CN220773812U

CN220773812U - Automatic external heart and lung resuscitation teaching equipment that removes tremors

Info

Publication number: CN220773812U
Application number: CN202320920240.8U
Authority: CN
Inventors: 张�杰; 段远建; 周其羽
Original assignee: Guangdong Kangwei Technology Co ltd
Current assignee: Guangdong Kangwei Technology Co ltd
Priority date: 2023-04-23
Filing date: 2023-04-23
Publication date: 2024-04-12
Anticipated expiration: 2033-04-23

Abstract

The utility model provides automatic external defibrillation cardiopulmonary resuscitation teaching equipment, which comprises an automatic external defibrillator and a simulation human body model, wherein the simulation human body model comprises a simulation human body, a pressing plate, a pressure sensor, a power module, a control circuit board, a lung bag and a display screen module, the lung bag, the pressing plate, the pressure sensor, the control circuit board and the power module are arranged in the simulation human body, the lung bag is arranged at the lung position of the simulation human body, the pressing plate is arranged above the lung bag, the pressure sensor is arranged at the bottom of the lung bag, the pressure sensor is opposite to the pressing plate, the display screen module is arranged on the outer surface of the simulation human body, and the control circuit board is electrically connected with the display screen module. The utility model can directly observe the simulated person and identify the vital signs of the simulated person on the half body model. Can realize direct interaction with the simulators and check the state of the simulators when the cardiopulmonary resuscitation operation is performed.

Description

Automatic external heart and lung resuscitation teaching equipment that removes tremors

Technical Field

The utility model relates to the field of cardiopulmonary resuscitation teaching equipment, in particular to automatic external defibrillation cardiopulmonary resuscitation teaching equipment.

Background

Cardiopulmonary resuscitation (CPR), which refers to a rescue process such as airway opening, chest compression, artificial mouth and nose respiration, tracheal intubation, external defibrillation, etc. for people to rescue in a short time, and whether the patient is normal and correct in the rescue process is a key to successfully rescue the patient.

In cardiopulmonary resuscitation teaching, the traditional method is to enable students to perform experience teaching on actual patients, but practical cases are fewer, and training limitations are more. Therefore, the above problems can be solved by adopting a cardiopulmonary resuscitation teaching dummy to carry out simulation demonstration and teaching training. However, many cardiopulmonary resuscitation model people in the current industry all need external display screen or electronic box, inconvenient portable and inconvenient operator's real-time data of looking over simultaneously.

The simulation system equipment for medical teaching defibrillation and electrocardiographic monitoring is lacking at home and abroad, so that students can only use the monitoring and first-aid system equipment in a hospital to carry out clinical study and practice when rescuing patients, but the simulation system equipment is difficult to provide the opportunity for a plurality of students. It is therefore necessary to design and manufacture a simulation system device for defibrillation and electrocardiographic monitoring in medical teaching so that a learner can conduct patient monitoring and emergency training in ordinary teaching. The existing analog defibrillation equipment has single function and certain limitation in use.

There is a need for a new analog training system that integrates analog defibrillation and cardiopulmonary resuscitation functions that addresses the above-described problems.

Disclosure of Invention

The utility model provides automatic in-vitro defibrillation cardiopulmonary resuscitation teaching equipment, which can directly observe a dummy on a half body model and identify the vital signs of the dummy. Can realize direct interaction with the simulators and check the state of the simulators when the cardiopulmonary resuscitation operation is performed.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides an automatic external defibrillation cardiopulmonary resuscitation teaching equipment, includes simulation automatic external defibrillator and emulation human model, emulation human model includes simulation human body, push plate, pressure sensor, power module, control circuit board, lung bag and display screen module, install in the simulation human body and be provided with lung bag, push plate, pressure sensor, control circuit board and power module, lung bag sets up the lung position at the simulation human body, lung bag top is provided with the push plate, lung bag bottom is provided with pressure sensor, pressure sensor just sets up to the push plate position, pressure sensor is connected with the control circuit board electricity, and simulation human surface still is provided with the display screen module, control circuit board is connected with the display screen module electricity.

Preferably, the lung bag in the human body of simulation is provided with the chest cap with pressing the board top, be provided with the defibrillation point position respectively on the chest cap outside the left rib position and right chest position upside, the connection of the automatic external defibrillator of simulation is provided with the defibrillation electrode slice, defibrillation electrode slice sets up with the laminating of defibrillation point position, the defibrillation point position sets up with the control circuit board electricity connection.

