CN208551797U - A kind of cardioelectric monitor equipment - Google Patents
A kind of cardioelectric monitor equipment Download PDFInfo
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- CN208551797U CN208551797U CN201721923191.4U CN201721923191U CN208551797U CN 208551797 U CN208551797 U CN 208551797U CN 201721923191 U CN201721923191 U CN 201721923191U CN 208551797 U CN208551797 U CN 208551797U
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- end cover
- cardioelectric monitor
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- Measurement And Recording Of Electrical Phenomena And Electrical Characteristics Of The Living Body (AREA)
Abstract
The utility model provides a kind of cardioelectric monitor equipment, including first electrode component, second electrode component and connecting line;The both ends of the connecting line are electrically connected with the first electrode component and second electrode component respectively;The first electrode component includes first end cover, second end cover, first electrode sheet, first circuit board and vibrator;The first end cover is connected with second end cover cooperatively forms the accommodation space with opening, and the first circuit board is contained in accommodation space, and the first electrode sheet and the first circuit board are electrically connected and partially expose to the opening;The thickness of first electrode component is gradually successively decreased by thick middle thin edge, interior thickness to edge, and the vibrator is located in 1.25 times of most thin thickness to the holding area between maximum gauge of electrode assembly.The cardioelectric monitor equipment vibrator feedback effects are more preferable and whole ultralight ultra-thin, are more advantageous to and are bonded with body surface.
Description
[technical field]
The utility model relates to health medical treatment technical field, in particular to a kind of cardioelectric monitor equipment.
[background technique]
Cardiac problems are one of health problems concerned by people, and by years of researches and clinical real example, electrocardiosignal can
Accurately to detect and judge the cardiac health of a people substantially.The people of attention due to to(for) cardiac problems, goes out on the market
Many portable cardiac monitoring devices for being used to record cardiomotility are showed, can be convenient people and acquire and supervise in daily life
Control electrocardiosignal.
It is provided with anomalous ecg warning device in existing cardioelectric monitor equipment, usually vibrator, the equipment is collected
When ecg information occurs abnormal, vibrator can issue vibration alarm so that user knows that the equipment monitoring has arrived anomalous ecg
Information, to take timely measure.
However the vibrator feedback effects in existing cardioelectric monitor equipment are bad, and due to placing shake inside electrode assembly
The elements such as dynamic device cause the thickness of electrode assembly larger, are unfavorable for being bonded with body surface.
[utility model content]
Of the existing technology in order to overcome the problems, such as, the utility model provides a kind of cardioelectric monitor equipment.
The scheme that the utility model solves technical problem is to provide a kind of cardioelectric monitor equipment, including first electrode component,
Second electrode component and connecting line;The both ends of the connecting line are electric with the first electrode component and second electrode component respectively
Connection;The first electrode component includes first end cover, second end cover, first electrode sheet, first circuit board and vibrator;Institute
It states first end cover and connects the accommodation space for cooperatively forming and there is opening with second end cover, it is empty that the first circuit board is contained in receiving
In, the first electrode sheet and the first circuit board are electrically connected and partially expose to the opening;First electrode component
Thickness is gradually successively decreased by thick middle thin edge, interior thickness to edge, and it is 1.25 times most thin to be located at electrode assembly for the vibrator
In thickness to the holding area between maximum gauge.
Preferably, the thickness of first electrode sheet is between 4mm-8mm, the vibrator be located at the thickness of electrode assembly between
In holding area between 5mm-8mm.
Preferably, the distance of the central point of the first circuit board or center of mass point apart from its edge is between 10-20mm,
The vibrator is electrically connected with first circuit board, and the vibrator and first circuit board edge distance D 3,10mm > D3 >=
6mm。
Preferably, the vibrator is set between first circuit board and first electrode sheet or the vibrator is located at the
One circuit board is far from accommodating structure is arranged in the one side of first electrode sheet or on the first circuit board to accommodate the vibration
Device.
Preferably, the first electrode sheet includes end face area and media contact area interconnected, the end face area and institute
First end cover connection is stated, the media contact area forms a space to far from first circuit board direction recess and with first circuit board
Interlayer;The media contact area exposes to the opening.
Preferably, the arc-shaped structure of media contact area exposed parts.
Preferably, the media contact area includes plastic layer and conductive layer, and the conductive layer is at least wrapped in plastic layer
And expose to the end face of the opening side;The first circuit board is electrically connected with the conductive layer.
Preferably, the first electrode component further includes that at least one conduction plays needle, and the conduction plays described in needle electrical connection
First electrode sheet and the first circuit board, and when first electrode component is installed, first end cover and second end cover fastening
Connection cooperation, the conductive needle that plays are in confined state.
Preferably, the first electrode component further includes cardioelectric monitor chip, the cardioelectric monitor chip and the first circuit
Plate electrical connection;Power Supply Assembly, Power Supply Assembly and cardioelectric monitor are provided in the first electrode component and/or second electrode component
Chip electrical connection.
Compared with prior art, cardioelectric monitor equipment provided by the utility model has the advantage that
By the way that vibrator to be set to the central area of electrode assembly, the thickness of electrode assembly is allowed to accomplish thick middle
Both sides are thin, and the thickness of electrode assembly gradually successively decreases from centre to both sides, so that electrode assembly integrally can be more small and exquisite, light
It is thin, and when vibrator is located within the scope of circuit board central area, vibrator shakes dynamics in vibration and is spread from centre to four sides,
Vibrating effect is more excellent.
By by vibrator be placed between circuit board and electrode slice or the vibrator be located at circuit board far from electricity
One groove or through-hole are set to accommodate the vibrator, the vibrator and circuit board in the one side of pole piece or on the circuit board
Electrical connection issues vibration signal, vibration to vibrator when cardioelectric monitor assemblies monitor occurs abnormal to the ecg information obtained
Device shakes after receiving the vibration signal that cardioelectric monitor component issues, so that user knows that exception occurs in ecg information in time, to the greatest extent
Early make the precautionary measures.
