CN110393523A - Electrode structure, connection component and electrocardiograph monitoring device - Google Patents

Abstract

The invention discloses a kind of electrocardiograph monitoring devices, it includes connection component and electrocardiogram recording instrument, the connection component includes electrode structure and connector, connector is connected to electrocardiogram recording instrument, the electrode structure includes receiving element and lead winding displacement, the both ends of lead winding displacement are connect with receiving element and connector respectively, pass sequentially through lead winding displacement after receiving element receiving electrode signal and connector is transmitted to electrocardiogram recording instrument.The electrocardiograph monitoring device, the first conducting wire for being connected to first electrode fixation is worn on the second electrode, and the second segment being pierced by from second electrode and the second conducting wire are arranged side by side, when in use, it can mutually be wound to avoid the first conducting wire and the second conducting wire, to guarantee the monitoring effect of wear comfort and electrocardiosignal, using effect is good.

Description

Electrode structure, connection component and electrocardiograph monitoring device

Technical field

The present invention relates to area of medical devices more particularly to a kind of electrode structures, connection component and electrocardiograph monitoring device.

Background technique

Dynamic electrocardiogram recording instrument includes electrocardiogram equipment host and cardiac diagnosis lead-line, and recorder can continue subjects Continual electrocardiograph function monitoring, patient can be carried around recorder, and ecg wave form signal can be connected by electrocardiogram equipment and server It connects, and electrocardiogram (ECG) data can be uploaded to hospital monitoring center in real time, be mainly used for being not easy discovering confirmation in a short time and examine Break the diagnostic operation of cardiopathic early stage patient, or for easily causing the patient of sudden heart disease to be monitored, hospital's prison After shield center is by monitoring unusual waveforms or emergency rescue signal, GPS positioning is carried out to patient and finds patient position, is robbed in time It rescues, has played definite effect in quality of medical and nursing reducing the death rate, reduction complication, improving.

Monitoring human body ambulatory ecg signal needs install multiple electrocardioelectrodes on person's body to be monitored, are generally connected by plug Lead winding displacement is connect, lead winding displacement passes through parting-line piece again and is divided into multiply single conducting wire to connect electrocardioelectrode, but when in use, single It is easy mutually winding between conducting wire, had both been unfavorable for the wearing of person to be monitored, while also will affect monitoring effect, using effect It is poor.

Summary of the invention

In view of this, the present invention provides a kind of electrode structure, connection component and electrocardiograph monitoring device, for solving now such as Modern electrocardioelectrode is easy winding mutually when in use, between multiply conducting wire, has both been unfavorable for the wearing of person to be monitored, while It will affect monitoring effect, the poor problem of using effect.

It is to propose a kind of electrocardioelectrode structure up to one of above-mentioned or part or all of purpose or other purposes, the present invention, Include:

Receiving element, including first electrode and second electrode, the first electrode and the second electrode are used to receive electricity Pole signal；And

Lead winding displacement, the lead winding displacement include the first conducting wire and the second conducting wire, and first conducting wire is connected to The first electrode, and it is used for transmission the electrode signal that the first electrode receives, second conducting wire is connected to described Second electrode, and it is used for transmission the electrode signal that the second electrode receives, first conducting wire is fixed on described second On electrode, first conducting wire includes the first segment and second segment being pierced by respectively from the two sides of the second electrode, and described One section is connected to the first electrode, and the second segment and second conducting wire are arranged side by side and are connected with each other.

Optionally, the second electrode has penetrating end and traversing through end, and first conducting wire further includes third section, described The both ends of third section are connected to the first segment and the second segment, and the third section is fixed in the second electrode, The first segment is pierced by the second electrode by the penetrating end, and the second segment is pierced by second electricity by the traversing through end Pole.

Optionally, the second electrode is Y type electrode, and the Y type electrode includes at least two penetrating ends and one The traversing through end, the first electrode at least two, first conducting wire are at least two, and at least two described first Electrode is connected at least two first conducting wires correspondingly, and at least two first conducting wires are respectively from least two A penetrating end penetrates the second electrode and is pierced by together from the traversing through end.

Optionally, the second electrode is I type electrode, and the I type electrode has described in a penetrating end and one Traversing through end, the first electrode at least two, first conducting wire are at least two, and at least two first electrodes It is connected at least two first conducting wires correspondingly, at least two first conducting wires are together from the penetrating end It penetrates the second electrode and is pierced by together from the traversing through end.

