electrode and human skin is more stable, so that the electrocardio of cardioelectric monitor equipment monitoring be made to believe
It is number more acurrate.
3, the surface area of the conducting medium of the first glue-line or the second glue-line and the table of first surface or second surface are exposed to
Area ratio is 40%-85%, increases the electrode of cardioelectric monitor equipment and the contact area of human skin by conducting medium, from
And the electrocardiogram (ECG) data for ensuring that cardioelectric monitor equipment monitoring arrives is more acurrate.
Further, on first surface and/or second surface remaining 25%-60% area be provided with the first glue-line and/or
Second glue-line, to ensure the electrode firm contact of conducting medium and human body or cardioelectric monitor equipment.
[Detailed description of the invention]
Fig. 1 is the schematic perspective view of conduction pad pasting provided by the utility model first embodiment.
Fig. 2A is the configuration schematic diagram of conduction pad pasting provided by the utility model first embodiment.
Fig. 2 B is a kind of distressed structure schematic diagram of conduction pad pasting provided by the utility model first embodiment.
Fig. 2 C is another distressed structure schematic diagram of conduction pad pasting provided by the utility model first embodiment.
Fig. 3 A is the base plan structural schematic diagram of conduction pad pasting provided by the utility model first embodiment.
Fig. 3 B is the substrate the schematic diagram of the section structure of conduction pad pasting provided by the utility model first embodiment.
Fig. 3 C is the schematic diagram of the section structure of conduction pad pasting provided by the utility model first embodiment.
Fig. 4 A is that a kind of variant embodiment cross-section structure of conduction pad pasting provided by the utility model first embodiment shows
It is intended to.
Fig. 4 B is enlarged structure schematic diagram of Fig. 4 A at A.
Fig. 4 C is another variant embodiment cross-section structure of conduction pad pasting provided by the utility model first embodiment
Schematic diagram.
Fig. 4 D is enlarged structure schematic diagram of Fig. 4 C at B.
Fig. 5 A is the schematic perspective view of conduction pad pasting provided by the utility model second embodiment.
Fig. 5 B is the configuration schematic diagram of conduction pad pasting provided by the utility model second embodiment.
Fig. 5 C is a kind of distressed structure stereochemical structure signal of conduction pad pasting provided by the utility model second embodiment
Figure.
Fig. 5 D is a kind of distressed structure detonation configuration signal of conduction pad pasting provided by the utility model second embodiment
Figure.
Fig. 6 A is the schematic perspective view of conduction pad pasting provided by the utility model 3rd embodiment.
Fig. 6 B is the configuration schematic diagram of conduction pad pasting provided by the utility model 3rd embodiment.
Fig. 7 is the schematic perspective view of electrocardiograph monitoring device provided by the utility model fourth embodiment.
Fig. 8 A is cardioelectric monitor equipment broken section structural schematic diagram provided by the utility model fourth embodiment.
Fig. 8 B is electrocardiograph monitoring device broken section structural schematic diagram provided by the utility model fourth embodiment.
[specific embodiment]
In order to make the purpose of this utility model, technical solution and advantage are more clearly understood, below in conjunction with attached drawing and implementation
Example, the present invention will be further described in detail.It should be appreciated that specific embodiment described herein is only used to solve
The utility model is released, is not used to limit the utility model.
It should be strongly noted that in the present invention, when element is referred to as " being set to " or " being set to " another element,
It can directly on the other element or there may also be centering elements.Term as used herein " vertical ", "horizontal",
"upper" and "lower" and similar statement are for illustrative purposes only, it is not intended that limitation the utility model.
Referring to Fig. 1, the utility model provides a kind of conductive pad pasting 10, for cooperating with cardioelectric monitor equipment, make electrocardio
Monitoring device is bonded with human skin, and the electrode of cardioelectric monitor equipment is electrically connected with human skin.The conduction pad pasting 10
Including substrate 101, conducting medium 102, the first glue-line 103 and the second glue-line 104, wherein the first glue-line 103 and the second glue
Layer 104 is bonding on the opposite end surface of substrate 101 respectively, and conducting medium 102 is set to the first glue-line 103 and the second glue-line 104
Between, so that electrode and human skin is formed galvanic circle for contacting with the electrode of cardioelectric monitor equipment.The utility model
In human skin be preferably human skin near the heart, such as skin at chest.
