CN220511158U - AED device and AED remote first-aid guidance system - Google Patents

AED device and AED remote first-aid guidance system Download PDF

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Publication number
CN220511158U
CN220511158U CN202321989345.5U CN202321989345U CN220511158U CN 220511158 U CN220511158 U CN 220511158U CN 202321989345 U CN202321989345 U CN 202321989345U CN 220511158 U CN220511158 U CN 220511158U
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aed
touch screen
module
emergency
touch
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CN202321989345.5U
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王占龙
罗龙
何超凡
童要聪
张文俊
黄执戈
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Jiuxin Medical Science & Technology (suzhou) Co ltd
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Jiuxin Medical Science & Technology (suzhou) Co ltd
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Abstract

The application discloses AED equipment and remote first aid guidance system of AED relates to first aid medical treatment technical field, and wherein, AED equipment includes AED host computer and touch-sensitive screen, and the AED host computer includes the casing, and one side of casing rotates and is connected with the lid, and the lid is relative the casing has expansion state and lid and closes the state, and the lid has the accommodation space to the one side of casing, and the touch-sensitive screen is located the accommodation space, and the touch-sensitive screen is provided with bluetooth module and 4G module, and the touch-sensitive screen passes through bluetooth module and AED host computer communication connection, and the touch-sensitive screen is used for connecting the first aid visual control management subsystem in first aid center through 4G module. The AED equipment can be communicated with an emergency treatment center, medical staff can carry out video or voice communication with emergency personnel, emergency treatment operation is guided on line, the problem that the best rescue time is possibly missed due to low rescue efficiency caused by the fact that a rescue staff is difficult to understand in a voice guidance mode of a cutting board in the prior art is solved.