Optionally, the first electrode has the first conducting connecting part, and first conducting wire is connected to described first and leads Electrical connector；The second electrode has the second conducting connecting part, and second conducting wire is connected to described second and is conductively connected Part, and first conducting wire and second conducting connecting part interval are arranged.

Optionally, the receiving element further includes third electrode, and the lead winding displacement further includes third conducting wire, the third Conducting wire is connected to the third electrode, and first conducting wire is also fixed on the third electrode, and second lead Line is fixed on the third electrode, and the second segment, second conducting wire and the third conducting wire are side by side and connection is set It sets.

Optionally, the third electrode has third conducting connecting part, and the third conducting wire is connected to the third and leads Electrical connector, and first conducting wire and second conducting wire are arranged with third conducting connecting part interval.

The present invention also provides a kind of connection components, comprising:

Any of the above-described kind of electrode structure；Further include

Connector, first conducting wire and second conducting wire are electrically connected to the connector, the connector For connecting external equipment.

Optionally, this connection component further includes cable buncher, the cable buncher include first connecting pin and several the Two connecting pins, second conducting wire and the second segment penetrate the cable buncher from second connection end described in several respectively, And be pierced by the cable buncher from first connecting pin together, the cable buncher for fix and separate first conducting wire and Second conducting wire.

The present invention also provides a kind of electrocardiograph monitoring devices, comprising:

Any of the above-described kind of connection component；And

Electrocardiogram recording instrument, the electrocardiogram recording instrument are connected to the connector.

Implement the embodiment of the present invention, will have the following beneficial effects:

The electrocardiograph monitoring device wears the first conducting wire for being connected to first electrode fixation on the second electrode, and will The second segment and the second conducting wire being pierced by from second electrode are arranged side by side, when in use, can be to avoid the first conducting wire and second Conducting wire is mutually wound, to guarantee the monitoring effect of wear comfort and electrocardiosignal, using effect is good.

Detailed description of the invention

In order to more clearly explain the embodiment of the invention or the technical proposal in the existing technology, to embodiment or will show below There is attached drawing needed in technical description to be briefly described, it should be apparent that, the accompanying drawings in the following description is only this Some embodiments of invention for those of ordinary skill in the art without creative efforts, can be with It obtains other drawings based on these drawings.

Wherein:

Fig. 1 is the connection component schematic diagram in the embodiment of the present invention four；

Fig. 2 is the structural schematic diagram of first electrode and second electrode of the invention；

Fig. 3 is the connection structure cross-sectional view of I type electrode of the invention；

Fig. 4 is the connection structure cross-sectional view of Y type electrode of the invention；

Fig. 5 is the connection component schematic diagram in the embodiment of the present invention five；

Fig. 6 is the connection structure cross-sectional view of third electrode of the invention；

Fig. 7 is the connection component schematic diagram in the embodiment of the present invention six；

Fig. 8 is electrocardiograph monitoring device schematic diagram of the invention.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other Embodiment shall fall within the protection scope of the present invention.

Embodiment one

As depicted in figs. 1 and 2, the embodiment of the present invention one provides a kind of electrode structure comprising receiving element 1 and lead Winding displacement 2,1 signal of receiving element are connected to lead winding displacement 2, and 1 receiving electrode signal of receiving element is simultaneously transmitted by lead winding displacement 2.

Further, receiving element 1 includes first electrode 101 and second electrode 102, first electrode 101 and second electrode 102 It is respectively used to connect different electrode patch with receiving electrode signal.Lead winding displacement 2 includes the first conducting wire 201 and second simultaneously Conducting wire 202, the first conducting wire 201 and the second conducting wire 202 are connected to first electrode 101 and second electrode 102, and first It is transmitted respectively by the first conducting wire 201 and the second conducting wire 202 after electrode 101 and 102 receiving electrode signal of second electrode.

First conducting wire 201 is fixed in second electrode 102, specifically, the first conducting wire 201 includes first segment, second Section and third section, the both ends of third section are connected to first segment and second segment, and third section is fixed in second electrode 102.

As shown in Figure 2 to Figure 3, second electrode 102 includes penetrating end 1023 and traversing through end 1024, and first segment and second segment divide Second electrode 102 is not pierced by by penetrating end 1023 and traversing through end 1024, first segment is connected to the first electricity far from one end of third section Pole 101, second segment is arranged side by side and is bonded to each other with the second conducting wire 202, to avoid mutually winding between conducting wire.