By the way that vibrator accommodating in grasping part, and is set to circuit board far from second end cover side, and and circuit
Plate electrical connection, is realized by circuit board and is electrically connected with cardioelectric monitor chip, make first by interlayer space to accommodate vibrator
The integral thickness of electrode assembly is more frivolous, is more advantageous to electrode assembly and is bonded with body surface.
[Detailed description of the invention]
Fig. 1 is a kind of schematic perspective view of cardioelectric monitor equipment provided by the utility model.
Fig. 2A is the schematic perspective view of connecting line in a kind of cardioelectric monitor equipment provided by the utility model.
Fig. 2 B is the structural schematic diagram of connecting line bending part in a kind of cardioelectric monitor equipment provided by the utility model.
Fig. 2 C is the structural schematic diagram that connecting line is arc-shaped in a kind of cardioelectric monitor equipment provided by the utility model.
Fig. 2 D is the schematic diagram of the section structure of connecting line in a kind of cardioelectric monitor equipment provided by the utility model.
Fig. 2 E is a kind of cross-section structure of distressed structure of connecting line in a kind of cardioelectric monitor equipment provided by the utility model
Schematic diagram.
Fig. 3 A is the partial structurtes signal at the first visual angle of connecting line in a kind of cardioelectric monitor equipment provided by the utility model
Figure.
Fig. 3 B is the partial structurtes signal at the second visual angle of connecting line in a kind of cardioelectric monitor equipment provided by the utility model
Figure.
Fig. 4 A is the configuration schematic diagram of first electrode component in a kind of cardioelectric monitor equipment provided by the utility model.
Fig. 4 B is the schematic diagram of the section structure of first electrode component in a kind of cardioelectric monitor equipment provided by the utility model.
Fig. 5 A is the schematic perspective view of first end cover in a kind of cardioelectric monitor equipment provided by the utility model.
Fig. 5 B is the schematic diagram of the section structure of first end cover in a kind of cardioelectric monitor equipment provided by the utility model.
Fig. 5 C is enlarged structure schematic diagram of Fig. 5 B at A.
Fig. 5 D is the schematic perspective view of second end cover in a kind of cardioelectric monitor equipment provided by the utility model.
Fig. 6 A is the schematic perspective view of first electrode sheet in a kind of cardioelectric monitor equipment provided by the utility model.
Fig. 6 B is the schematic diagram of the section structure of first electrode sheet in a kind of cardioelectric monitor equipment provided by the utility model.
Fig. 6 C is a kind of section of distressed structure of first electrode sheet in a kind of cardioelectric monitor equipment provided by the utility model
Structural schematic diagram.
Fig. 6 D is that first electrode sheet another kind distressed structure cuts open in a kind of cardioelectric monitor equipment provided by the utility model
Face structural schematic diagram.
Fig. 6 E is that first electrode sheet and first end cover match in a kind of cardioelectric monitor equipment provided by the utility model
The schematic diagram of the section structure.
Fig. 6 F is enlarged structure schematic diagram of Fig. 6 E at B.
Fig. 6 G is that first electrode sheet another kind distressed structure cuts open in a kind of cardioelectric monitor equipment provided by the utility model
Face structural schematic diagram.
Fig. 6 H is that another distressed structure of first electrode sheet cuts open in a kind of cardioelectric monitor equipment provided by the utility model
Face structural schematic diagram.
Fig. 7 A is first electrode component and Electricity conductive plaster cooperation in a kind of cardioelectric monitor equipment provided by the utility model
Structural schematic diagram.
Fig. 7 B is first electrode component first end cover and the first electricity in a kind of cardioelectric monitor equipment provided by the utility model
The planar structure schematic diagram of pole piece cooperation.
Fig. 8 A is first electrode component partial structural diagram in a kind of cardioelectric monitor equipment provided by the utility model.
Fig. 8 B is first electrode component part section structural representation in a kind of cardioelectric monitor equipment provided by the utility model
Figure.
Fig. 9 A is the structural representation of vibrator and circuit board cooperation in a kind of cardioelectric monitor equipment provided by the utility model
Figure.
Fig. 9 B is another structure of vibrator and circuit board cooperation in a kind of cardioelectric monitor equipment provided by the utility model
Schematic diagram.
Fig. 9 C is another structure of vibrator and circuit board cooperation in a kind of cardioelectric monitor equipment provided by the utility model
Schematic diagram.
Fig. 9 D is another structure of vibrator and circuit board cooperation in a kind of cardioelectric monitor equipment provided by the utility model
Schematic diagram.
Figure 10 is a kind of distressed structure signal of first electrode component in a kind of cardioelectric monitor equipment provided by the utility model
Figure.
Figure 11 A is second electrode component configuration schematic diagram in a kind of cardioelectric monitor equipment provided by the utility model.
Figure 11 B is a kind of explosion knot of deformation of second electrode component in a kind of cardioelectric monitor equipment provided by the utility model
Structure schematic diagram.
[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.
Referring to Fig. 1, the utility model provides a kind of cardioelectric monitor equipment 1, for detecting human body electrocardio data comprising
First electrode component 11, second electrode component 12 and connecting line 13.13 opposite end of connecting line respectively with first electrode component
11 and second electrode component 12 be electrically connected, pass through the potential difference letter obtained between first electrode component 11 and second electrode component 12
Breath, and dissection process is carried out to potential difference information, to obtain the electrocardiogram data information of human body, which be can be
Electrocardiogram (ECG) data, heart rate information or ecg information and heart rate information have.
A-2D referring to Figure 2 together, connecting line 13 are elastic connecting line, and shape is curved shape, so that user is moving
When state, the first electrode component 11 and second electrode component 12 of cardioelectric monitor equipment 1 are fitted in human skin, can follow flesh
Meat synchronous or extension, so that first electrode component 11 and second electrode component 12 can also stablize acquisition in user movement
Electrocardiogram data information.
