CN217847298U - Teaching equipment for simulating defibrillation monitor - Google Patents

Abstract

The utility model provides a teaching equipment of simulation monitor of defibrillating, including simulation defibrillator, simulation manikin and remote computer control end, the simulation defibrillator includes outside casing, defibrillator host computer, display screen, control panel, defibrillation module and ECG monitor module, and the outside casing surface is provided with display screen and control panel, the defibrillator host computer still is provided with wireless connection module, the defibrillator host computer passes through wireless connection module and remote computer control end wireless connection; the simulation manikin is provided with a defibrillation point and an electrocardiogram monitoring electrode, the defibrillation module is jointed and butted with the defibrillation point, and the electrocardiogram monitoring module is butted with the electrocardiogram monitoring electrode. This device can simulate each item vital sign information of demonstration people in real time through computer control on the defibrillator, and is more directly perceived, and is convenient, carries out electrocardio guardianship experience teaching effect better, and the function is more various, comprehensive, economical and practical.

Description

Teaching equipment of monitor of simulation defibrillation

Technical Field

The utility model relates to a manikin technical field is used in medical training, especially relates to a monitor teaching equipment is defibrillated in simulation.

Background

The existing defibrillator has single function, only can defibrillate, has no other functions, and during the defibrillation process, medical staff usually monitors breath and heartbeat of a patient, but the existing defibrillator has no monitoring function, only can additionally add a special monitoring instrument, is very troublesome, and has higher use cost; after the device is used, dust is easily accumulated or polluted, and a corresponding protection structure and a corresponding placing structure are not arranged.

In the electrocardiograph monitoring teaching, the traditional method is to enable a student to perform experience teaching on an actual patient, but the number of actual cases is small, and the training limit is large.

The simulation system equipment for medical teaching defibrillation and electrocardiographic monitoring is lacked at home and abroad, so that students can only use the monitoring and emergency system equipment in hospitals to carry out clinical study and practice when rescuing patients, but the opportunity is hardly provided for a plurality of students. Therefore, it is necessary to design and manufacture a simulation system device for defibrillation and electrocardiographic monitoring in medical teaching so that the trainees can carry out the monitoring and first-aid training of patients in the usual teaching.

There is a need for a new analog training system that can integrate analog defibrillation and ecg monitoring functions to solve the above-mentioned problems.

Disclosure of Invention

The utility model provides a monitor teaching equipment is defibrillated in simulation carries out technical transformation through guardianship and the instrument training equipment of defibrillating to current electrocardio, and this device is the basic teaching material equipment of being applied to medical colleges and universities, medical health, medical education, red cross, first aid training field. The problem of lack of practical training simulation system equipment of defibrillation and ECG monitoring at present is solved.

In order to achieve the purpose, the utility model adopts the technical proposal that:

a simulation defibrillation monitor teaching device comprises a simulation defibrillator, a simulation manikin and a remote computer control end, wherein the simulation defibrillator comprises an external shell, a defibrillator host, a display screen, a control panel, a defibrillation module and an electrocardiogram monitoring module;

the simulation manikin is provided with a defibrillation point and an electrocardiogram monitoring electrode, the defibrillation module is jointed and butted with the defibrillation point, and the electrocardiogram monitoring module is butted with the electrocardiogram monitoring electrode.

Preferably, the defibrillation module includes a manual defibrillation module and an AED defibrillation module.

Preferably, the manual defibrillation module comprises a defibrillation handle and a connecting wire, a handle connecting slot is arranged on the outer shell, the defibrillation handle is inserted into the handle connecting slot through the connecting wire, and the defibrillation handle is electrically connected with the defibrillator host through the handle connecting slot.

Preferably, the AED defibrillation module includes defibrillation electrode slice and AED connecting wire, be provided with the electrode slice socket on the outside casing, the electrode slice of defibrillating is pegged graft through the AED connecting wire in the electrode slice socket, the electrode slice socket is connected with defibrillator host computer electricity, the electrode slice of defibrillating sets up with the point laminating of defibrillating when using.

Preferably, the electrocardiograph monitoring module comprises an electrocardiograph monitoring probe and an electrocardiograph monitoring lead wire, an electrocardiograph monitoring lead wire socket is arranged on the analog defibrillator, the electrocardiograph monitoring lead wire is electrically connected with the defibrillator host through the electrocardiograph monitoring lead wire socket, the electrocardiograph monitoring probe is arranged at the other end of the electrocardiograph monitoring lead wire, and the electrocardiograph monitoring probe is in butt joint with an electrocardiograph monitoring electrode on the simulated human body model.

Preferably, the upper side and the lower side of the upper chest of the simulated human body model are provided with four electrocardio monitoring electrodes, and the electrocardio monitoring probes and the electrocardio monitoring electrodes are arranged in a one-to-one correspondence manner.