First electrode 101 include the first shell and the first conducting connecting part 1011, second electrode 102 include second housing and Second conducting connecting part 1025, the first conducting connecting part 1011 are fixed at the position at center in the first shell, the first lead Line 201 is connect after penetrating the first shell with 1011 signal of the first conducting connecting part, after 101 receiving electrode signal of first electrode It is transmitted by the first conducting wire 201；Second conducting connecting part 1025 is fixed at the position at center in second housing, and second leads On line 202 is penetrated after second housing and is connect with 1025 signal of the second conducting connecting part, 102 receiving electrode signal of second electrode it It is transmitted afterwards by the second conducting wire 202.

Be provided with the first wiring groove in second housing, the both ends of the first wiring groove respectively with penetrating end 1023 and traversing through end 1024 is corresponding, and the first wiring groove and the second conducting connecting part 1025 interval are arranged, and third section is fixed in the first wiring groove, Fixation of first conducting wire 201 in second electrode 102 is realized, and it is conductive to can be avoided the first conducting wire 201 and second Connector 1025 contacts and influences the second conducting connecting part 1025 and receive signal.Further, the number of the first conducting wire 201 is extremely It is less one, the number of first electrode 101 is at least one, and at least one the first conducting wire 201 connects correspondingly In at least one first electrode 101, the number of penetrating end 1023 is at least one, and the quantity of traversing through end 1024 is one, at least One the first conducting wire 201 penetrates second electrode 102 from least one penetrating end 1023 respectively and is fixed on the first wiring groove It is interior, and at least one the first conducting wire 201 is pierced by second electrode 102 from traversing through end 1024 together.

Specifically, in the present embodiment, second electrode 102 is I type electrode 1021, the number of penetrating end 1023 is one, The number of first conducting wire 201 is one, and the number of first electrode 101 is one, and the first conducting wire 201 is worn by penetrating end 1023 Enter second housing and be fixed in the first wiring groove, the first conducting wire 201 is pierced by after second housing and the by traversing through end 1024 Two conducting wires 202 are arranged side by side and are bonded to each other.

Embodiment two

As shown in figure 4, the difference between this embodiment and the first embodiment lies in, the second electrode 102 in the present embodiment is Y type electricity Pole 1022, and the number of penetrating end 1023a is two, two interval penetrating end 1023a settings, and two penetrating end 1023a Extending direction between have angle.

The number of first conducting wire 201 is two, and the number of first electrode 101 is two, and two the first conducting wires 201 It is connected to two first electrodes 101 correspondingly；The quantity of first wiring groove is two, and two the first wiring grooves are set respectively The opposite sides in the second conducting connecting part 1025 is set, two article of first conducting wire 201 penetrates from two penetrating end 1023a respectively Two shells are simultaneously separately fixed in two the first wiring grooves, and two the first conducting wires 201 are pierced by second from traversing through end 1024 together It is arranged side by side and is bonded to each other with the second conducting wire 202 after shell.

It is understood that two the first conducting wires 201 and second conducting wire 202 together from second housing side by side It is pierced by, and three sub-thread conducting wires is made to be bonded together into an entirety, can prevent from mutually winding between three conducting wires, together When due to two penetrating end 1023a extending direction have certain angle, so as to avoid the two of two the first conducting wires 201 It contacts with each other and winds between a first segment, to further increase the antiwind effect of this electrode.

Specifically, in the present embodiment, the first conducting connecting part 1011 and the second conducting connecting part 1025 be electrode by Button, is fastened by electrode snap-fastener with electrode patch, with receiving electrode signal.

Embodiment three

As shown in Figures 5 to 7, the embodiment of the present invention is third is that the improvement made on the basis of two, in the present embodiment Receiving element 1 further includes third electrode 103, and lead winding displacement 2 further includes third conducting wire 203, and third conducting wire 203 is connected to third Electrode 103, the first conducting wire 201 are also fixed on third electrode 103, while the second conducting wire 202 also is secured to third electrode On 103, and the first conducting wire 201 and the second conducting wire 202 be pierced by from third electrode 103 together and with third conducting wire 203 are arranged side by side and are bonded to each other.

