CN209032353U - Radio electrocardiographicmonitoring monitoring lead device - Google Patents

Abstract

The utility model relates to radio electrocardiographicmonitoring monitoring lead devices, including main body, refer to arteries and veins oxygen probe, the connecting tube for connecting with blood pressure cuff and multiple electrodes for being connected with human body, the electrode is connect by conducting wire with main body, blood pressure measuring device built in the main body and wireless signal sending device, refer to that arteries and veins oxygen probe is connect with main body, blood pressure measuring device is connect with connecting tube, and main body is stretched out in connecting tube free end；Conducting wire is stretching structure, and electrode is used for and has adhesive area on the contact surface of skin contact.The utility model can realize that information butt joint facilitates turn-over bed for patient without limitation on patient activity with terminal ECG monitor by wireless signal sending device, avoid that accident occurs；It is easy to operate, it can reduce workload；Electrode is connected by bonding method and skin contact, and the connector of conducting wire is connected by magnetic action with contact electrode slice, and when not in use, contact electrode slice can be retained in patient, given over to and used next time, be can avoid pasting repeatedly and is caused skin injury.

Description

Radio electrocardiographicmonitoring monitoring lead device

Technical field

The utility model relates to technical field of medical equipment more particularly to radio electrocardiographicmonitoring monitoring lead devices.

Background technique

Cardiac monitoring patient limits patient activity, use is extremely inconvenient because various conducting wires connect ECG monitor；It is right In the cardiac monitoring patient of critically ill patients bed for a long time, timing turning over is needed, various conducting wires make medical staff's operation extremely not It is convenient, increase working time and workload, and when outer intentionally occur.

Utility model content

The utility model is intended to provide radio electrocardiographicmonitoring monitoring lead device, is transmitted using communication, facilitates patient It is turned over, while can reduce workload.

In order to achieve the above objectives, the technical solution adopted in the utility model is as follows:

Radio electrocardiographicmonitoring monitoring lead device, including main body, refer to arteries and veins oxygen probe, the connecting tube for being connect with blood pressure cuff and Multiple electrodes for being connected with human body, the electrode are connect by conducting wire with main body, and blood pressure measurement built in the main body fills It sets and is connect with wireless signal sending device, the finger arteries and veins oxygen probe with main body, blood pressure measuring device is connect with connecting tube, connecting tube Main body is stretched out in free end, and blood pressure measuring device refers to that arteries and veins oxygen probe and electrode and wireless signal sending device communicate to connect.

Further, conducting wire is stretching structure.

Further, electrode is used for and has adhesive area on the contact surface of skin contact.

Further, electrode includes contact electrode slice, and the peripheral annular region for contacting the contact surface of electrode slice is equipped with viscose glue Layer.

Further, conducting wire is connect with electrode magnetic.

Further, conducting wire includes connector and insulated conductor, and connector is connect with insulated conductor, the connector packet Electrode section and magnet part are included, the core and electrode section of insulated conductor are electrically connected；The contact electrode slice of electrode contains magnetic Property material, when the magnet part of connector and contact electrode slice are attracted, contact electrode slice electrode section with connector simultaneously Contact.

Preferably, the contact electrode slice is that ferrous components contact electrode slice.

Preferably, the electrode section is circle, and magnet part is annular, and electrode section, which is located in magnet part, encloses；Institute Contact electrode slice is stated as circle, the diameter for contacting electrode slice is greater than the diameter of electrode section.

Further, there is conducting wire chamber in the main body, fixing axle is installed in conducting wire chamber, wind spring is crimped onto solid On dead axle, there is line wheel in wind spring periphery, and line wheel is connect with wind spring, and conducting wire is wrapped in line wheel, and master is stretched out in the free end of conducting wire Body.

Further, there is velcro adhesive surface at the main body back side.

It further, further include blood pressure cuff.

Compared with prior art, the utility model has the following beneficial effects:

1, electrode is realized by contractile conducting wire and main body and is connected in the utility model, is passed through wireless signal and is sent dress Setting can realize that information butt joint facilitates turn-over bed for patient without limitation on patient activity with terminal ECG monitor, avoid that accident occurs； It is easy to operate, it can reduce workload；

2, the utility model electrode is connected by bonding method and skin contact, the connector of conducting wire by magnetic action with It contacts electrode slice to be connected, when not in use, contact electrode slice can be retained in patient, given over to and used next time, not had to again carefully Confirm electrode installation site, improve working efficiency, while can avoid pasting repeatedly and causing skin injury.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of embodiment one；