Specifically, connecting line 13 includes conducting wire 133 and clad 130, which is electrically connected first electrode component 11
With second electrode component 13, clad 130, which is elastic glue-line, to be the elastic materials such as rubber layer, layer of silica gel.Clad
130 are coated on conducting wire 133 to protect conducting wire 133, while allowing connecting line 13 that elastic deformation occurs in a certain range,
So as to first electrode component 11 and second electrode component 12 follow human muscle's synchronous or extension when can also stablize
Fit in human skin.
The vertical range of 130 opposite end of clad is D, and the value of D meets, 13cm >=D >=5cm, so that in nature
Under state, i.e. cardioelectric monitor equipment 1 is under natural placement status, 12 mass center of 11 mass center of first electrode component and second electrode component
Between distance in threshold range, so that it is guaranteed that potential difference acquired between first electrode component 11 and second electrode component 12
Not only met the minimum requirements of available electrocardiogram data information, but also can accomplish that external environment is smaller to the annoyance level of conducting wire 133,
So that it is guaranteed that available accurate electrocardiogram data information.
Clad 130 includes integrally formed covering body 131 and two end blocks 132, and two end blocks 132 are located at cladding
The opposite end of body 131, two end blocks 132 form detent with first electrode component 11 and second electrode component 12 respectively and match
It closes, so that first electrode component 11 and second electrode component 12 guarantee conducting wire when following human muscle's synchronous or upholding
133 are electrically connected stability with first electrode component 11 and second electrode component 12.
The extending direction of the covering body 131 includes at least a bending part namely curved design, so that it is guaranteed that connecting line 13
For Curve Design.In present embodiment, which includes the first bending part 1311 and the second bending part 1312, is somebody's turn to do
First bending part 1311 and the second bending part 1312 are located at the two sides of 13 extending direction of connecting line, entire covering body
131 be in " S " type.It is appreciated that covering body can also be designed to semicircle, arc, C font or waveform or sine wave
The combination of shape or straight line and curve, as long as generally with the Curve Design of at least one bending part.Conducting wire 133 wraps up
In covering body 131, therefore, the global shape of connecting line 13 follows the global shape of covering body 131, i.e. connecting line 13 is whole in tool
There is the Curve Design of at least one bending part.Bending part is that clad or covering body extend in a first direction, and then bending is to
Two directions extend, and design, 180 ° of 0 ° of > α > are made an angle alpha between first direction and second direction.It that is to say connecting line 13 along first
Direction extends, and then bending extends to second direction, and design, 180 ° of > α > are made an angle alpha between first direction and second direction
0°.As shown in Fig. 2 B and 2C.
Again due to the generally elastic glue-line of clad 130, when cardioelectric monitor equipment 1 is attached to user's body skin surface
When, the distance between two electrode assemblies can with when user moves muscle it is flexible and slight variation occurs, and connecting line
13 Curve Design and elastic telescopic design makes it have certain stretchable range, i.e., when connecting line 13 is in tensional state
When, the connecting line extending direction length between 5-15cm, when connecting line 13 is in unstretched condition, the connecting line
13 extending direction length between 4.5-13.5cm.
Involving for skin can be by elastic connection line absorption, when substantially reducing movement, since muscle is transported during exercise in this way
The dynamic influence that connecting line 13 between two electrode assemblies is stretched, and when user being avoided to move cardioelectric monitor equipment 1 from body
Surface slides to keep the connection of cardioelectric monitor equipment 1 and human skin surface more firm.
In addition to this, for covering body 131 in flat, the width of the covering body 131 is W, with a thickness of H, 2.5mm >=H >=
1.5mm.Preferred configuration is that width W is greater than 2 times of thickness, when cardioelectric monitor equipment 1 is bonded with body surface, connecting line
13 flat design is bonded it more with human body, increases comfort level.
Fig. 2 E is please referred to, in some embodiments, anti-interference layer 134,134, anti-interference layer is further arranged in connecting line 13
Conducting wire 133 is wrapped up between conducting wire 133 and clad 130, further protects interference of the conducting wire 133 by outer annular, preferably
Ground, anti-interference layer 134 are reticulated conductive layer.
3A-3B is please referred to, the thickness of two end blocks 132 of connecting line 13 is greater than the thickness of covering body 131, and end block 132 wraps
Opposite first surface 1321 and second surface 1322 are included, first surface 1321 is flushed with the lower surface of covering body 131, the second table
Face 1322 is higher than the upper surface of covering body 131, and the part for being higher than 131 upper surface of covering body is lug boss 1323.Work as connecting line
When 13 both ends are connect with first electrode component 11 and second electrode component 12, lug boss 1323 is used for and first electrode component 11
With second electrode component 12 fix cooperate, make connecting line 13 with;The connection of two electrode assemblies is more firm.
In other embodiments, the first surface 1321 of end block 132 may be set to be the lower surface for being higher by covering body 131
Lug boss is formed, its fixing can be made to make more to consolidate in first end cover 111 and second end cover 113 in this way.
In other embodiments, end block 132 also could alternatively be a connecting pin for having conductive contact, while in two electricity
It is respectively set on the component of pole and realizes the electroconductive elastic sheet being electrically connected with connecting pin cooperation, connecting pin is removable with two electrode assemblies respectively
Connection is unloaded, and the conductive bullet on the conductive contact and electrode assembly on connecting pin is set when connecting pin is connect with electrode assembly
Piece electrical connection.
Fig. 4 A-4B is please referred to, first electrode component 11 includes shell, first electrode sheet 115, vibrator 112 and electrocardio prison
Survey component 114.The shell is the hollow structure with an opening to form an accommodation space with opening, and shell includes first
End cap 111, second end cover 113, and first end cover 111 and second end cover 113 are fastenedly connected cooperation and have opening to form this
Hollow housing.Cardioelectric monitor component 114 is electrically connected by connecting line 13 with second electrode component 12, first electrode sheet 115, vibration
Device 112 is electrically connected with cardioelectric monitor component 114, and first end cover 111 and second end cover 115 are fastenedly connected to cooperatively form to have and open
When mouth hollow housing, which forms an accommodation space with opening.First end cover 111 and second end cover 115
Be fastenedly connected can by first end cover 111 and second end cover 115 be arranged fastener be interlocked or be threadedly coupled cooperation reality
It is existing, it can also be binded and be realized by glue, can also realize first end cover 111 and second end by using ultrasonic wave integration technology
113 integration of lid, to enhance overall structure connectivity robustness and waterproof and dustproof performance.
