CN212015582U - First aid is with no line electrocardiograph that leads - Google Patents

Abstract

The utility model provides a first aid is with no line electrocardiograph that leads, lead electrode, wireless limbs including electrocardiograph, wireless communication module, comprehensive power supply unit, wireless chest, be equipped with in the electrocardiograph wireless communication module, the electrocardiograph bottom is equipped with comprehensive power supply unit, wireless chest lead electrode with wireless limbs lead the electrode setting and be in the comprehensive power supply unit. The beneficial effects of the utility model are that the method of adopting the wireless connection electrode makes staff in use more simple and convenient, has solved the wire and has taken place the inconvenience that the intertwine problem caused in using to deposit, has also solved the problem of mutual influence between the wire of multiunit apparatus when using on patient's health simultaneously. Meanwhile, the added portable power supply charges the wirelessly connected electrodes in a normal state, and is used as a standby power supply to supply power to the electrocardiogram machine when the electrocardiogram machine is short of electric quantity, so that the endurance time is prolonged, and the portable power supply is suitable for being used in emergency treatment.

Description

First aid is with no line electrocardiograph that leads

Technical Field

The utility model relates to the field of medical equipment, more specifically say and relate to a first aid is with no line electrocardiograph that leads.

Background

In clinical work, do electrocardiographic examination for the patient at every turn, often can meet the condition that electrocardiograph lead wire twines together, especially when the patient has other monitor system's lead wire on one's body simultaneously, the lead wire of two kinds of equipment more can interweave the winding, can influence the operation effect on the one hand, influences the transmission of signal, still can lead to the lead wire to drop because the lead wire drags, tractive etc. in addition, influence the instrument and use.

In emergency treatment, a patient is required to be quickly and accurately examined and treated, a central electrograph in the prior art adopts a wired connection mode, leads are easily intertwined together during movement to influence the rescue speed, and other instruments in contact with the body of the patient are easily influenced to influence the rescue speed.

The problems of the existing electrocardiograph are that the electrodes are connected through the leads, a large number of leads are intertwined, the electrocardiograph has the problem of small battery capacity, the problem that the electrocardiograph needs to be charged frequently after being used also exists in a hospital, the problem is not obvious in daily hospital monitoring and using, however, the electrocardiograph is a great hidden danger in first aid, related problems are easily ignored in frequent treatment and emergency treatment, and potential safety hazards are caused. Third, most of the prior art uses the suction electrode, however, the suction electrode is not suitable for the amplifier with low input impedance and long-term monitoring because the contact surface is too small, which causes the impedance and the pressure to the skin to be large.

SUMMERY OF THE UTILITY MODEL

The utility model overcomes the defects in the prior art and provides a first-aid wire-free electrocardiograph.

The purpose of the utility model is realized by the following technical scheme.

The utility model provides a first aid is with no line electrocardiograph that leads, includes electrocardiograph, wireless communication module, comprehensive power supply unit, wireless chest lead electrode, wireless limbs lead electrode, be equipped with in the electrocardiograph wireless communication module, the electrocardiograph bottom is equipped with comprehensive power supply unit, wireless chest lead electrode with wireless limbs lead electrode sets up in the comprehensive power supply unit.

The comprehensive power supply device comprises a host connecting base, a power supply shell, a wireless lead electrode storage chamber and a storage battery, wherein the host connecting base is provided with the upper end of the electrocardiograph, the host connecting base is provided with the bottom end of the power supply shell and the wireless lead electrode storage chamber, the power supply shell and the wireless lead electrode storage chamber are connected and arranged, and the storage battery is arranged in the power supply shell.

The wireless electrode apotheca that leads includes apotheca main part, dodge gate and the wireless electrode that leads stores and fills can the device, the apotheca main part with the dodge gate is connected through the pivot, the inside multiunit wireless electrode that leads that is equipped with of apotheca main part is stored and is filled can the device.

The wireless lead electrode storage and energy charging device comprises a device base, a supporting bracket and a charging port, wherein the supporting bracket and the charging port are arranged on the device base.

The wireless chest lead electrode comprises a pressure control device, a remote working device and a contact electrode, wherein the pressure control device and the contact electrode are communicated through the remote working device, an electrode storage battery, a Bluetooth transmission element and an amplifier are arranged in the remote working device, the amplifier is connected with the electrode, the Bluetooth transmission element is connected with the amplifier to realize the function of transmitting measured data, the electrode storage battery is respectively connected with the Bluetooth transmission element and the amplifier to realize the function of supplying power, a charging port is arranged outside the remote working device and connected with the electrode storage battery, and the charging port is matched with the charging port.