Fig. 2 is the main view of electrode contact surface；

Fig. 3 is the cross-sectional view of electrode；

Fig. 4 is the main view of connector joint face；

Fig. 5 is the cross-sectional view of connector；

Fig. 6 is schematic diagram when connector is pulled together with electrode；

Fig. 7 is the structural schematic diagram of conducting wire in embodiment one；

Fig. 8 is the structural schematic diagram of line wheel；

Fig. 9 is the schematic diagram at the main body back side；

Figure 10 is the structural schematic diagram of conducting wire in embodiment two；

Figure 11 is the structural schematic diagram of example IV；

In figure: 1- main body, 2- electrode, 3- conducting wire, 4- fixing axle, 5- wind spring, 6- line wheel, 7- conducting wire chamber, 8- lock Tight device, 9- conductor loop, 10- connecting tube, 11- refer to arteries and veins oxygen probe, 12- velcro adhesive surface, 13- blood pressure measuring device, 14- blood Cuff, 21- is pressed to contact electrode slice, 22- adhesive-layer, the hand-held part 23-, 31- insulated conductor, 32- connector, 311- core, 321- Electrode section, 322- magnet part.

Specific embodiment

In order to make the purpose of the utility model, technical solutions and advantages more clearly understood, below in conjunction with attached drawing, to this reality It is further elaborated with novel.

Embodiment one

As shown in Figure 1, 2, radio electrocardiographicmonitoring monitoring lead device disclosed in the present embodiment, including main body 1, refer to arteries and veins oxygen probe 11, the connecting tube 10 for connecting with blood pressure cuff and multiple electrodes 2 for being connected with human body, the number of electrode 2 is according to need It is arranged, usually, electrode 2 has 5, respectively RA, RL, C, LA and LL.Electrode 2 is connect by conducting wire 3 with main body 1, Blood pressure measuring device 13 built in main body 1 and wireless signal sending device, the finger arteries and veins oxygen probe 11 are connect with main body 1, and blood pressure is surveyed Amount device 13 is connect with connecting tube 10, and main body is stretched out in 10 free end of connecting tube.Connecting tube 10 can be connect with blood pressure cuff, for surveying It takes blood pressure.

Blood pressure measuring device 13 refers to that arteries and veins oxygen probe 11 and electrode 2 and wireless signal sending device communicate to connect, wireless signal Sending device be used for by electrode 2, refer to that arteries and veins oxygen probe 11 and the collected signal of blood pressure measuring device 13 are transmitted to ECG monitor, ECG monitor has wireless signal receiver.Wireless signal transmission can be bluetooth, wifi etc..

As shown in Figure 2,3, electrode 2 includes contact electrode slice 21, contacts the peripheral annular region of the contact surface of electrode slice 21 Equipped with adhesive-layer 22, there is hand-held part 23 at 22 edge of adhesive-layer；Adhered layer Pasting is with patient.Adhesive-layer 22 may be selected medical Paster.

In the present embodiment, conducting wire 3 is connect with 2 magnetic of electrode.As shown in Figure 4,5, conducting wire 3 include connector 32 and absolutely Edge conducting wire 31, connector 32 are connect with insulated conductor 31, and connector 32 includes electrode section 321 and magnet part 322, and insulation is led The core 311 and electrode section 321 of line 31 are electrically connected；The contact electrode slice 21 of electrode contains magnetic material, energy and magnet portion 322 are divided to be attracted.Preferably, contact electrode slice 21 is that ferrous components contact electrode slice.

As shown in fig. 6, contacting electrode when the top surface of the magnet part 322 of connector 32 and contact electrode slice 21 is attracted The top surface of piece 21 and the electrode section 321 of connector 32 connect.And 22 Pasting of adhesive-layer at 2 contact surface of electrode is in trouble With person.Preferably, electrode section 321 is circle, magnet part 322 is annular, and electrode section 321 is located at magnet part It is enclosed in 322；The contact electrode slice 21 is circle, and the diameter of contact electrode slice 21 is greater than the diameter of electrode section 321.

For convenience of storage conducting wire 3, conducting wire 3 is stretching structure in the present embodiment.As shown in Fig. 1,7, led in main body 1 On line chamber 7 is equipped with fixing axle 4 in conducting wire chamber 7, and wind spring 5 is crimped onto fixing axle 4, and there are line wheel 6, line in 5 periphery of wind spring Wheel 6 is connect with wind spring 5, and conducting wire 3 is wrapped in line wheel 6, and the connector 32 of 3 free end of conducting wire stretches out main body 1, and line wheel 6 is Conductor, the core 311 and line wheel 6 of conducting wire 3 are electrically connected, and line wheel 6 is electrically connected with wireless signal sending device again.Such as Fig. 9 institute Show, a circle conductor loop 9 can be wound in line wheel 6, such line wheel 6 is remained with conductor loop 9 during rotation to be contacted, conducting wire Ring 9 has an external tail, for connecting with other elements.Of course, main body 1 is provided with for preventing insulated conductor 31 from bouncing back Spring button, spring cord lock etc. may be selected in locking device 8, locking device 8.Conducting wire in certain the present embodiment retracts automatically and Structure identical with steel tape can also be used in locking.Refer to that arteries and veins oxygen probe 11 is connect also by stretch conducting wire with main body 1.