It is further appreciated that first end cover 111 and second end cover 113 can be formed by die casting and integrally formed be had
The hollow housing of opening.
Vibrator 112 and cardioelectric monitor component 114 are accommodated in accommodation space, and first electrode sheet 115 is empty by accommodating
Between opening it is exposed, to be electrically connected with human skin, the radius of the first electrode sheet 115 is between 5mm-10mm;The
One surface of the end cap 113 far from second end cover 113 and second end cover 113 are 4mm- far from the spacing between first end cover surface
Whole thickness is in the electricity of 4mm-8mm namely first after 8mm namely first end cover 111 and second end cover 113 are fastenedly connected cooperation
Pole component 11 with a thickness of 4mm-8mm.So that the integral thickness of first electrode component 11 is small, structure is light, light-weight, so that electrocardio
The shaking that monitoring device 1 can also be close to user's skin when user moves, reduce first electrode component 11, simultaneously
Also first electrode component 11 is made to be not easy not falling off.
The disc-shaped structure or class disc-shaped structure that first end cover 111 and second end cover 113 are radius 8mm-20mm, first
After end cap 111 and second end cover 113 are fastenedly connected, the whole flat class pie knot in radius 8mm-20mm of first electrode component 11
Structure.
Further, the thickness of first electrode component 11 is by thick middle, thin edge, and interior thickness gradually successively decreases to edge, with
So that whole present of first electrode component 11 has bending curvature flat structure, so that structure is more small and exquisite, weight is lighter, more
It is suitble to the wearing in user movement.
Cardioelectric monitor component 114 is electrically connected with human skin by the way that first electrode sheet 115 is exposed to obtain electrocardiogram (ECG) data letter
Breath issues shake control to vibrator 112 when cardioelectric monitor component 114 monitors that the electrocardiogram data information obtained occurs abnormal
Signal, vibrator 112 shakes after receiving the shake control signal that cardioelectric monitor component 114 issues, so that user knows in time
There is exception in electrocardiogram (ECG) data, makes the precautionary measures as early as possible.
Please refer to 5A-5C, be provided with the first fastener 1113 in first end cover 111, the first fastener 1113 can be axis,
It can be hole, be also possible to the elastic slice with retaining structures such as card slot, clamp flanges, the first fastener 1113 is used for and second end cover
113 cooperations, so that first end cover 111 and second end cover 113 are interlocked and realize immovable fitting.By in first end cover 111 and
Two end caps 113 are interlocked, so that not having to twist by screw admittedly, so that waterproof performance is more in first end cover 111 and second end cover 113
It is excellent.
The opening of perforative through-hole 1111 namely aforementioned accommodation space is additionally provided in first end cover, in through-hole 1111
Around be provided with first direction locating part 1112, first electrode sheet 115 is exposed by through-hole 1111, first direction locating part
1112 contact with first electrode sheet 115, and first electrode sheet 115 is prevented to be displaced in a first direction, and first direction is horizontal direction.
Preferably, first direction locating part 1112 is cyclic structure, with 115 ring shaped contact of first direction electrode slice, forms annular stop
Structure, to ensure the limit effect to first electrode sheet 115, by annular stop it may also be ensured that first electrode component 11 is prevented
Water, dust-proof effect.
Further, be provided with first seal 1115 on the edge of first end cover 111, first seal 1115 in a ring,
First seal 1115 can be flange or sealing rubber ring, match for forming sealing in first end cover 111 and second end cover 113
It closes, further ensures that the waterproof performance of first electrode component 11 is more excellent.
In some embodiments, it is additionally provided with detent slot 1114 in first end cover 111, for connecing to first end cover 111
The connecting line 13 of touching forms detent, so that the connection of connecting line 13 and first electrode component 11 is more firm, even if pullling connection
Line 13 will not cause connecting line 13 and being electrically connected for first electrode component 11 unstable.
Fig. 5 D is please referred to, is provided in second end cover 113 and 111 first fastener 1113 compatible second of first end cover
Fastener 1131, the second fastener 1131 are interlocked with the first fastener 1113, so that second end cover 113 and first end cover 111
It is fastenedly connected.
Further, it is corresponded in second end cover 113 and is provided with second seal 1132 at first seal 1115, for the
One end cap 111 forms sealing cooperation, further ensures that the waterproof performance of first electrode component 11 is more excellent.
In some embodiments, it is additionally provided with detent slot 1133 in second end cover 113, for connecing to second end cover 113
The connecting line 13 of touching forms detent, so that the connection of connecting line 13 and first electrode component 11 is more firm, even if pullling connection
Line 13 will not cause connecting line 13 and being electrically connected for first electrode component 11 unstable, it is preferable that detent slot 1133 and detent
Slot 1114 matches the retaining structure to be formed to connecting line 13, so that detent effect is more excellent.
Please refer to Fig. 4 A and 6A-6C, first electrode sheet 115 be set to first end cover 111 and cardioelectric monitor component 114 it
Between, the through-hole 1111 of first end cover 111 is exposed to, and be electrically connected with cardioelectric monitor component 114, to obtain human body electrocardio data letter
Breath.
First electrode sheet 115 includes media contact area 1151 interconnected and end face area 1152, end face area 1152 and the
The connection of one end cap 111,111 end faces of first end cover area 1152 provide support.The position-limiting action of phase part 1112 in a first direction
Under, it can not be displaced in a first direction.Media contact area 1151 is recessed to form an annular trough body to far from 113 side of second end cover
Structure, and the size in media contact area 1151 is adapted with through-hole 1111, for being contacted with human skin, media contact area 1151
Bottom surface be annular, polygon circle, it is preferably circular.So as to bigger with the contact area of skin, electrical connection properties are more excellent.