The beneficial effects of the utility model reside in that:

the equipment consists of a simulation defibrillator, a simulation human body model and a computer control end. The device is used for manual defibrillation, AED defibrillation, ECG monitoring lead wire connection, ECG monitoring use, interpretation training and teaching, and can directly observe a simulated person and identify the vital signs of the simulated person on a simulation defibrillation monitor. The utility model discloses a dummy is connected with computer control end and defibrillator, can realize and the dummy between direct interactive, look over and print ECG heart electrograph. This device can simulate each item vital sign information of demonstration people in real time through computer control on the defibrillator, and is more directly perceived, and is convenient, and experience teaching effect is better, and the function is more various, comprehensive, economical and practical.

The remote computer control end can control vital sign data and various ECG values, has a teaching, examination and evaluation system and a theoretical learning mode, is convenient for ECG monitoring use, interpretation training and teaching, is convenient to operate through the remote computer control end (a tablet personal computer or a notebook computer), and is convenient to use.

Drawings

FIG. 1 is a schematic diagram of the module connection of the present invention;

fig. 2 is a schematic diagram of the analog defibrillator of the present invention;

fig. 3 is a schematic diagram of the back side of the analog defibrillator of the present invention;

FIG. 4 is a schematic view of the simulated manikin of the present invention;

the reference numbers illustrate: the electrocardiogram monitoring device comprises an external shell 1, a handle connecting slot 11, an electrode plate socket 12, an electrocardiogram monitoring lead wire socket 13, a power supply interface 14, a display screen 2, a control panel 3, a defibrillation module 4, a manual defibrillation module 41, a defibrillation handle 411, a connecting wire 412, an AED defibrillation module 42, a defibrillation electrode plate 421, an AED connecting wire 422, an electrocardiogram monitoring module 5, an electrocardiogram monitoring probe 51, an electrocardiogram monitoring lead wire 52, a simulated human body model 6, a defibrillation point 61 and an electrocardiogram monitoring electrode 62.

Detailed Description

The following detailed description of the present invention will be made with reference to the accompanying drawings and examples.

Please refer to fig. 1-4, the utility model provides a simulation monitor teaching equipment of defibrillating, including simulation defibrillator, simulation manikin 6 and remote computer control end, the simulation defibrillator includes outside casing 1, defibrillator host computer, display screen 2, control panel 3, defibrillate module 4 and ECG monitor module 5, the defibrillator host computer is installed to outside casing 1 internally, the surface of outside casing 1 is provided with display screen 2 and control panel 3, and defibrillate module 4 and ECG monitor module 5 pass outside casing 1 and defibrillator host computer electricity to be connected, the defibrillator host computer still is provided with the wireless connection module, the defibrillator host computer passes through the wireless connection module and remote computer control end wireless connection;

the simulated human body model 6 is provided with a defibrillation point 61 and an electrocardiogram monitoring electrode 62, the defibrillation module 4 is in fit butt joint with the defibrillation point 61, and the electrocardiogram monitoring module 5 is in butt joint with the electrocardiogram monitoring electrode 62.

The external shell 1 is also provided with a power interface 14, and the defibrillator host is connected with an external power supply through the power interface 14 for supplying power.

Further, the defibrillation module 4 includes a manual defibrillation module 41 and an AED defibrillation module 42.

Further, in order to realize the manual defibrillation function, the manual defibrillation module 41 includes a defibrillation handle 411 and a connection line 412, the external case 1 is provided with a handle connection slot 11, the defibrillation handle 411 is inserted into the handle connection slot 11 through the connection line 412, and the defibrillation handle 411 is electrically connected to the defibrillator host through the handle connection slot 11. An electrode plate is arranged on the bottom surface of the defibrillation handle 411, and the electrode plate of the defibrillation handle 411 is attached to the defibrillation point 61 when in use.

Further, in order to realize the AED function of defibrillating, AED defibrillate module 42 includes defibrillation electrode pad 421 and AED connecting wire 422, be provided with electrode pad socket 12 on the outside casing 1, defibrillation electrode pad 421 passes through AED connecting wire 422 and pegs graft in the electrode pad socket 12, electrode pad socket 12 is connected with the defibrillator host computer electricity, defibrillation electrode pad 421 when using with defibrillate the point 61 laminating setting.

Further, the electrocardiograph monitoring module 5 includes an electrocardiograph monitoring probe 51 and an electrocardiograph monitoring lead 52, the analog defibrillator is provided with an electrocardiograph monitoring lead socket 13, the electrocardiograph monitoring lead 52 is electrically connected with the defibrillator host through the electrocardiograph monitoring lead socket 13, the other end of the electrocardiograph monitoring lead 52 is provided with the electrocardiograph monitoring probe 51, and the electrocardiograph monitoring probe 51 is in butt joint with the electrocardiograph monitoring electrode 62.