As shown in figure 9, there is velcro adhesive surface 12 at 1 back side of main body, main body 1 can be sticked to by blood by velcro adhesive surface 12 It presses on cuff.

Embodiment two

The difference between this embodiment and the first embodiment lies in: as shown in Figure 10, conducting wire 3 is flexible spiral knot in the present embodiment Structure, the curling of insulated conductor 31 is adjustable spring structure, and one end is connect with main body 1, and the other end is connect with connector 32.

Embodiment three

The present embodiment and the difference of embodiment one or two are: ecg signal acquiring module built in main body 1 or electrode 2 connects Electric shock pole piece 21 and wireless signal sending device are electrically connected with ecg signal acquiring module.Ecg signal acquiring module includes Amplifier and filter are handled so as to dock the electrocardiosignal that electric shock pole piece 21 obtains in real time.Wireless signal is sent The collected signal of ecg signal acquiring module is transmitted to ECG monitor by device.

Example IV

As shown in figure 11, the present embodiment further includes blood pressure cuff 14.Have on blood pressure cuff 14 suitable with velcro adhesive surface 12 The adhesive surface matched.

Certainly, the utility model can also have other numerous embodiments, without departing substantially from the spirit of the present invention and its essence In the case where, those skilled in the art can make various corresponding changes and modifications, but these according to the utility model Corresponding changes and modifications all should belong to the protection scope of the utility model the attached claims.

Claims (10)

1. radio electrocardiographicmonitoring monitoring lead device, it is characterised in that: including main body, refer to arteries and veins oxygen probe, for connecting with blood pressure cuff Connecting tube and multiple electrodes for being connected with human body, the electrode is connect by conducting wire with main body, built in the main body Blood pressure measuring device and wireless signal sending device, the finger arteries and veins oxygen probe are connect with main body, blood pressure measuring device and connecting tube Main body is stretched out in connection, connecting tube free end, and blood pressure measuring device refers to that arteries and veins oxygen probe and electrode are communicated with wireless signal sending device Connection.

2. radio electrocardiographicmonitoring monitoring lead device according to claim 1, it is characterised in that: conducting wire is stretching structure.

3. radio electrocardiographicmonitoring monitoring lead device according to claim 1, it is characterised in that: electrode is used for and skin contact There is adhesive area on contact surface.

4. radio electrocardiographicmonitoring monitoring lead device according to claim 1,2 or 3, it is characterised in that: conducting wire and electrode magnetic Inhale connection.

5. radio electrocardiographicmonitoring monitoring lead device according to claim 4, it is characterised in that: conducting wire include connector and absolutely Edge conducting wire, connector are connect with insulated conductor, and the connector includes electrode section and magnet part, the core of insulated conductor with Electrode section is electrically connected；The contact electrode slice of electrode contains magnetic material, when the magnet part and contact electrode slice of connector When actuation, contact electrode slice is contacted with the electrode section of connector simultaneously.

6. radio electrocardiographicmonitoring monitoring lead device according to claim 5, it is characterised in that: the contact electrode slice be iron at Tap electric shock pole piece.

7. radio electrocardiographicmonitoring monitoring lead device according to claim 5, it is characterised in that: the electrode section is circle, Magnet part is annular, and electrode section, which is located in magnet part, encloses；The contact electrode slice is circle, contacts the diameter of electrode slice Greater than the diameter of electrode section.

8. according to radio electrocardiographicmonitoring monitoring lead device described in claim 2,5 or 7, it is characterised in that: led in the main body On line chamber is equipped with fixing axle in conducting wire chamber, and wind spring is crimped onto fixing axle, and there are line wheel, line wheel and volume in wind spring periphery Spring connection, conducting wire are wrapped in line wheel, and main body is stretched out in the free end of conducting wire.

9. radio electrocardiographicmonitoring monitoring lead device according to claim 1, it is characterised in that: there is velcro stickup at the main body back side Face.

10. according to claim 1 or radio electrocardiographicmonitoring monitoring lead device described in 9, it is characterised in that: further include blood pressure cuff.