End face area 1152 is located on the edge in the media contact area 1151, and the first locating piece is provided in end face area 1152
1153, it is preferable that the first locating piece 1153 is rectangle, and coplanar with the end face area 1152.First end cover 111 and the first positioning
The second locating piece of setting 1116 is (as shown in Figure 5A) at the corresponding position of part 1153 limits for being formed with the first locating piece 1153
Position cooperation prevents first electrode sheet 115 from rotating relative to first end cover 111 to fix connection.First locating piece 1153 can be
Protrusion is also possible to groove, as long as location fit can be formed with the second locating piece 1116, prevents first electrode sheet 115 opposite
First end cover 111 rotates, and influences the electrical connection stability of first electrode sheet 115.
Fig. 6 B is please referred to, media contact area 1151 includes plastic layer 1154 and conductive layer 1155, and conductive layer 1155 is wrapped in
Plastic layer 1154 exposes to the end face of 1111 side of through-hole, the i.e. end face far from second end cover 113, conductive layer 1155 and circuit board
117 are electrically connected and are electrically connected with the conductive needle 119 that plays, and conductive play when needle 119 is contacted with conductive layer 1155 is in compressive state, with
Ensure to be electrically connected stability.Plastic layer 1154 can be annular resin layer, AB S glue-line or high polymer layer.Plastic layer
1154 have many advantages, such as it is light-weight, it is corrosion-resistant, to mitigate the overall weight of first electrode component 11, so that user is in motion state
When lower use electrocardiograph monitoring device, electrode assembly is also not easy to slide from human skin.Further, have by plastic layer resistance to
The advantages of corrosion, to enhance the corrosion resistance of first electrode sheet 115, can effectively extend first electrode sheet 115 uses the longevity
Life.
Conductive layer 1155 is a metal conducting layer, and conductive metal can be the conductive metals such as gold, silver, chromium, conductive layer 1155
Preferably chromium metal conducting layer.Conductive layer 1155 is formed in the exposed surface of plastic layer 1154, to make first electrode sheet 115
Exposed surface it is conductive, as shown in Figure 6B.In some embodiments, conductive layer 1155 is formed in modeling by plating
1154 exposed surface of glue-line.
Fig. 6 C is please referred to, in some embodiments, end face area 1152 is also formed with conduction on the face far from second end cover 113
Layer 11521, the conductive layer structure and function having the same of the conductive layer 11521 and media contact area 1151.Connect in medium
It touches area 1151 and end face area 1152 and is formed with conductive layer (1155,11521) namely the first electricity far from the surface of second end cover 113
Pole piece 115 is covered with conductive layer (1155,11521) on the surface far from second end cover 113, cardioelectric monitor component 114 and conduction
Layer electrical connection, to obtain electrocardiosignal.
Fig. 6 D is please referred to, in some embodiments, is respectively formed in the outer surface in media contact area 1155 and end face area 1152
There are conductive layer (1155,11521) namely the entire outer surface of first electrode sheet 115 to be all covered with conductive layer (1155,11521), the heart
Pyroelectric monitor component 114 is electrically connected with conductive layer, to obtain electrocardiosignal.The conductive needle 119 that plays is electrically connected with first electrode sheet 115 at this time
, only need to be with first electrode sheet 115 close to second end cover 113 when connecing, namely the surface conductive layer of close cardioelectric monitor component 114 connects
Touching, and conductive play when needle 119 is contacted with conductive layer 1155 is in compressive state, to ensure to acquire in first electrode sheet 115
Electric signal can be with stable delivery to cardioelectric monitor component 114, so that cardioelectric monitor component 114 can accurately obtain cardioelectric monitor
Information.
Fig. 6 E-6F is please referred to, when first electrode sheet 115 and first end cover 111 cooperate, locating part 1112 and end face area 1152
Limit cooperation is formed, the media contact area 1151 of first electrode sheet 115 exposes to first end cover 111 far from second end cover 113
Surface, and surface of the media contact area 1151 far from second end cover 113 and first end cover 111 are far from 114 surface of pyroelectric monitor component
Between with D 1 difference in height, 1 >=0.1mm of 1mm >=D, so as to media contact area 1151 sufficiently with external conductive medium face paste
Splice grafting touching.First electrode sheet 115 be ultrathin type, media contact area 1151 with a thickness of 0.2mm-1mm, the thickness in end face area 1152
Degree is 0.2mm-1mm.It is such to be dimensioned so that first electrode sheet 115 is more frivolous.
Fig. 6 G-6H is please referred to, in some embodiments, 1151 exposed junction of media contact area is away from second end cover 113
The outer surface of side be convexly curved design, similar spherical structure, at least 1151 arcuate curvature of media contact area is outer
There is conductive layer 1155 on dew surface.To further increase the contact area in media contact area 1151 Yu external conductive medium, to increase
The electric conductivity of strong first electrode sheet 115.
Fig. 7 A-7B is please referred to, in some embodiments, cardioelectric monitor equipment 1 further includes Electricity conductive plaster 30, first electrode group
Part 11 when in use, be by fitting in human skin with Electricity conductive plaster 30, Electricity conductive plaster 30 include conducting medium area 301 and
Bonding zone 303, bonding zone 303 is enclosed set on 301 surrounding of conducting medium area, so that Electricity conductive plaster 30 is bonded with first electrode component 11
When, conducting medium area 301 is sufficiently contacted with first electrode sheet 115.
Specifically, when Electricity conductive plaster 30 and first electrode component 11 fit, the media contact area of first electrode sheet 115
1151 touch with 301 face paste splice grafting of conducting medium area, and first electrode sheet 115 is allowed to pass through conducting medium area 301 and skin paste
Splice grafting touching, bonding zone 303 fits in 111 surface of first end cover, sufficiently makes media contact area 1151 and 301 face of conducting medium area
Fitting contact.