The contact electrode comprises a main electrode and an auxiliary electrode, the main electrode is in an inverted bowl shape, the auxiliary electrode is an annular electrode slice, and the auxiliary electrode is arranged at the bottom end of the main electrode to increase the contact surface.

The pressure control device comprises an air bag and a pressure control ring, and the air bag is arranged on the pressure control ring.

The pressure control ring comprises a pressure control inner ring and a pressure control outer ring, the pressure control inner ring is arranged in the pressure control outer ring, an elastic element is arranged on the pressure control inner ring, a vent hole is formed in the pressure control outer ring, an air needle is arranged in the vent hole, an air inlet groove is formed in the outer surface of the air needle, and the air needle is connected with the elastic element to realize the effect that the air needle is communicated with the inside of the pressure control ring through the air inlet groove after being pressed inwards.

The wireless limb lead electrode comprises a limb lead electrode and the remote working device, and the remote working device is arranged on the limb lead electrode.

The host computer is connected the base bilateral symmetry and is equipped with the removal handle.

The utility model has the advantages that: the method of adopting the wireless connection electrode ensures that the staff is more convenient and simpler in use, optimizes the medical process of operation, solves the inconvenience caused by the problem of intertwining of the leads in use and storage, and also solves the problem of mutual influence among the leads when a plurality of groups of instruments are simultaneously used on the body of a patient. The portable power source that increases simultaneously charges to wireless connection's electrode under normal condition, guarantees mechanical continuous use, also can regard as stand-by power supply to its power supply when the electric quantity of electrocardio graph machine lacks, increases duration, is suitable for and uses in the first aid. Meanwhile, the improved contact electrode of the chest lead electrode increases the contact surface, improves the performance of the electrode and simplifies the use mode.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

FIG. 2 is a schematic structural diagram of a wireless lead electrode storage and charging device;

FIG. 3 is a top view of a wireless lead electrode storage and charging apparatus;

FIG. 4 is a schematic diagram of a wireless chest lead electrode configuration;

FIG. 5 is a schematic diagram of the structure of a wireless limb lead electrode;

in the figure: 1 is an electrocardiograph, 2 is a comprehensive power supply device, 3 is a wireless chest lead electrode, 4 is a wireless limb lead electrode, 5 is a host connection base, 6 is a power supply shell, 7 is a wireless lead electrode storage chamber, 8 is a storage battery, 9 is a storage chamber main body, 10 is a movable door, 11 is a wireless lead electrode storage and energy charging device, 12 is a device base, 13 is a support bracket, 14 is a charging port, 15 is a pressure control device, 16 is a remote working device, 17 is a contact electrode, 18 is a charging port, 19 is a main electrode, 20 is an auxiliary electrode, 21 is an air bag, 22 is a pressure control ring, 23 is a pressure control inner ring, 24 is a pressure control outer ring, 25 is an elastic element, 26 is an air vent, 27 is an air needle, 28 is an air inlet groove, and 29 is a mobile handle

Detailed Description

The technical solution of the present invention is further explained by the following specific examples.

Example one

The utility model provides a first aid is with no line electrocardiograph of leading, includes electrocardiograph 1, wireless communication module, comprehensive power supply unit 2, wireless chest lead electrode 3, wireless limbs lead electrode 4, is equipped with wireless communication module in the electrocardiograph 1, and electrocardiograph 1 bottom is equipped with comprehensive power supply unit 2, and wireless chest lead electrode 3 and wireless limbs lead electrode 4 set up in comprehensive power supply unit 2.

The working principle of the technical scheme is as follows, an electrocardiograph 1 is arranged on a comprehensive power supply device 2, a wireless chest lead electrode 3 and a wireless limb lead electrode 4 are arranged in the comprehensive power supply device 2 to perform storage and charging functions in an unused state, the comprehensive power supply device 2 also supplies power to the electrocardiograph 1 under the condition that the electrocardiograph 1 lacks power, body data information of a patient is collected through the wireless chest lead electrode 3 and the wireless limb lead electrode 4 and fed back to a wireless communication module in the using process, and the electrocardiograph 1 performs electrocardiographic drawing.

Example two

Preferably, on the basis of the first embodiment, the integrated power supply device 2 comprises a host connection base 5, a power supply housing 6, a wireless lead electrode storage chamber 7 and a storage battery 8, wherein the electrocardiograph 1 is arranged at the upper end of the host connection base 5, the power supply housing 6 and the wireless lead electrode storage chamber 7 are arranged at the bottom end of the host connection base 5, the power supply housing 6 and the wireless lead electrode storage chamber 7 are connected, and the storage battery 8 is arranged in the power supply housing 6.