Description

AED device and AED remote first-aid guidance system
Technical Field
The present application relates to the field of emergency medical devices, and in particular to an AED device and an AED remote emergency guidance system.
Background
Sudden cardiac arrest is the leading cause of death in developed countries, and currently AED devices are widely deployed in public places in both domestic and international countries to provide emergency defibrillation assistance to patients in the event of sudden cardiac arrest. However, current emergency training is not popular in China, and most people do not know the skill of emergency and do not know the use of AED equipment.
In the related art, the AED device has realized a voice guidance function for guiding the rescuer to use the AED device, but the content of voice guidance by the AED device is a board and limited, and when the rescuer who is not trained in emergency uses the AED device for emergency, the rescuer is very likely to fail to understand the voice guidance content well, resulting in low rescue efficiency and missing the optimal rescue time.
Disclosure of Invention
The application provides an AED device and an AED remote first-aid guidance system, which are used for solving the problems that in the related technology, the voice guidance content set by the AED device is on a plate and limited, and can not guide rescue personnel well, so that the best rescue time can be missed.
The technical scheme adopted by the application is as follows:
in a first aspect, there is provided an AED device comprising: the AED host comprises a shell, one side of the shell is rotatably connected with a cover body, the cover body is in an unfolding state and a covering state relative to the shell, the surface of the cover body, facing the shell, is provided with a containing space, and the touch screen is positioned in the containing space;
the touch screen is provided with a Bluetooth module and a 4G module, the touch screen is in communication connection with the AED host through the Bluetooth module, and the touch screen is used for being connected with an emergency visual monitoring management subsystem of an emergency center through the 4G module.
Optionally, according to the AED device of the embodiment of the first aspect of the present application, a photoelectric sensor is disposed on the touch screen, the photoelectric sensor enables the touch screen to be started when the cover is in an unfolded state, and the touch screen is shut down when the case is in a closed state.
Alternatively, according to the AED device according to the first aspect of the embodiment of the present application, hinge structures are provided on both sides of the case, and the cover is connected with the case in a reversible manner through the hinge structures.
Optionally, the AED device according to the embodiment of the first aspect of the present application further includes an audible and visual alarm, the touch screen is further configured to be communicatively connected to the AED management platform, and the touch screen is configured to receive alarm information sent by the AED management platform in response to the distress signal, and control the audible and visual alarm to alarm.
Optionally, according to an embodiment of the first aspect of the present application, the touch screen is provided with a first positioning module for positioning the AED device in real time, and the ambulance is provided with a second positioning module for positioning the ambulance in real time;
the touch screen acquires the real-time position of the ambulance through the first-aid visual monitoring management subsystem and displays the real-time position; the ambulance acquires the location of the AED device through a visual monitoring management subsystem.
Optionally, according to an embodiment of the first aspect of the application, the AED device, the touch screen is a PAD.
Optionally, according to the AED device of the first aspect of the embodiment, a stud is disposed on a side of the cover facing the case, and the touch screen is fixed to the stud by a screw.
Optionally, according to an embodiment of the first aspect of the present application, the AED device is configured with a cabinet, a first charging module and a second charging module are disposed in the cabinet, the first charging module is used for charging the AED host, the second charging module is used for charging the touch screen, and the second charging module is a wireless charging module.
In a second aspect, there is provided an AED remote emergency guidance system comprising an AED device according to any of the embodiments of the first aspect of the present application, and an emergency visual monitoring management subsystem located at an emergency center.
Optionally, according to an embodiment of the second aspect of the application, the AED remote emergency guidance system, the emergency visual monitoring management subsystem is a PLC.
The beneficial effects of this application lie in: according to the emergency treatment system, the touch screen is arranged on the AED equipment and is communicated with the emergency treatment visual monitoring management subsystem of the emergency treatment center, so that the emergency treatment system can communicate with the emergency treatment center through the touch screen, a patient can be subjected to video call, and medical staff of the emergency treatment center can conduct online emergency treatment guidance on the rescuer according to the field condition. Moreover, the touch screen can send basic vital sign indexes of the patient and electrocardiograph data to the emergency treatment center, so that medical staff can know the condition of the patient in time, and the next rescue work is guided. The embodiment transmits information with the emergency treatment center through the touch screen, so that the consumption of the battery capacity of the AED host is reduced, and the operation cost and the maintenance cost of the AED host are reduced.
Drawings
Fig. 1 is a schematic diagram of an AED device according to one embodiment of the present application;
fig. 2 is a block diagram of the structure of an AED remote emergency guidance system provided in one embodiment of the present application.
Detailed Description
The technical scheme of the present application is further described below with reference to the accompanying drawings and examples. The following examples are only for more clearly illustrating the technical solutions of the present application and are not intended to limit the scope of protection of the present application.
An Automatic External Defibrillator (AED) is a portable medical device that diagnoses a specific arrhythmia and delivers shock defibrillation, a medical device that can be used by non-professionals to rescue a sudden cardiac arrest patient.
In the related art, the AED device is provided with a voice guidance function, but such voice is generally relatively carved, and cannot be flexibly adjusted according to the on-site emergency condition, and in the process of emergency training of a patient by using the AED, the person who does not have emergency training cannot understand the voice content due to stress and other reasons, and the emergency operation cannot be completed well according to the voice guidance of the carved, so that the patient may miss the optimal emergency time.
In view of the foregoing technical problems, embodiments of the present application provide an AED device and an AED remote emergency guidance system, and detailed description of the present application is provided below with reference to specific embodiments.
Example 1