Preferably, the area in conducting medium area 301 is greater than the area in media contact area 1151, so that first electrode sheet
115 sufficiently contact with conducting medium area 301, so as to more stable acquisition electrocardiogram data information.
Namely media contact area 1151 passes through part and the common shape of first end cover 111 of the through-hole 1111 of first end cover 111
At the outer surface of first end cover 111,1111 area of through-hole is the 36%-85% of the area of entire 111 outer surface of first end cover,
That is media contact area 1151 exposes to the 36%-85% of the area of first end cover 111 and the area of outer surface, to make first end
115 area accounting 36%-85% of first electrode sheet, can make the fitting body of electrode large area in this way in the outer surface of lid 111
Surface constitutes smooth outer surface with first end cover 111, more simultaneously because 115 surface of first electrode sheet is smooth together
Be conducive to conducting resinl and be attached to body surface, to keep first electrode component 11 and being bonded for body surface stronger.Further, it sticks
It closes area 301 to be bonded with 1151 peripheral circular of media contact area, to ensure that media contact area 1151 is electrically connected stabilization with human body.
It is appreciated that in some embodiments, the electrode of cardioelectric monitor equipment, which is bonded by elastic band with human skin, to be connect
Touching.
Fig. 4 A and Fig. 8 A-8B is please referred to, cardioelectric monitor component 114 and vibrator 112 are electrically connected, cardioelectric monitor component
114 include circuit board 117, cardioelectric monitor chip 118 and conductive bullet needle 119.
Cardioelectric monitor chip 118 is electrically connected with circuit board 117, circuit board 117 by one or more conduction play needle 119 with
First electrode sheet 115 is electrically connected, and conduction plays when needle 119 is electrically connected with first electrode sheet 115 in compressive state, realizes electrocardio prison
It surveys chip 118 to be electrically connected with the stabilization of first electrode sheet 115, so as to monitor human body electrocardio letter by first electrode sheet 115
Number.Conduction, which plays needle 119, can be bullet needle made of elastic conducting material or compressible conductive material, and can be conductive metal
Needle is played, conduction, which plays 119 quantity of needle, can be one, two or more, i.e., at least one.
Specifically, it is provided with location structure 1171 on circuit board 117, which can be locating slot, positioning
Hole or positioning column, preferably locating slot when circuit board 117 is installed on first end cover 111, pass through locating slot realization and first end
The relative positioning of lid 111.
It is additionally provided in circuit board 117 and plays needle location hole 1173, playing needle location hole 1173 can be for one, two or more
A, preferably two are arranged in the edge of 117 opposite sides of circuit board.
Conduction plays the weldering of 119 one end of needle or interference fit is connected to plays needle location hole 1173 in succession, by playing needle location hole 1173
It is electrically connected with the stabilization of circuit board 117, the opposite other end and 115 Elastic Contact of first electrode sheet cooperate, first electrode component 11
When being installed, first end cover 111 and second end cover 113 are fastenedly connected cooperation, and the height that conduction plays needle 119 is compressed, is in
Confined state, it is preferable that when conduction bullet needle 119 is in confined state, height is less than original half, in this way to ensure
The stability of elasticity electrical connection.First electrode sheet 115 may be implemented by elastic force to be electrically connected with conduction bullet the good of needle 119, i.e.,
Realize that cardioelectric monitor chip 118 is electrically connected with the good of first electrode sheet 115.It is appreciated that the conductive needle 119 that plays can also be fixed
In first electrode sheet 115, the opposite other end is electrically connected with 117 elasticity of circuit board, and first electrode sheet may be implemented by elastic force
115, which play the good of needle 119 with conduction, is electrically connected.The conductive needle 119 that plays only is needed to be set to circuit board 117 and first electrode sheet 115
Between, and cooperation is electrically connected with circuit board 117 and 115 elasticity of first electrode sheet.
It is appreciated that in some embodiments, cardioelectric monitor chip 118 can integrate on circuit board 117.
Fig. 9 A is please referred to, first electrode sheet 115 is mounted on the circuit board 117 of first end cover 111 and cardioelectric monitor component 114
Between, and first electrode sheet 115
Media contact area 1151 to far from 113 side of second end cover be recessed so that first electrode sheet 115 and circuit board
An interlayer space 120 is formed between 117.The accommodating of vibrator 112 and is set to circuit board 117 far from the in grasping part 120
Two end caps, 113 side, and be electrically connected with circuit board 117, it is realized by circuit board 117 and is electrically connected with cardioelectric monitor chip 118.It is logical
It crosses interlayer space 120 and makes the integral thickness of first electrode component 11 more frivolous to accommodate vibrator 112.
Please refer to Fig. 9 B, it will be understood that vibrator 112 also can be set separate in circuit board 117 in some embodiments
115 side of first electrode sheet.
Please refer to Fig. 9 C, it will be understood that in some embodiments accommodating structure is arranged on circuit board 117, the appearance
It sets structure and can be and open up groove or through-hole, vibrator 112 is housed in the accommodating structure, so that first electrode component 11
Integral thickness it is more frivolous.The groove or through-hole optimum position are among circuit board 117.
Fig. 9 D is please referred to, in some embodiments, when media contact area 1151 is to far from 117 floor arc-shaped recess of circuit board
When, to increase media contact area 1151 with external conductive medium when being bonded contact area, circuit board 117 and first electrode sheet
It is the low interlayer space in intermediate high both sides that interlayer space 120 is formed by between 115, and the height of the interlayer space is 0.5mm-
1.5mm。
When vibrator 120 is set to circuit board 117 far from 113 side of second end cover, when being placed in the accommodating space 120.
The distance of 117 central point of circuit board or center of mass point apart from its edge is D2,20mm >=D2 >=10mm.Vibrator 120 and circuit board
Distance D3, the 10mm > D3 >=6mm at 117 edges.Namely vibrator 120 can be set in accommodating space 120 apart from circuit board
117 marginal positions are greater than within the scope of one of D3.Preferably, vibrator 120 is set to center or the mass center of circuit board 117
Position.