Fig. 2A -2C and Fig. 3 A-3C is please referred to, specifically, substrate 101 is with a thickness of H, 1.5mm >=H >=0.1mm, radius
For R1 circular plate structure.Substrate 101 is preferably flexible base board, and flexible base board can be polyimide plastic flexible base board, gather
Flexible base board made of the high molecular materials such as ether ether ketone flexible base board or electrically conducting transparent terylene.Flexible base board has light-weight, thick
The characteristics of spending thin, soft flexible, so that conductive pad pasting 10 can preferably fit in skin and cardioelectric monitor equipment.
Substrate 101 it include opposite first surface 1011 and second surface 1013, the area of first surface 1011 and
The area on two surfaces 1013 is S1.It is provided with the through-hole through first surface 1011 and second surface 1013 on the substrate 101
1012, it is preferable that through-hole 1012 and the center of circle having the same of substrate 101, radius R2, area are the circular through hole of S2.It can
To understand, 101 shape of substrate can also be ellipse or polygon, and there is no particular limitation for shape.The shape of through-hole 102
It can be round, ellipse or polygon, there is no particular limitation for shape.
Substrate 101 is divided into through hole area and supporting region by through-hole 1012, and supporting region ring sets through hole area.First glue-line 103 patch
Together in the supporting region of first surface 101, and the through hole area for setting first surface 1011 is enclosed in a ring, so that conductive pad pasting 10 and electrocardio
Monitoring device fits closely.Second glue-line 104 fits in the supporting region of second surface 1013, and encloses set second surface in a ring
Through hole area, so that conductive pad pasting 10 is fitted closely with human skin.Preferably, the first glue-line 103 and/or the second glue-line 104 are
Pressure-sensitive adhesive layer, pressure-sensitive adhesive layer have glue holding power fine, cryogenic property, and fast viscosity is preferably and preferably special with bonding force
Property.
First glue-line 103 and the second glue-line 104 with a thickness of 0.1mm~0.5mm, thickness is very thin, fits in substrate 101
It is very small to the thickness effect of substrate 101 when opposite two surfaces.
Fig. 2A is please referred to, conducting medium 102 can also be set in the through-hole 1012 by way of filling, expose to logical
Porose area or part expose to through hole area, when only needing conductive pad pasting 10 that cardioelectric monitor equipment is fitted in human skin, conducting medium
102 can electrode and human skin face contact with cardioelectric monitor equipment simultaneously, realize the electrode and human body of cardioelectric monitor equipment
Skin stablizes electrical connection.
Please refer to Fig. 2 B-2C, it is possible to understand that conducting medium 102 is set to the first of the substrate 101 by way of fitting
Surface 1011 and/or second surface 1013, expose to through hole area or part exposes to through hole area, so that conductive pad pasting 10 is by electrocardio
When monitoring device fits in human skin, conducting medium 102 can electrode with cardioelectric monitor equipment and human skin face simultaneously
Contact, the electrode for realizing cardioelectric monitor equipment are electrically connected with the stabilization of human skin.Preferably, the face of conducting medium 102
Product is greater than or equal to the area of through-hole 1012, so that conducting medium 102 can be sufficiently bonded with the electrode of cardioelectric monitor equipment
Face contact.
The conducting medium 102, which can be such as gold, silver, graphite, silicon or conducting resinl, preferably conducting resinl, conducting resinl, to be had
Good electric conductivity, can be bent the electrode surface for fitting in human skin surface or cardioelectric monitor equipment at adhesion simultaneously.
Wherein, conducting medium 102 is S3,85% >=S3/S1 by the surface area that through-hole 1012 exposes to the first glue-line 103
>=40%, i.e., conducting medium 102 expose to the first glue-line 103 surface area and first surface 1011 area ratio be 40%-
85%, namely there is the area of 40%-85% to can be used for the electrode with human body or cardioelectric monitor equipment on first surface 1011
It is in contact, to increase the contact area between electrode and human body.Remaining 25%-60% area is provided on first surface 1011
The area ratio of the surface area of first glue-line 103 namely the first glue-line 101 far from substrate 101 and first surface 1011 is 25%-
60%, to ensure the electrode firm contact of conducting medium 102 and human body or cardioelectric monitor equipment.
The surface area that conducting medium 10 exposes to the second glue-line 104 is S4,85% >=S4/S1 >=40%, i.e. conducting medium
102 expose to the area ratio of the surface area of the second glue-line 104 and first surface 1011 for 40%-85%, namely in second surface
There is the area of 40%-85% to can be used for the contact electrode with human body or cardioelectric monitor equipment on 1013.Remaining 25%-
60% area is provided with the surface area of the second glue-line 103 namely the second glue-line 103 far from substrate 101 and second surface 1013
Area ratio is 25%-60%.