Fig. 1 is a schematic diagram of an AED device according to one embodiment of the present application, which, as shown in fig. 1, includes: the AED host 1 and touch screen, AED host 1 includes the casing, and one side of casing rotates to be connected with lid 2, and the lid has the accommodation space to the one side of casing, and the touch screen is located the accommodation space. The cover 2 has an expanded state and a closed state relative to the housing, the expanded state being shown in fig. 1.
The photoelectric sensor is arranged on the touch screen, the photoelectric sensor enables the touch screen to be started when the cover body 2 is in an unfolding state, and the touch screen is shut down when the shell is in a covering state. Illustratively, the touch screen of the present embodiment is a PAD.
When the cover body 2 is in an unfolding state, the photoelectric sensor is triggered, an electric signal is sent to a controller of the touch screen, the touch screen is started, a screen of the touch screen is lightened, and a touch button for establishing connection is displayed on the screen.
After the touch screen is started, a rescue worker can click on 'establish connection' in the screen, and after the touch screen receives the touch operation of 'establish connection', a video call with an emergency treatment center is established, so that the medical worker of the emergency treatment center can know the on-site rescue condition in real time, and real-time online guidance is carried out on the rescue worker.
Fig. 2 is a block diagram of a remote emergency guidance system of an AED according to an embodiment of the present application, where, as shown in fig. 2, the touch screen of the present embodiment is provided with a bluetooth module and a 4G module, and the touch screen is connected with the AED host in communication through the bluetooth module, and the touch screen is used to connect with an emergency visual monitoring management subsystem of an emergency center through the 4G module.
Since the related art AED devices incorporate too many internet functions in order to be able to implement voice guidance, the AED battery power will be greatly consumed, thereby increasing the operational and maintenance costs of the AED. The AED host of this embodiment transmits patient's electrocardio data to the touch-sensitive screen through bluetooth, establishes communication connection by the touch-sensitive screen through 4G network and emergency treatment center to can also carry out the video conversation by touch-sensitive screen and emergency treatment center, reduce the consumption of AED host battery electric quantity, reduced the operation cost and the maintenance cost of AED equipment.
It can be appreciated that the two sides of the housing in this embodiment are provided with hinge structures, and the cover body is connected with the housing in a reversible manner through the hinge structures.
Through setting up hinge structure, the lid is when the casing upset of relative AED host computer, under the condition that does not have the manual pressure, can make the lid keep at flip angle, can not lead to the condition of shutting down because of the mistake touches, influences first aid.
It is understood that the system also comprises an audible and visual alarm, the touch screen is also used for being in communication connection with the AED management platform, and the touch screen is used for receiving alarm information sent by the AED management platform in response to the distress signal and controlling the audible and visual alarm to alarm.
Through setting up audible and visual alarm, when receiving the distress signal, AED management platform triggers alarm information to the touch-sensitive screen, and the touch-sensitive screen control audible and visual alarm sends audible and visual alarm, arouses peripheral user's attention, and peripheral user takes out AED equipment, after flip, can see the scene information of calling for help through the touch-sensitive screen, is convenient for promote the efficiency of handling sudden accident with the help of social resource, avoids unexpected emergence.
As can be appreciated, the touch screen is provided with a first positioning module for positioning the AED device in real time, and the ambulance is provided with a second positioning module for positioning the ambulance in real time; the touch screen acquires the real-time position of the ambulance through the first aid visual monitoring management subsystem and displays the real-time position; the ambulance acquires the location of the AED device through the visual monitoring management subsystem.
The touch screen is interacted with the real-time position of the ambulance, so that the ambulance is convenient for a doctor on the ambulance to master the rescue address in real time, the ambulance is positioned quickly, and meanwhile, a person calling for help is enabled to know the real-time position and the dynamic state of the ambulance, and the next first aid treatment is convenient.
It is to be understood that the side of the cover facing the housing is provided with a stud, and the touch screen is fixed on the stud by a screw. The touch screen can be kept stable through screw fixation.
It will be appreciated that the AED device is configured with a locker in which a first charging module and a second charging module are disposed, the first charging module is configured to charge the AED host, the second charging module is configured to charge the touch screen, and the second charging module is a wireless charging module.
The touch screen and the AED host are independently powered, and when the AED equipment is replaced to the storage cabinet after being used, the first charging module is directly connected with the AED host to supply power for the AED host; the touch screen detects the self electric quantity, and when the electric quantity is detected to be too low, the wireless charging module is used for automatically charging.
To sum up, this application is through setting up the touch-sensitive screen at AED equipment, and the touch-sensitive screen communicates with the visual control management subsystem of first aid in first aid center, like this, can communicate with first aid center through the touch-sensitive screen, can carry out the video conversation with the patient, and first aid center's medical personnel can carry out online first aid to the ambulance person according to the scene condition and instruct. Moreover, the touch screen can send basic vital sign indexes of the patient and electrocardiograph data to the emergency treatment center, so that medical staff can know the condition of the patient in time, and the next rescue work is guided. The embodiment transmits information with the emergency treatment center through the touch screen, so that the consumption of the battery capacity of the AED host is reduced, and the operation cost and the maintenance cost of the AED host are reduced.
Example 2
The embodiment of the application also provides an AED remote first-aid guidance system, which comprises AED equipment and a first-aid visual monitoring management subsystem positioned in a first-aid center.
It can be appreciated that the emergency visual monitoring management subsystem of the present embodiment is a PLC.
The specific implementation of the AED device of this embodiment can be found in embodiment 1, and will not be described here.
While the applicant has described and illustrated the examples of embodiments of the present application in detail in connection with the drawings of the specification, it should be understood by those skilled in the art that the above examples of embodiments are merely preferred embodiments of the application, and the detailed description is intended to aid the reader in better understanding the spirit of the application, and not to limit the scope of the application, but any improvements or modifications based on the inventive spirit of the application should fall within the scope of the application.