Since the thickness of first electrode component 11 is by thick middle thin edge, interior thickness gradually successively decreases to edge, the shake
Dynamic device is located in 1.25 times of most thin thickness to the holding area between maximum gauge of electrode assembly.In the present embodiment, first
Electrode assembly 11 with a thickness of 4mm-8mm, the vibrator 120 is located at the thickness of electrode assembly 11 between 5mm-8mm
In holding area, i.e., the described vibrator 120 is located at the central area of electric machine assembly 11.In some embodiments, first electrode group
Not set vibrator in part 11.
Referring to Fig. 10, in some embodiments, inductive switching element 121, inductive switching member are provided on circuit board 117
Part 121 is electrically connected with electrocardio monitor component 14, and specifically, inductive switching element 121 is electrically connected with circuit board 117.The switch sense
Answer element 121 that can incude external switch signal, to control opening or closing for the power switch of electrocardio monitor component 14.It opens
Closing sensing element 121 can be Hall switch, pressure switch etc., preferably Hall switch, and Hall switch can be with magnet or electricity
Magnet cooperation, receives the magnetic wireless signal of magnet or electromagnet, realizes the access of 14 current supply circuit of electrocardio monitor component and breaks
Road, convenient for manipulation and the advantages of compact structure.
Hall switch also could alternatively be light sensation inductive switch in some embodiments, receive external optical signal to realize the heart
The access of electric 14 current supply circuit of monitor component and open circuit control opening or closing for the power switch of electrocardio monitor component 14.
It is understood that inductive switching element 121 can be set on the shell of first electrode component 11 or the receiving of shell is empty
In, as long as inductive switching element 121 is electrically connected with electrocardio monitor component 14, the heart can control by inductive switching element 121
The power switch of electric monitor component 14 checking card or closing.
By the way that inductive switching element 121 is arranged in first electrode component 11, thus in the external nothing of first electrode component 11
Switch element need to be set, so that whole equipment does not have screw that can be open, accomplish good water proof and dust proof effect.
Figure 11 A and Figure 11 B is please referred to, second electrode component 13 includes first end cover 131, second end cover 133, second electrode
Piece 135, second circuit board 137 and second are conductive to play needle 139, wherein first end cover 131, second end cover 133, second electrode sheet
135, second circuit board 137 and the second conductive first end cover played in needle 139 and first embodiment first electrode component 11
111, second end cover 113, first electrode sheet 115, first circuit board 117 and first it is conductive play needle 119 be respectively provided with it is identical
Structure and function, and the thickness of second electrode component 13, by thick middle, thin edge, interior thickness gradually successively decreases to edge, so that
Obtaining whole present of first electrode component 13 has bending curvature flat structure, so that structure is more small and exquisite, weight is lighter, more suitable
Conjunction is worn in user movement, and this will not be repeated here for other same structure and function.
And second electrode component 13 is when in use, and by fitting in human skin, Electricity conductive plaster with Electricity conductive plaster 30
30 with second electrode component 13 when fitting, and the media contact area of second electrode sheet 115 and conducting medium area face paste splice grafting touch, and make
Obtaining second electrode sheet can be contacted by conducting medium area with skin attachement, and bonding zone fits in first end cover surface, sufficiently makes
It obtains media contact area and conducting medium area face paste splice grafting touches,
The place different from first electrode component 11 of second electrode component 13 is that second electrode component 13 includes power supply group
Part 136, Power Supply Assembly 136 are set to inside second electrode component 13, and are electrically connected with second electrode sheet 135 and connecting line 13
(see Fig. 1) powers for cardioelectric monitor component 114.Power Supply Assembly 136 includes that cell device 1361 and wireless charging receive circle
1363, cell device 1361 and 1363 electrical connection of wireless charging reception circle namely the Power Supply Assembly 136 are wireless power component,
When the cardioelectric monitor equipment 1 does not have electric energy, can be charged by way of wireless charging, and then can accomplish more preferably
Waterproof and dustproof effect.
It is appreciated that the Power Supply Assembly 136 is also possible to wired Power Supply Assembly, when Power Supply Assembly 136 wired power supply groups
When part, wireless charging receives circle and replaces with external contact, and external recharging apparatus is by electrically connecting as cell device with external contact
Power supply.
In some embodiments, Power Supply Assembly also can be set in first electrode component, the Power Supply Assembly and power supply group
The structure and function having the same of part 136, namely be appreciated that in first electrode component and/or second electrode component and can set
It is equipped with Power Supply Assembly, Power Supply Assembly is electrically connected with cardioelectric monitor component, is cardioelectric monitor assembly power supply.
In some embodiments, vibrator 132, vibrator 132 and the second electricity also can be set in second electrode component 13
Road plate 137 is electrically connected, and vibrator 132 can receive the anomalous ecg alarm of cardioelectric monitor component to shake.
It is appreciated that vibrator can be set in first electrode component and/or second electrode component, as long as vibrator can
To receive the anomalous ecg alarm of cardioelectric monitor component to vibration.
In some embodiments, in order to realize quick alignment, inside first electrode component 11 and/or second electrode component 12
The magnetic contraposition part of setting, for being adsorbed with external charging equipment by magnetic with fast implement first electrode component 11 and/or
The rapid-aligning of second electrode component 12 is stored, and magnetism contraposition part can be magnet, electromagnet or can be by magnet absorption
Ferromagnetic component, it is preferably magnet which, which aligns part,.
And when wireless power component is arranged in first electrode component 11 and/or second electrode component 12, magnetic can be passed through
Property contraposition part and external wireless charging device cooperate, realize that cardioelectric monitor equipment accurately fast implements wireless charging function.
In some embodiments, second electrode component 13 is provided with inductive switching element, inductive switching element and the second electricity
Road plate 137 is electrically connected.The inductive switching element can incude external switch signal, so that the confession for controlling electrocardio monitor component is established by cable
What is closed opens or closes, without booting, the shutdown of cardioelectric monitor equipment can be realized using external mechanical push button switch.