Specifically, third electrode 103 includes third shell and third conducting connecting part 1031, two are provided in third shell A second wiring groove, the first conducting wire 201 and the second conducting wire 202 are separately fixed at two the second cloth after penetrating third shell In wire casing, third conducting connecting part 1031 is arranged in the position at center in third shell, and two the second wiring grooves are and third The setting of the interval of conducting connecting part 1031, that is, realize the first conducting wire 201 and the second conducting wire 202 on third electrode 103 It is fixed, and can be avoided the first conducting wire 201 and the second conducting wire 202 contacts with third conducting connecting part 1031 and influences third Conducting connecting part 1031 receives signal.

Specifically, in the present embodiment, third conducting connecting part 1031 is electrode snap-fastener, pass through electrode snap-fastener and electrode paste Piece is fastened, with receiving electrode signal.

Example IV

As shown in figure 8, present embodiments providing a kind of electrocardiograph monitoring device comprising connection component and electrocardiogram recording instrument 5, Connection component signal is connected to electrocardiogram recording instrument 5, and electrocardiogram recording instrument 5 passes through the received electrode letter of connection component transmission electrode structure Number.The connection component includes that at least one set of electrode structure, connector 3 and cable buncher 4, connector 3 are connected to electrode structure, electrode The received electrode signal of structure is transmitted to connector 3 by lead winding displacement 2, and cable buncher 4 is fixed on the conducting wire of electrode structure.

Specifically, cable buncher 4 includes first connecting pin and several second connection ends, the first conducting wire 201, second Conducting wire 202 and third conducting wire 203 penetrate from several second connection ends respectively and are fixed on cable buncher 4, pass through cable buncher 4 It by multiply conducting wire and is flat lead winding displacement 2, flat lead winding displacement 2 is bonded with human body, so as to avoid leading It is mutually wound between on line, using effect is good.

As shown in Figure 1, in the present embodiment, the number of the electrode structure is three groups, wherein one group of electrode structure and implementation Electrode structure in example two is identical, and in addition two arrays of electrodes structure is identical as the electrode structure in embodiment one, the sum of conducting wire Mesh is seven, wherein the number of the first conducting wire 201 is four, and the number of the second conducting wire 202 is three, seven conducting wires One end far from electrode is arranged side by side and is bonded to each other, and is fixed on cable buncher 4 while being pierced by from cable buncher 4.

Embodiment five

As shown in figure 5, the difference of the present embodiment and example IV is, the number of the electrode structure is three groups, wherein one Group electrode structure is identical as the electrode structure in embodiment three, in addition two arrays of electrodes structure and the electrode structure phase in embodiment one Together, the total number of conducting wire is seven, wherein the number of the first conducting wire 201 is three, and the number of the second conducting wire 202 is Three, the number of third conducting wire 203 is one, and seven one end of conducting wire far from electrode are parallel and are connected with each other, and fixed It is pierced by cable buncher 4 while from cable buncher 4.

Embodiment six

As shown in fig. 7, the difference of the present embodiment and example IV is, the number of the electrode structure is one group, and the electricity Pole structure is identical as the electrode structure in embodiment three, and further, receiving element 1 further includes the 4th electrode, the 5th electrode and Six electrodes, lead winding displacement 2 further include the 4th lead to connect one to one respectively with the 4th electrode, the 5th electrode and the 6th electrode Line, the 5th conducting wire and the 6th conducting wire, the total number of conducting wire are seven, wherein the number of the first conducting wire 201 is two Item, the second conducting wire 202, third conducting wire 203, the 4th conducting wire, the 5th conducting wire and the 6th conducting wire number be one Item, two article of first conducting wire 201 sequentially pass through and are fixed on second electrode 102, third electrode 103, the 4th electrode, the 5th electricity Pole and the 6th electrode, the second conducting wire 202 sequentially pass through and are fixed on third electrode 103, the 4th electrode, the 5th electrode and the 6th Electrode, third conducting wire 203 sequentially pass through and are fixed on the 4th electrode, the 5th electrode and the 6th electrode, and the 4th conducting wire is successively The 5th electrode and the 6th electrode are passed through and are fixed on, the 5th conducting wire is fixed on the 6th electrode, and seven conducting wires are far from electrode One end side by side and be connected with each other.

It is noted that the connection component of this electrocardiograph monitoring device is not limited in described in example IV to embodiment six Bright structure, in other embodiments, connection component may include any group of electrode structure, and each group of electrode in connection component The specific pattern of structure can be selected in embodiment one, embodiment two and embodiment three as needed.It is understood that The combination of multi-group electrode structure is diversified in connection component, numerous to list herein.