The wireless lead electrode storage chamber 7 comprises a storage chamber main body 9, a movable door 10 and a wireless lead electrode storage and energy charging device 11, the storage chamber main body 9 and the movable door 10 are connected through a rotating shaft, and a plurality of groups of wireless lead electrode storage and energy charging devices 11 are arranged inside the storage chamber main body 9.

The wireless lead electrode storage and energy charging device 11 comprises a device base 12, a supporting bracket 13 and a charging port 14, wherein the supporting bracket 13 and the charging port 14 are arranged on the device base 12.

Be equipped with the host computer in the integrated power supply unit 2 and connect base 5, power shell 6, parts such as wireless lead electrode apotheca 7 and battery 8, the host computer is connected base 5 and is played the effect of connecting electrocardiograph 1 and power shell 6 and wireless lead electrode apotheca 7, make the setting that electrocardiograph 1 can be stable on integrated power supply unit 2, power shell 6 plays the effect of storing battery 8, be equipped with general power connecting hole on power shell 6, functions such as charge-discharge have, wireless lead electrode apotheca 7 is to wireless chest lead electrode 3, wireless limbs lead electrode 4 plays the function of storing and charging. The wireless lead electrode storage chamber 7 is internally provided with a wireless lead electrode storage and energy charging device 11 which plays a role in charging and fixing the wireless chest lead electrode 3 and the wireless limb lead electrode 4. Wherein the support bracket 13 and the charging port 14 perform fixing and charging functions, respectively.

Preferably, the wireless chest lead electrode 3 comprises a pressure control device 15, a remote working device 16 and a contact electrode 17, the pressure control device 15 and the contact electrode 17 are communicated through the remote working device 16, an electrode storage battery, a bluetooth transmission element and an amplifier are arranged in the remote working device 16, the amplifier is connected with the electrode, the bluetooth transmission element is connected with the amplifier to realize the function of transmitting measured data, the electrode storage battery is respectively connected with the bluetooth transmission element and the amplifier to realize the power supply function, a charging port 18 is arranged outside the remote working device 16, the charging port 18 is connected with the electrode storage battery, and the charging port 18 is matched with the charging port 14.

The pressure control device 15 is responsible for adjusting the air pressure in the wireless chest lead electrode 3 so that the air pressure can be absorbed on the body surface of a patient, the contact electrode 17 collects patient information data, the amplifier in the remote working device 16 amplifies the electric signal, the Bluetooth transmission element transmits the data to the electrocardiograph 1 and the wireless communication module receives the data, and the electrode storage battery plays a role of providing power for the Bluetooth transmission element and the amplifier.

Preferably, the contact electrode 17 includes a main electrode 19 and an auxiliary electrode 20, the main electrode 19 is a reverse bowl shape, the auxiliary electrode 20 is a circular ring shape electrode plate, and the auxiliary electrode 20 is disposed at the bottom end of the main electrode 19 to increase the contact area.

The annular electrode plate increases the contact area and is convenient to be adsorbed on the surface of the body of a patient.

Preferably, the pressure control device 15 includes an air bag 21 and a pressure control ring 22, and the air bag 21 is disposed on the pressure control ring 22.

The pressure control ring 22 comprises a pressure control inner ring 23 and a pressure control outer ring 24, the pressure control inner ring 23 is arranged in the pressure control outer ring 24, an elastic element 25 is arranged on the pressure control inner ring 23, a vent hole 26 is arranged on the pressure control outer ring 24, an air needle 27 is arranged in the vent hole 26, an air inlet groove 28 is arranged on the outer surface of the air needle 27, and the air needle 27 is connected with the elastic element 25 to realize the effect that the air needle 27 is communicated with the outside and the inside of the pressure control ring 22 through the air inlet groove 28 after being pressed inwards.

Can push air needle 27 inwards through the cooperation of air needle 27 with elastic element 25, through the inside and outside space of air inlet groove 28 intercommunication, put into the intracavity with the air in order to play the effect of eliminating the negative pressure, be convenient for medical personnel take off the device after the measurement.

The negative pressure in the device cavity can be effectively eliminated by installing the pressure control ring 22, so that the device can be conveniently removed from the body of a patient.

The wireless limb lead electrode 4 comprises a limb lead electrode and a remote working device 16, and the remote working device 16 is arranged on the limb lead electrode. The wireless limb lead electrode 4 has reached the effect of wirelessly transmitting measurement data by setting up the remote working device 16.

The two sides of the main machine connecting base 5 are symmetrically provided with a movable handle 29. Is convenient to take and move, and is suitable for carrying and other operations in first aid.