Preferably, the protrusion of the two sides of the simulated human body is provided with a mounting buckle, the side surface of the front chest cover is provided with a mounting buckle position corresponding to the mounting buckle position, and the mounting buckle is mutually buckled with the mounting buckle position to fix the front chest cover and the simulated human body.

Preferably, the display screen module comprises an abdomen display screen, a left waist side display screen and a right waist side display screen, wherein the abdomen display screen is arranged at the middle position of the waist and abdomen of a simulated human body and is used for displaying defibrillation times and cardiopulmonary resuscitation pressing and blowing parameter information, the left waist side display screen is arranged at the left side surface position of the waist of the simulated human body, the right waist side display screen is arranged at the right side surface position of the waist of the simulated human body, the left waist side display screen is provided with an on-off touch key, a model parameter setting key and a standard rate adjusting key, and the right waist side display screen is used for displaying the connection mode, the product name and model manufacturer information of the model.

Preferably, the bottom surface of the pressing plate is connected with the bottom surface of the simulated human body cavity through a spring assembly, the spring assembly is arranged between the left lung bag and the right lung bag, and the bottom surface of the pressing plate is in abutting arrangement with the upper surface of the lung bag.

Preferably, the mouth of the simulated human body is provided with a mouth opening, the mouth opening is connected with a simulated air pipe, the simulated air pipe penetrates through the simulated human body to be connected with a lung bag, and a one-way valve structure is arranged at the communication part of the simulated air pipe and the lung bag.

Preferably, the analog air pipe is provided with a flowmeter, and the flowmeter is electrically connected with the control circuit board.

Preferably, the lung bag is further connected with an inflation tube, the inflation tube penetrates out of the simulated human body to be connected with an extrusion air bag arranged outside, and a pressure release valve is arranged at the extrusion air bag.

The utility model has the beneficial effects that:

the utility model consists of an analog automatic external defibrillator and an analog human body model, and can directly observe an analog human body and recognize vital signs of the analog human body on the half body model through the device. Can realize direct interaction with the simulators and check the state of the simulators when the cardiopulmonary resuscitation operation is performed.

The device can display a plurality of index data of an operator in real time when the operator performs cardiopulmonary resuscitation training, is more visual and convenient, has better experience teaching effect, and can help a learner to quickly master cardiopulmonary resuscitation emergency technology.

The automatic external defibrillator is connected and arranged, and defibrillation success and failure data can be checked in real time through the abdomen display screen, so that the use is more convenient.

The utility model is provided with three liquid crystal display screens, and the liquid crystal display screen of the abdomen can display in real time

1) Counting down and blowing time data;

2) Monitoring and displaying whether the pressing position is correct or not in real time, and detecting whether an air passage is opened or not and the air inlet amount;

3) Displaying the frequency of the current pressing in real time;

4) Counting the correct number and the error number during pressing and blowing in real time;

5) The number of defibrillation of the AED can be displayed;

the left waist side display screen is provided with an on-off touch key, a model parameter setting key and a standard rate adjusting key; the right waist side display screen is used for displaying the connection mode, the product name and the model manufacturer information of the model.

Drawings

FIG. 1 is a block diagram of the present utility model;

FIG. 2 is a schematic diagram of a simulated automatic external defibrillator of the present utility model;

FIG. 3 is a schematic diagram of the simulated human body internal structure of the present utility model;

FIG. 4 is a schematic view of the structure of the novel pressing plate;

reference numerals illustrate: the simulated automatic external defibrillator 1, the defibrillation electrode chip 11, the simulated manikin 2, the simulated human body 21, the mouth opening 211, the mounting buckle 212, the supporting plate structure 213, the pressing plate 22, the pressure sensor 23, the power supply module 24, the lung bag 25, the display screen module 26, the abdomen display screen 261, the left waist side display screen 262, the right waist side display screen 263, the front chest cover 3, the mounting buckle 31, the defibrillation point 4, the spring assembly 5, the simulated air tube 6, the one-way valve structure 61, the flowmeter 7, the air tube 8, the extrusion air bag 9 and the pressure release valve 91.

Detailed Description

The details of the present utility model are described below in conjunction with the accompanying drawings and examples.