In use, being provided with electrode patch on human skin, conducting connecting part is connect with electrode patch, can be realized Pass through conducting connecting part to receive signal and be delivered to electrocardiogram recording instrument 5 by flat lead winding displacement 2 and recorded, by will be each Conducting wire is fixed on corresponding electrode and lead winding displacement 2 is fixed by cable buncher 4, can to avoid conducting wire it Between mutual winding, to guarantee the monitoring effect of wear comfort and electrocardiosignal, using effect is good.

The above disclosure is only the preferred embodiments of the present invention, cannot limit the right model of the present invention with this certainly It encloses, therefore equivalent changes made in accordance with the claims of the present invention, is still within the scope of the present invention.

Claims (10)

1. a kind of electrode structure, it is characterised in that: include:

Receiving element, including first electrode and second electrode, the first electrode and the second electrode are used to receiving electrode letter Number；And

Lead winding displacement, the lead winding displacement include the first conducting wire and the second conducting wire, and first conducting wire is connected to described First electrode, and it is used for transmission the electrode signal that the first electrode receives, second conducting wire is connected to described second Electrode, and it is used for transmission the electrode signal that the second electrode receives, first conducting wire is fixed on the second electrode On, first conducting wire includes the first segment and second segment being pierced by respectively from the two sides of the second electrode, the first segment It is connected to the first electrode, the second segment and second conducting wire are arranged side by side and are connected with each other.

2. a kind of electrode structure according to claim 1, it is characterised in that: the second electrode has penetrating end and is pierced by End, first conducting wire further includes third section, and the both ends of the third section are connected to the first segment and described second Section, the third section is fixed in the second electrode, and the first segment is pierced by the second electrode by the penetrating end, described Second segment is pierced by the second electrode by the traversing through end.

3. a kind of electrode structure according to claim 2, it is characterised in that: the second electrode is Y type electrode, the Y Type electrode include at least two penetrating ends and a traversing through end, the first electrode at least two, described first Conducting wire is at least two, and at least two first electrodes are connected at least two first leads correspondingly Line, at least two first conducting wires penetrate the second electrode from least two penetrating ends respectively and together from described Traversing through end is pierced by.

4. a kind of electrode structure according to claim 2, it is characterised in that: the second electrode is I type electrode, the I Type electrode has a penetrating end and a traversing through end, the first electrode at least two, first lead Line is at least two, and at least two first electrodes are connected at least two first conducting wires correspondingly, until Few two first conducting wires penetrate the second electrode from the penetrating end together and are pierced by together from the traversing through end.

5. a kind of electrode structure according to any one of claims 1-4, it is characterised in that: the first electrode has the One conducting connecting part, first conducting wire are connected to first conducting connecting part；The second electrode has the second conduction Connector, second conducting wire are connected to second conducting connecting part, and first conducting wire and second conduction The setting of connector interval.

6. a kind of electrode structure according to claim 1, it is characterised in that: the receiving element further includes third electrode, institute Stating lead winding displacement further includes third conducting wire, and the third conducting wire is connected to the third electrode, and first conducting wire is also It is fixed on the third electrode, and second conducting wire is fixed on the third electrode, the second segment, described second Conducting wire and the third conducting wire are side by side and connection setting.

7. a kind of electrode structure according to claim 6, it is characterised in that: the third electrode is conductively connected with third Part, the third conducting wire is connected to the third conducting connecting part, and first conducting wire and second conducting wire are equal It is arranged with third conducting connecting part interval.

8. a kind of connection component, it is characterised in that: include:

Electrode structure described in claim 1-7 any one；Further include

Connector, first conducting wire and second conducting wire are electrically connected to the connector, and the connector is used for Connect external equipment.

9. a kind of connection component according to claim 8, it is characterised in that: further include cable buncher, the cable buncher includes One the first connecting pin and several second connection ends, second conducting wire and the second segment are respectively from described in several the Two connecting pins penetrate the cable buncher, and are pierced by the cable buncher from first connecting pin together, and the cable buncher is for solid Determine and separates first conducting wire and second conducting wire.

10. a kind of electrocardiograph monitoring device, it is characterised in that: include:

A kind of connection component described in claim 8 or 9；And

Electrocardiogram recording instrument, the electrocardiogram recording instrument are connected to the connector.