Spatially relative terms, such as "upper," "lower," "left," "right," and the like, may be used in the embodiments for ease of description to describe one element or feature's relationship to another element or feature as illustrated in the figures. It will be understood that the spatial terms are intended to encompass different orientations of the device in use or operation in addition to the orientation depicted in the figures. For example, if the device in the figures is turned over, elements described as "below" other elements or features would then be oriented "above" the other elements or features. Thus, the exemplary term "lower" can encompass both an upper and a lower orientation. The device may be otherwise oriented (rotated 90 degrees or at other orientations) and the spatially relative descriptors used herein interpreted accordingly.

Moreover, relational terms such as "first" and "second," and the like, may be used solely to distinguish one element from another element having the same name, without necessarily requiring or implying any actual such relationship or order between such elements.

The above two embodiments of the present invention have been described in detail, but the above description is only a preferred embodiment of the present invention, and should not be considered as limiting the scope of the present invention. All the equivalent changes and improvements made according to the application scope of the present invention should still fall within the patent coverage of the present invention.

Claims (10)

1. The utility model provides a first aid is with no wire electrocardiograph that leads which characterized in that: including electrocardiograph, wireless communication module, comprehensive power supply unit, wireless chest lead electrode, wireless limbs lead electrode, be equipped with in the electrocardiograph wireless communication module, the electrocardiograph bottom is equipped with comprehensive power supply unit, wireless chest lead electrode with wireless limbs lead electrode sets up in the comprehensive power supply unit.

2. The first-aid wire-free electrocardiograph according to claim 1, wherein: the comprehensive power supply device comprises a host connecting base, a power supply shell, a wireless lead electrode storage chamber and a storage battery, wherein the host connecting base is provided with the upper end of the electrocardiograph, the host connecting base is provided with the bottom end of the power supply shell and the wireless lead electrode storage chamber, the power supply shell and the wireless lead electrode storage chamber are connected and arranged, and the storage battery is arranged in the power supply shell.

3. The first-aid wire-free electrocardiograph according to claim 2, wherein: the wireless electrode apotheca that leads includes apotheca main part, dodge gate and the wireless electrode that leads stores and fills can the device, the apotheca main part with the dodge gate is connected through the pivot, the inside multiunit wireless electrode that leads that is equipped with of apotheca main part is stored and is filled can the device.

4. The first-aid wire-free electrocardiograph according to claim 3, wherein: the wireless lead electrode storage and energy charging device comprises a device base, a supporting bracket and a charging port, wherein the supporting bracket and the charging port are arranged on the device base.

5. The first-aid wire-free electrocardiograph according to claim 4, wherein: the wireless chest lead electrode comprises a pressure control device, a remote working device and a contact electrode, wherein the pressure control device and the contact electrode are communicated through the remote working device, an electrode storage battery, a Bluetooth transmission element and an amplifier are arranged in the remote working device, the amplifier is connected with the electrode, the Bluetooth transmission element is connected with the amplifier to realize the function of transmitting measured data, the electrode storage battery is respectively connected with the Bluetooth transmission element and the amplifier to realize the function of supplying power, a charging port is arranged outside the remote working device and connected with the electrode storage battery, and the charging port is matched with the charging port.

6. The first-aid wire-free electrocardiograph according to claim 5, wherein: the contact electrode comprises a main electrode and an auxiliary electrode, the main electrode is in an inverted bowl shape, the auxiliary electrode is an annular electrode slice, and the auxiliary electrode is arranged at the bottom end of the main electrode to increase the contact surface.

7. The first-aid wire-free electrocardiograph according to claim 6, wherein: the pressure control device comprises an air bag and a pressure control ring, and the air bag is arranged on the pressure control ring.

8. The first-aid wire-free electrocardiograph according to claim 7, wherein: the pressure control ring comprises a pressure control inner ring and a pressure control outer ring, the pressure control inner ring is arranged in the pressure control outer ring, an elastic element is arranged on the pressure control inner ring, a vent hole is formed in the pressure control outer ring, an air needle is arranged in the vent hole, an air inlet groove is formed in the outer surface of the air needle, and the air needle is connected with the elastic element to realize the effect that the air needle is communicated with the inside of the pressure control ring through the air inlet groove after being pressed inwards.

9. The first-aid wire-free electrocardiograph according to claim 8, wherein: the wireless limb lead electrode comprises a limb lead electrode and the remote working device, and the remote working device is arranged on the limb lead electrode.

10. The first-aid wire-free electrocardiograph according to claim 9, wherein: the host computer is connected the base bilateral symmetry and is equipped with the removal handle.

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