Referring again to Fig. 3 A-3B, in some embodiments, conductive pad pasting 10 further includes gripping member 100, gripping member 100 with
The edge of substrate 101 connects, and for providing gripping for user, user is avoided to touch the first glue-line 103 or the second glue-line 104,
Influence the adhesion property of the first glue-line 103 or the second glue-line 104.Preferably, gripping member 100 and substrate 101 are integrally formed.
Conductive pad pasting 10 is in use, conductive pad pasting 10 fits in cardioelectric monitor equipment, conductive pad pasting by the first glue-line 103
10 conducting medium 102 contacts electrical connection with the electrode of cardioelectric monitor equipment, passes through the electric signal of cardioelectric monitor device electrode
Conducting medium 102 transmits and exposes to 104 side of the second glue-line, then fitting is contacted with human skin by the second glue-line 104, makes
So that cardioelectric monitor equipment electrode stabilization fit in human skin, obtain the ecg information of heart, and due to the first glue-line
103 and second glue-line 104 thickness it is very small, do not influence the thickness of conductive pad pasting 10, cardioelectric monitor equipment fitted into people
When body skin, so that cardioelectric monitor equipment can be very good to be bonded with human skin.
Due to the first glue-line 103 and the second glue-line 104 difference ring attaching together in 102 opposite sides of conducting medium around,
Annular bonding is formed around conducting medium 102, so that the electrode that conducting medium 102 can securely with cardioelectric monitor equipment
And human skin electrical connection, so that the electric signal transmission between electrode and human skin is more stable, so that cardioelectric monitor be made to set
The electrocardiosignal of standby monitoring is more acurrate, and people is during exercise, since conducting medium 102 is bonded in cardioelectric monitor equipment by glue-line,
And the electrode surface fitting of conducting medium 102 and cardioelectric monitor equipment is electrically connected, thus will not conducting medium 102 will not be sent out with electrode
Raw to relatively rotate or shift, ECG signal sampling effect is more excellent.
Further, the surface of the conducting medium 102 of the first glue-line 103 or the second glue-line 104 is exposed to by through-hole 1012
The surface area ratio of long-pending and first surface 1011 or second surface is 40%-85%, passes through conducting medium 102 and increases cardioelectric monitor
The electrode of equipment and the contact area of human skin, so that it is guaranteed that the electrocardiogram (ECG) data that cardioelectric monitor equipment monitoring arrives is more acurrate.
Further, remaining 25%-60% area is provided with first on first surface 1011 and/or second surface 1013
Glue-line 103 and/or the second glue-line 104, to ensure the electrode firm contact of conducting medium 102 and human body or cardioelectric monitor equipment.
Fig. 4 A-4B is please referred to, in some embodiments, the surface and first close to the first glue-line 103 of conducting medium 102
There is difference in height D1 between surface of the glue-line 103 far from substrate 101, so that the first groove is formed on the surface of the first glue-line 103,
When so that the electrode of cardioelectric monitor equipment being fallen into first groove, can preferably it be electrically connected with conducting medium 102.
Fig. 4 C-4D is please referred to, in some embodiments, the surface and second close to the second glue-line 104 of conducting medium 102
There is difference in height D2 between surface of the glue-line 104 far from substrate 101, so that the second groove is formed on the surface of the second glue-line 104,
When so that the electrode of cardioelectric monitor equipment being fallen into second groove, can preferably it be electrically connected with conducting medium 102.
By there is height there are difference in height D1 between conducting medium 102 and the first glue-line 103 or between the second glue-line 104
Difference D2 is spent, so that the electrode of cardioelectric monitor equipment, using between conducting medium 102 and the first glue-line 103 or the second glue-line 104
Difference in height, which forms groove, can be effectively prevented 102, electrode facing conductive medium when groove accommodates the electrode of cardioelectric monitor equipment
It moves, so that electrode and the effect in electrical contact of conducting medium 102 are more excellent.
Fig. 5 A-5D is please referred to, the utility model second embodiment provides a kind of conductive pad pasting 20, including substrate 201, conductive
Medium 202, the first glue-line 203 and the second glue-line 204.The conduction pad pasting 20 is different from the conductive pad pasting that first embodiment provides
Place be that conductive pad pasting 20 further includes the first release layer 205, the first release layer 205 fits in the first glue-line 203 far from base
The surface of plate 201 prevents sundries from contacting the viscosity for influencing the first glue-line 203 with the first glue-line 203 to protect the first glue-line 203.