Claims (10)

1. An AED device, comprising: the AED host comprises a shell, one side of the shell is rotatably connected with a cover body, the cover body is in an unfolding state and a covering state relative to the shell, the surface of the cover body, facing the shell, is provided with a containing space, and the touch screen is positioned in the containing space;
the touch screen is provided with a Bluetooth module and a 4G module, the touch screen is in communication connection with the AED host through the Bluetooth module, and the touch screen is used for being connected with an emergency visual monitoring management subsystem of an emergency center through the 4G module.
2. The AED device of claim 1, wherein a photosensor is disposed on the touch screen, the photosensor causes the touch screen to be powered on when the cover is in the deployed state, and the touch screen to be powered off when the case is in the closed state.
3. The AED device of claim 1, wherein hinge structures are provided on both sides of the case, and the cover is reversibly connected to the case by the hinge structures.
4. The AED device of claim 1, further comprising an audible and visual alarm, wherein the touch screen is further adapted to be communicatively coupled to an AED management platform, wherein the touch screen is adapted to receive alarm information sent by the AED management platform in response to the distress signal and to control the audible and visual alarm to alarm.
5. The AED device of claim 4, wherein the touch screen is provided with a first positioning module that positions the AED device in real-time;
the system also comprises a second positioning module which is arranged on the ambulance and used for positioning the ambulance in real time;
the touch screen acquires the real-time position of the ambulance through the first-aid visual monitoring management subsystem and displays the real-time position; the ambulance acquires the location of the AED device through a visual monitoring management subsystem.
6. The AED device of claim 1, wherein the touch screen is a PAD.
7. The AED device of claim 1, wherein a stud is provided on a side of the cover facing the case, and the touch screen is secured to the stud by a screw.
8. The AED device of claim 1, wherein the AED device is configured with a locker in which a first charging module and a second charging module are disposed, the first charging module is for charging an AED host, the second charging module is for charging a touch screen, and the second charging module is a wireless charging module.
9. An AED remote emergency guidance system comprising the AED device of any of claims 1-7, and an emergency visual monitoring management subsystem located in an emergency center.
10. The AED remote emergency guidance system of claim 9, wherein the emergency visual monitoring management subsystem is a PLC.
CN202321989345.5U 2023-07-27 2023-07-27 AED device and AED remote first-aid guidance system Active CN220511158U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202321989345.5U CN220511158U (en) 2023-07-27 2023-07-27 AED device and AED remote first-aid guidance system

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202321989345.5U CN220511158U (en) 2023-07-27 2023-07-27 AED device and AED remote first-aid guidance system

Publications (1)

Publication Number Publication Date
CN220511158U true CN220511158U (en) 2024-02-20

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Family Applications (1)

Application Number Title Priority Date Filing Date
CN202321989345.5U Active CN220511158U (en) 2023-07-27 2023-07-27 AED device and AED remote first-aid guidance system

Country Status (1)

Country Link
CN (1) CN220511158U (en)

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