Furthermore, four electrocardiograph monitoring electrodes 62 are arranged on the upper side and the lower side of the upper chest of the simulated manikin 6, and the electrocardiograph monitoring probe 51 is arranged on the electrocardiograph monitoring electrodes 62.

The device can observe and simulate different heart rate waveform data of a human in real time;

the device can observe the waveform data of the blood pressure pulse of the analog human in real time;

the device can observe and simulate the blood oxygen saturation and respiration rate waveform data of human in real time;

the device can observe and simulate the body temperature, the cardiac output and the end-expiratory carbon dioxide of a human body in real time;

manual defibrillation and AED defibrillation can be performed by the present device.

The equipment consists of a simulation defibrillator, a simulation human body model and a computer control end. The device is used for manual defibrillation, AED defibrillation, ECG monitoring lead connection, ECG monitoring use and interpretation training and teaching, and can directly observe a simulated person and identify the vital signs of the simulated person on a simulated defibrillation monitor. The utility model discloses a dummy is connected with computer control end and defibrillator, can realize and the dummy between direct interactive, look over and print ECG heart electrograph. This device can simulate each item vital sign information of demonstration people in real time through computer control on the defibrillator, and is more directly perceived, and is convenient, and experience teaching effect is better, and the function is more various, comprehensive, economical and practical.

The remote computer control end can control vital sign data and various ECG values, has a teaching, examination and evaluation system and a theoretical learning mode, is convenient for ECG monitoring use, interpretation training and teaching, is convenient to operate through the remote computer control end (a tablet personal computer or a notebook computer), and is convenient to use.

Finally, although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the present invention can be modified or replaced by other means without departing from the spirit and scope of the present invention, which should be construed as limited only by the appended claims.

The utility model discloses the standard part that uses all can purchase from the market, and dysmorphism piece all can be customized according to the description with the record of drawing of description, and the concrete connection mode of each part all adopts conventional means such as ripe bolt, rivet, welding among the prior art, and machinery, part and equipment all adopt conventional model among the prior art, and conventional connection mode among the circuit connection adoption prior art is not detailed here again.

In the description of the present invention, unless expressly stated or limited otherwise, the terms "mounted," "connected," and "fixed" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral part; can be mechanically or electrically connected; either directly or through an intermediary, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood in a specific case to those skilled in the art.

Claims (6)

1. The teaching equipment of the analog defibrillation monitor is characterized by comprising an analog defibrillation monitor, an analog human body model and a remote computer control end, wherein the analog defibrillation monitor comprises an external shell, a defibrillator host, a display screen, a control panel, a defibrillation module and an electrocardio monitoring module;

the simulated manikin is provided with a defibrillation point and an electrocardiogram monitoring electrode, the defibrillation module is in fit butt joint with the defibrillation point, and the electrocardiogram monitoring module is in butt joint with the electrocardiogram monitoring electrode.

2. The instructional device of claim 1, wherein the defibrillation module comprises a manual defibrillation module and an AED defibrillation module.

3. The device for teaching simulation of defibrillation monitor according to claim 2, wherein the manual defibrillation module comprises a defibrillation handle and a connection wire, the external case is provided with a handle connection slot, the defibrillation handle is inserted into the handle connection slot through the connection wire, and the defibrillation handle is electrically connected with the defibrillator host through the handle connection slot.

4. The teaching equipment of the analog defibrillation monitor according to claim 2, wherein the AED defibrillation module comprises defibrillation electrode pads and AED connection lines, an electrode pad socket is arranged on the external case, the defibrillation electrode pads are inserted into the electrode pad socket through the AED connection lines, the electrode pad socket is electrically connected with a defibrillator host, and the defibrillation electrode pads are attached to defibrillation points when in use.

5. The teaching device of the analog defibrillator according to claim 1, wherein the ecg monitoring module comprises an ecg monitoring probe and an ecg monitoring lead wire, the analog defibrillator is provided with an ecg monitoring lead wire socket, the ecg monitoring lead wire is electrically connected to the defibrillator host through the ecg monitoring lead wire socket, the other end of the ecg monitoring lead wire is provided with the ecg monitoring probe, and the ecg monitoring probe is in butt joint with the ecg monitoring electrode on the simulated manikin.

6. The teaching device of the analog defibrillation monitor according to claim 5, wherein the upper side and the lower side of the chest cavity of the analog manikin are provided with four electrocardiograph monitoring electrodes, and the electrocardiograph monitoring probes are arranged in one-to-one correspondence with the electrocardiograph monitoring electrodes.

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