Or the second surface of the glue-line 204 far from substrate 201 is fitted in protect the second glue-line 204, prevent sundries from connecing with the second glue-line 204
Touching influences the viscosity of the second glue-line 204.
Fig. 6 A-6B is please referred to, the utility model 3rd embodiment provides a kind of conductive pad pasting 30, including substrate 301, conductive
Medium 302, the first glue-line 303 and the second glue-line 304.The conduction pad pasting 30 is different from the conductive pad pasting that first embodiment provides
Place be that conductive pad pasting 30 further includes the first release layer 305 and the second release layer 306, the first release layer 305 fits in
First surface of the glue-line 303 far from substrate 301, to protect the viscosity of the first glue-line 303.Second release layer 306 fits in second
Surface of the glue-line 304 far from substrate 301 is to protect the viscosity of the second glue-line 304.
Referring to Fig. 7, the utility model fourth embodiment provides a kind of electrocardiograph monitoring device 100 comprising cardioelectric monitor
Equipment 90 and two conductive pad pastings 10.Conductive pad pasting 10 and conduction pad pasting structure having the same provided by first embodiment and
Function.
Cardioelectric monitor equipment 90 includes first electrode component 901, second electrode component 903 and electrode connecting line 902.Electricity
Pole connecting line 902 is electrically connected first electrode component 901 and second electrode component 903.Conductive pad pasting 10 is for setting cardioelectric monitor
Standby 90 first electrode component 901 and second electrode component 903 fits in human skin so that first electrode component 901 with
And second electrode component 903 is electrically connected with human skin, thus obtain first electrode component 901 and second electrode component 903 it
Between potential difference, to form electrocardiogram.
Fig. 8 A-8B is please referred to, specifically, first electrode component 901 includes first shell 9011, battery 9013 and first
Electrode 9012.First receiving space 9014 is formed in first shell 9011, battery 9013 is fixed on the first of first shell 9011
It in accommodation space 9014, and is electrically connected with electrode connecting line 902 and first electrode 9012, for being mentioned for cardioelectric monitor equipment 90
For electric energy.First electrode 9012 is electrically connected with battery 9013, and part exposes to first receiving space 9014.
First glue-line 103 of conductive pad pasting 10 is bonded with first shell 9011, conducting medium 102 and 9012 face of first electrode
Contact fitting, the second glue-line 104 are bonded with human skin, make first electrode 9012 and human skin electricity by conducting medium 102
Connection.Preferably, the area of conducting medium 102 is greater than 9012 exposed area of first electrode.
Second electrode component 903 includes second shell 9031, cardioelectric monitor module 9033 and second electrode 9032.Second
The second accommodation space 9034 is formed in shell 9031, the second receiving that cardioelectric monitor module 9033 is fixed on second shell 9031 is empty
Between in 9034, and be electrically connected with electrode connecting line 902 and second electrode 9032.Second electrode 9032 and cardioelectric monitor module
9033 electrical connections, and part exposes to the second accommodation space 9034.
First glue-line 103 of conductive pad pasting 10 is bonded with second shell 9031, conducting medium 102 and 9032 face of second electrode
Contact fitting, the second glue-line 104 is bonded with human skin, make second electrode 9032 by conducting medium 102 and human skin
Electrical connection.Cardioelectric monitor module 9033 passes through the change in electric data for obtaining first electrode 9011 and second electrode 9031, and
The processing is obtained and is transferred to terminal device processing to obtain corresponding electrocardiogram.Preferably, the area of conducting medium 102 is greater than the
Two electrodes, 9032 exposed area.
It is appreciated that the conduction pad pasting 10 could alternatively be any one in conductive pad pasting 20 or conductive pad pasting 30.
Compared with existing design, conduction pad pasting provided by the utility model is had the advantage that
1, cardioelectric monitor equipment is fitted in by the first glue-line, conducting medium is contacted with the electrode of cardioelectric monitor equipment and is electrically connected
It connects, transmit the electric signal of cardioelectric monitor device electrode by conducting medium and exposes to the second glue-line side, then pass through second
Glue-line contacts fitting with human skin, so that stablizing the electrode of cardioelectric monitor equipment fits in human skin, obtains heart
Ecg information.
2, around by the first glue-line and the second glue-line difference ring attaching together in conducting medium opposite sides, it is situated between in conduction
Annular bonding is formed around matter, so that conducting medium can be securely electric with the electrode of cardioelectric monitor equipment and human skin
Connection, so that the electric signal transmission between electrode and human skin is more stable, so that the electrocardio of cardioelectric monitor equipment monitoring be made to believe
It is number more acurrate.