Referring to fig. 1-4, the utility model provides an automatic external defibrillation cardiopulmonary resuscitation teaching device, which comprises an automatic external defibrillator 1 and a simulation mannequin 2, wherein the simulation mannequin 2 comprises a simulation mannequin 21, a pressing plate 22, a pressure sensor 23, a power module 24, a control circuit board, a lung bag 25 and a display screen module 26, the simulation mannequin 21 is internally provided with the lung bag 25, the pressing plate 22, the pressure sensor 23, the control circuit board and the power module 24, the lung bag 25 is arranged at the lung position of the simulation mannequin 21, the pressing plate 22 is arranged above the lung bag 25, the pressure sensor 23 is arranged at the bottom of the lung bag 25 and is opposite to the position of the pressing plate 22, the pressure sensor 23 is electrically connected with the control circuit board, the outer surface of the simulation mannequin 21 is also provided with the display screen module 26, and the control circuit board is electrically connected with the display screen module 26.

Further, in order to realize that simulation teaching equipment can simulate teaching defibrillation function, lung bag 25 in the human 21 of simulation is provided with the front chest lid 3 with pressing plate 22 top, be provided with defibrillation point position 4 respectively on the front chest lid 3 in left rib position outside and right chest position upside, the connection of simulation automatic external defibrillator 1 is provided with defibrillation electrode piece 11, defibrillation electrode piece 11 and defibrillation point position 4 laminating setting, defibrillation point position 4 is connected with the control circuit board electricity and is set up.

Further, in order to facilitate the installation of the front chest cover 3, the two side parts of the simulated human body 21 are convexly provided with installation buckles 212, the side surface of the front chest cover 3 is provided with installation buckles 31 corresponding to the positions of the installation buckles 212, and the installation buckles 212 and the installation buckles 31 are mutually buckled to connect and fix the front chest cover 3 and the simulated human body 21.

Further, in order to obtain more convenient control effects and function display effects, the display screen module 26 includes an abdomen display screen 261, a left waist side display screen 262 and a right waist side display screen 263, the abdomen display screen 261 is arranged at the middle position of the waist and abdomen of the human body 21, the abdomen display screen 261 is used for displaying defibrillation times and cardiopulmonary resuscitation pressing and blowing parameter information, the left waist side display screen 262 is arranged at the left side position of the waist of the human body 21, the right waist side display screen 263 is arranged at the right side position of the waist of the human body 21, the left waist side display screen 262 is provided with an on-off touch key, a model parameter setting key and a standard rate adjusting key, and the right waist side display screen 263 is used for displaying the connection mode, the product name and model manufacturer information of the model.

Further, in order to install the pressing plate 22 conveniently, the lung bags 25 are not easy to be extruded and broken, after being pressed, the pressing plate 22 can be reset, the bottom surface of the pressing plate 22 is connected with the bottom surface of the inner cavity of the simulated human body 21 through the spring assembly 5, the spring assembly 5 is arranged between the left lung bag 25 and the right lung bag 25, and the bottom surface of the pressing plate 22 is in abutting arrangement with the upper surface of the lung bag 25.

Further, in order to simulate the artificial respiratory effect of cardiopulmonary resuscitation, the mouth of the simulated human body 21 is provided with a mouth opening 211, the mouth opening 211 is connected with a simulated air tube 6, the simulated air tube 6 penetrates through the simulated human body 21 to be connected with the lung bag 25, and the communication part of the simulated air tube 6 and the lung bag 25 is provided with a one-way valve structure 61.

Further, in order to be able to count the ventilation volume of artificial respiration, a flowmeter 7 is installed on the analog air pipe 6, and the flowmeter 7 is electrically connected with the control circuit board.

Further, the lung bag 25 is further connected with an inflation tube 8, the inflation tube 8 penetrates out of the simulated human body 21 to be connected with an extrusion air bag 9 arranged outside, and a pressure release valve 91 is arranged at the extrusion air bag 9.

Further, a supporting plate structure 213 is arranged at the bottom of the lung bag 25, and the bottom of the supporting plate structure 213 is connected with the simulated human body 21.

The embodiment consists of an analog automatic external defibrillator 1 and an analog human body model 2, and can directly observe an analog human body and recognize vital signs of the analog human body on the half body model through the device. Can realize direct interaction with the simulators and check the state of the simulators when the cardiopulmonary resuscitation operation is performed. The device can display a plurality of index data of an operator in real time when the operator performs cardiopulmonary resuscitation training, is more visual and convenient, has better experience teaching effect, and can help a learner to quickly master cardiopulmonary resuscitation emergency technology. And the embodiment is connected and provided with an automatic external defibrillator, and defibrillation success and failure data can be checked in real time on the abdomen display screen 261, so that the use is more convenient.