Inductive switching element can be Hall switch, pressure switch etc., preferably Hall switch, and Hall switch can be with magnet or electromagnetism
Access and the open circuit of wire loop are realized in iron cooperation.
It is appreciated that inductive switching element can be one or more, can be set in first electrode component and/or
In the shell or accommodation space of two electrode assemblies, as long as external switch signal can be incuded, to control electrocardio monitor component
Power switch opens or closes.Inductive switching element can be Hall switch, pressure switch etc., preferably Hall switch, suddenly
Your switch can realize access and the open circuit of wire loop with magnet or electromagnet cooperation, realize opening for cardioelectric monitor equipment
Machine, shutdown.
It is further appreciated that in some embodiments, cardioelectric monitor component is also equipped in second electrode component, and electrocardio is supervised
It surveys component to be electrically connected with second electrode, for monitoring the electrocardiogram data information of human body.
Compared with prior art, cardioelectric monitor equipment provided by the utility model has the advantage that
By the way that vibrator to be set to the central area of electrode assembly, the thickness of electrode assembly is allowed to accomplish thick middle
Both sides are thin, and the thickness of electrode assembly gradually successively decreases from centre to both sides, so that electrode assembly integrally can be more small and exquisite, light
It is thin, and when vibrator is located within the scope of circuit board central area, vibrator shakes dynamics in vibration and is spread from centre to four sides,
Vibrating effect is more excellent.
By by vibrator be placed between circuit board and electrode slice or the vibrator be located at circuit board far from electricity
One groove or through-hole are set to accommodate the vibrator, the vibrator and circuit board in the one side of pole piece or on the circuit board
Electrical connection issues vibration signal, vibration to vibrator when cardioelectric monitor assemblies monitor occurs abnormal to the ecg information obtained
Device shakes after receiving the vibration signal that cardioelectric monitor component issues, so that user knows that exception occurs in ecg information in time, to the greatest extent
Early make the precautionary measures.
By the way that vibrator accommodating in grasping part, and is set to circuit board far from second end cover side, and and circuit
Plate electrical connection, is realized by circuit board and is electrically connected with cardioelectric monitor chip, make first by interlayer space to accommodate vibrator
The integral thickness of electrode assembly is more frivolous, is more advantageous to electrode assembly and is bonded with body surface.
The above is only the preferred embodiment of the utility model only, is not intended to limit the utility model, all at this
Made any modification within the principle of utility model, equivalent replacement and improvement etc. should all include the protection scope of the utility model
Within.
Claims (10)
1. a kind of cardioelectric monitor equipment, it is characterised in that: including first electrode component, second electrode component and connecting line;Institute
The both ends for stating connecting line are electrically connected with the first electrode component and second electrode component respectively;
The first electrode component includes first end cover, second end cover, first electrode sheet, first circuit board and vibrator;
The first end cover is connected with second end cover cooperatively forms the accommodation space with opening, and the first circuit board is contained in
In accommodation space, the first electrode sheet and the first circuit board are electrically connected and partially expose to the opening;
The thickness of first electrode component is gradually successively decreased by thick middle thin edge, interior thickness to edge, and the vibrator is located at electricity
In 1.25 times of most thin thickness to the holding area between maximum gauge of pole component.
2. cardioelectric monitor equipment as described in claim 1, it is characterised in that: the thickness of first electrode sheet is between 4mm-8mm, institute
It states vibrator and is located at the thickness of electrode assembly in the holding area between 5mm-8mm.
3. cardioelectric monitor equipment as described in claim 1, it is characterised in that: the central point or center of mass point of the first circuit board
Distance apart from its edge between 10-20mm, the vibrator and first circuit board edge distance D3,10mm > D3 >=
6mm。
4. cardioelectric monitor equipment as described in claim 1, it is characterised in that: the vibrator is set to first circuit board and
Between one electrode slice perhaps the vibrator be located at first circuit board far from the one side of first electrode sheet or it is described first electricity
Accommodating structure is set on the plate of road to accommodate the vibrator.
5. cardioelectric monitor equipment as claimed in claim 4, it is characterised in that: the first electrode sheet includes end interconnected
Face area and media contact area, the end face area are connect with the first end cover, and the media contact area is to far from first circuit board
Direction recess simultaneously forms a space interlayer with first circuit board;The media contact area exposes to the opening.
6. cardioelectric monitor equipment as claimed in claim 5, it is characterised in that: the arc-shaped knot of media contact area exposed parts
Structure.
7. cardioelectric monitor equipment as claimed in claim 5, it is characterised in that: the media contact area includes plastic layer and leads
Electric layer, the conductive layer are at least wrapped in plastic layer and expose to the end face of the opening side;The first circuit board and institute
State conductive layer electrical connection.
8. the cardioelectric monitor equipment as described in claim 1-7 any one, it is characterised in that: the first electrode component also wraps
It includes at least one conduction and plays needle, the conductive needle that plays is electrically connected the first electrode sheet and the first circuit board, and first
When electrode assembly is installed, first end cover and second end cover are fastenedly connected cooperation, and the conductive needle that plays is in confined state.
9. the cardioelectric monitor equipment as described in claim 1-7 any one, it is characterised in that: the first electrode component also wraps
Cardioelectric monitor chip is included, the cardioelectric monitor chip is electrically connected with first circuit board.
10. cardioelectric monitor equipment as claimed in claim 9, it is characterised in that: the first electrode component and/or second electrode
Power Supply Assembly is provided in component, Power Supply Assembly is electrically connected with cardioelectric monitor chip.
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CN110169769A (en) * | 2019-04-25 | 2019-08-27 | 联想(北京)有限公司 | Electrode and electronic equipment |
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CN110169769A (en) * | 2019-04-25 | 2019-08-27 | 联想(北京)有限公司 | Electrode and electronic equipment |
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