3, the surface area of the conducting medium of the first glue-line or the second glue-line and the table of first surface or second surface are exposed to
Area ratio is 40%-85%, increases the electrode of cardioelectric monitor equipment and the contact area of human skin by conducting medium, from
And the electrocardiogram (ECG) data for ensuring that cardioelectric monitor equipment monitoring arrives is more acurrate.
Further, on first surface and/or second surface remaining 25%-60% area be provided with the first glue-line and/or
Second glue-line, to ensure the electrode firm contact of conducting medium and human body or cardioelectric monitor equipment.
The above is only the preferred embodiments of the utility model, are not intended to limit the utility model, all in the utility model
Principle within made any modification, equivalent replacement and improve etc. should all be comprising within the protection scope of the utility model.
Claims (10)
1. a kind of conduction pad pasting, for cardioelectric monitor equipment to be fitted in human skin, and makes the electrode of cardioelectric monitor equipment
It is electrically connected with human skin characterized by comprising
Substrate, conducting medium, the first glue-line and the second glue-line;
The substrate includes opposite first surface and second surface, is provided on substrate through first surface and second surface
Through-hole, the substrate is divided into through hole area and supporting region by the through-hole;
First glue-line fits in the supporting region of first surface, and encloses the through hole area for setting first surface in a ring;The fitting of second glue-line
In the supporting region of second surface, and the through hole area for setting second surface is enclosed in a ring;The conducting medium exposes to through hole area,
When one glue-line or the second glue-line fit in cardioelectric monitor equipment, the conducting medium is bonded with the electrode surface of cardioelectric monitor equipment and connects
Touching.
2. conduction pad pasting as described in claim 1, it is characterised in that:
The area ratio of surface area and first surface that the conducting medium exposes to the first glue-line is 40%-85%.
3. conduction pad pasting as described in claim 1, it is characterised in that:
The area ratio of surface area and first surface of first glue-line far from substrate is 25%-60% and/or the second glue-line far from base
The surface area of plate and the area ratio of second surface are 25%-60%.
4. conduction pad pasting as described in claim 1, it is characterised in that:
The substrate is flexible base board, with a thickness of 0.1~1.5mm.
5. conduction pad pasting as described in claim 1, it is characterised in that:
First glue-line and/or the second glue-line are pressure-sensitive adhesive layer.
6. conduction pad pasting as described in claim 1, it is characterised in that:
The conducting medium is conducting resinl, and the area of conducting resinl is greater than or equal to the area of through-hole.
7. conduction pad pasting as described in claim 1, it is characterised in that:
The conduction pad pasting further includes gripping member, the edge connection of the gripping member and substrate, for providing gripping for user.
8. conduction pad pasting as described in claim 1, it is characterised in that:
The conduction pad pasting further includes the first release layer, and first release layer fits in surface of first glue-line far from substrate.
9. conduction pad pasting as claimed in claim 8, it is characterised in that: the conduction pad pasting further includes the second release layer, described
Second release layer fits in surface of second glue-line far from substrate.
10. a kind of electrocardiograph monitoring device characterized by comprising cardioelectric monitor equipment and conductive pad pasting;The cardioelectric monitor is set
Standby includes first electrode component, second electrode component and electrode connecting line, electrode connecting line be electrically connected first electrode component and
Second electrode component;
The conduction pad pasting includes substrate, conducting medium, the first glue-line and the second glue-line;
The substrate includes opposite first surface and second surface, is provided on substrate through first surface and second surface
Through-hole, the substrate is divided into through hole area and supporting region by the through-hole;
First glue-line fits in the supporting region of first surface, and encloses the through hole area for setting first surface in a ring;The fitting of second glue-line
In the supporting region of second surface, and the through hole area for setting second surface is enclosed in a ring;
The conducting medium exposes to through hole area, when conductive pad pasting fits in the cardioelectric monitor equipment, conducting medium and
The touching of the electrode paste splice grafting of one electrode assembly and second electrode component.
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CN201721923178.9U CN209059195U (en) | 2017-12-29 | 2017-12-29 | A kind of conduction pad pasting and electrocardiograph monitoring device |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN108392197A (en) * | 2017-12-29 | 2018-08-14 | 深圳市亮动科技开发有限公司 | A kind of conduction pad pasting and electrocardiograph monitoring device |
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2017
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN108392197A (en) * | 2017-12-29 | 2018-08-14 | 深圳市亮动科技开发有限公司 | A kind of conduction pad pasting and electrocardiograph monitoring device |
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