The embodiment is provided with three liquid crystal display screens, and the liquid crystal display screen of the abdomen can display in real time

1) Counting down and blowing time data;

3) Displaying the frequency of the current pressing in real time;

5) The number of defibrillation of the AED can be displayed;

the left waist side display screen of the embodiment is used for displaying the on-off touch key and setting model parameters and adjusting the standard rate key; the right waist side display screen is used for displaying the connection mode, the product name and the model manufacturer information of the model.

Finally, it is noted that the above embodiments are only for illustrating the technical solution of the present utility model and not for limiting the same, and although the present utility model has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications and equivalents may be made thereto without departing from the spirit and scope of the technical solution of the present utility model, which is intended to be covered by the scope of the claims of the present utility model.

Standard parts used in the utility model can be purchased from the market, special-shaped parts can be customized according to the description of the specification and the drawings, the specific connection modes of the parts adopt conventional means such as mature bolts, rivets and welding in the prior art, the machines, the parts and the equipment adopt conventional models in the prior art, and the circuit connection adopts conventional connection modes in the prior art, so that the details are not described.

In the description of the present utility model, unless explicitly stated and limited otherwise, the terms "mounted," "connected," and "fixed" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; can be directly connected or can be connected through an intermediate medium, and can be communication between two elements or interaction relationship between two elements. The specific meaning of the above terms in the present utility model will be understood by those skilled in the art in specific cases.

Claims

1. The automatic external defibrillation cardiopulmonary resuscitation teaching device is characterized by comprising an automatic external defibrillator and a simulation human body model, wherein the simulation human body model comprises a simulation human body, a pressing plate, a pressure sensor, a power module, a control circuit board, a lung bag and a display screen module, the lung bag, the pressing plate, the pressure sensor, the control circuit board and the power module are arranged in the simulation human body, the lung bag is arranged at the lung position of the simulation human body, the pressing plate is arranged above the lung bag, the pressure sensor is arranged at the bottom of the lung bag and is opposite to the pressing plate, the pressure sensor is electrically connected with the control circuit board, the display screen module is further arranged on the outer surface of the simulation human body, and the control circuit board is electrically connected with the display screen module;

the display screen module comprises an abdomen display screen, a left waist side display screen and a right waist side display screen, wherein the abdomen display screen is arranged at the middle position of the waist and abdomen of a simulated human body and is used for displaying defibrillation times and cardiopulmonary resuscitation pressing and blowing parameter information, the left waist side display screen is arranged at the left side surface position of the waist of the simulated human body, the right waist side display screen is arranged at the right side surface position of the waist of the simulated human body, the left waist side display screen is provided with a startup and shutdown touch key, a model parameter setting key and a standard rate adjusting key, and the right waist side display screen is used for displaying the connection mode, the product name and the model manufacturer information of a model;

the bottom surface of the pressing plate is connected with the bottom surface of the simulated human body cavity through a spring assembly, the spring assembly is arranged between the left lung bag and the right lung bag, and the bottom surface of the pressing plate is in abutting arrangement with the upper surface of the lung bag;

the simulated human mouth is provided with a mouth opening, the mouth opening is connected with a simulated air pipe, the simulated air pipe penetrates through the simulated human body to be communicated with a lung bag, and a one-way valve structure is arranged at the communication part of the simulated air pipe and the lung bag;

the lung bag is also connected and provided with an inflation tube, the inflation tube penetrates out of the simulated human body and is connected with an extrusion air bag arranged outside, and a pressure release valve is arranged at the extrusion air bag.

2. The automated external defibrillation cardiopulmonary resuscitation teaching device according to claim 1, wherein a chest cap is arranged above a lung bag and a pressing plate in the simulated human body, defibrillation points are respectively arranged on the chest cap and on the outer side of the left rib position and the upper side of the right chest position, a defibrillation electrode plate is connected and arranged on the simulated automated external defibrillator, the defibrillation electrode plate is attached to the defibrillation points, and the defibrillation points are electrically connected with a control circuit board.

3. The automatic external defibrillation cardiopulmonary resuscitation teaching device according to claim 2, wherein mounting buckles are arranged on two side parts of the simulated human body in a protruding mode, mounting buckle positions corresponding to the mounting buckle positions are arranged on the side faces of the front chest cover, and the mounting buckles and the mounting buckle positions are mutually buckled to fix the front chest cover and the simulated human body.

4. An automated external defibrillation cardiopulmonary resuscitation teaching device according to claim 1, wherein a flowmeter is mounted on the simulated tracheal tube, and wherein the flowmeter is electrically connected to the control circuit board.