CN215581230U - AED first-aid networking system - Google Patents

Abstract

The utility model provides an AED first aid networking system, relates to medical first aid technical field for solve current outdoor public place AED and acquire the problem that the use method is single and be not enough to make AED equipment effectively utilized in time. The system comprises a plurality of AED fixed ends, one or more AED mobile ends, a mobile equipment end and a cloud service platform; wherein the AED fixed end includes a first AED device placed at a fixed location in a city; the AED moves the end and includes the second AED apparatus placed on unmanned aerial vehicle; the AED fixed end and the AED mobile end keep real-time networking communication with the cloud service platform in a wireless mode; the mobile equipment end comprises an AED equipment request module and is used for sending an AED equipment use request to a cloud service platform and acquiring position information and use state information of the AED fixed end or the AED mobile end. The utility model enables the outdoor cardiac arrest patient to effectively obtain and utilize the AED in time, and improves the rescue rate of the outdoor cardiac arrest patient.

Description

AED first-aid networking system

Technical Field

The utility model relates to the technical field of medical emergency treatment, in particular to an AED emergency treatment networking system.

Background

Because modern life is agile and pressure is increased, the incidence rate of cardiovascular diseases and sudden death is only increased but not decreased, and the problem that the death rate of outdoor cardiac arrest patients is increased due to untimely first aid and the like is urgently solved.

AED is the "life saving device" of rescuing the patient of sudden cardiac arrest, and nowadays AED's popularization is vigorously popularized in the country, and there is not enough understanding to AED in the masses, and the emergency treatment of the patient of sudden cardiac arrest outside the hospital by the first reaction people mostly only stays in the artificial respiration and cardiac compression level, and this is not enough at all. At present, patients with outdoor sudden cardiac arrest are often unable to defibrillate in time because AEDs are not popular enough and the factors of nearby AED positions and farther AED positions from the sick position of the patient are unknown. The survival rate of a patient with extrahospital sudden cardiac arrest who defibrillates using an AED within "gold six minutes" is several times the survival rate of a patient who cannot defibrillate within six minutes.

SUMMERY OF THE UTILITY MODEL

In view of the above problems, the present invention provides an AED emergency networking system, which is used to solve the problem that the existing AED in the outdoor public place is single in obtaining and using mode and is not enough to make the AED equipment be effectively and timely utilized.

An AED emergency networking system comprising: the system comprises a plurality of AED fixed ends, one or more AED mobile ends, a mobile equipment end and a cloud service platform; wherein the content of the first and second substances,

the AED fixed end includes a first AED device placed at a fixed location in a city; the AED moves the end and includes the second AED apparatus placed on unmanned aerial vehicle; the AED fixed end and the AED mobile end are in real-time networking communication with the cloud service platform in a wireless mode;

the mobile equipment end comprises an AED equipment request module, and the AED equipment request module is used for sending an AED equipment use request to a cloud service platform and acquiring the position information and the use state information of the AED fixed end or the AED mobile end.

Further, the use state information comprises two kinds of state information of use and idle.

Further, the first AED equipment is placed in an AED first-aid kit, the AED first-aid kit further comprises a fixed-end controller and a door lock unit, the fixed-end controller and the door lock unit are placed in the first-aid kit body, and the door lock unit comprises a Bluetooth lock and a mechanical lock.

Furthermore, the AED emergency case also comprises an alarm device which is a sound and light alarm arranged on the case body of the emergency case; the AED first-aid kit box is provided with an emergency hammer, and the emergency hammer is connected with an alarm device.

Further, second AED equipment connects in the unmanned aerial vehicle below, AED removes the end still including setting up the mobile navigation module on unmanned aerial vehicle, mobile navigation module with high in the clouds service platform communication connection.

Furthermore, the AED equipment request module further comprises a positioning and sending submodule and a navigation submodule, wherein the positioning and sending submodule is used for sending the real-time position information of the mobile equipment end to the cloud service platform; and the navigation sub-module is used for establishing navigation route guidance according to the real-time position information of the mobile equipment end and the position information of the AED fixing end.

Further, the mobile device end also comprises an instruction obtaining module, and the instruction obtaining module is used for viewing the instruction of the use method of the AED device.

Further, the wireless mode comprises WIFI and a mobile network.

The beneficial technical effects of the utility model are as follows:

the utility model provides an AED (automated guided Equipment) emergency networking system, which provides a special rescue mode for various patients with sudden cardiac arrest and improves the effective rescue rate of the patients with sudden cardiac arrest; the AED removes the end and can guide unmanned aerial vehicle to transport near no AED and emergency tender can't catch up to the disease promptly mobile device end user hand fast according to the real-time position information of mobile device end with AED. The utility model enables the outdoor cardiac arrest patient to effectively obtain and utilize the AED in time, improves the rescue rate of the outdoor cardiac arrest patient, improves the prior AED obtaining and using mode in outdoor public places and facilitates the popularization of AED emergency treatment.

Drawings

The present invention may be better understood by reference to the following description taken in conjunction with the accompanying drawings, which are incorporated in and form a part of this specification, and which are used to further illustrate preferred embodiments of the present invention and to explain the principles and advantages of the present invention.

Fig. 1 is a schematic diagram of the AED emergency networking system of the present invention;

fig. 2 is a schematic diagram of the fixed end of the AED of the present invention;

fig. 3 is a schematic diagram of the mobile end of the AED of the present invention;

FIG. 4 is a flow chart of an embodiment of the present invention.

Detailed Description

In order that those skilled in the art will better understand the disclosure, exemplary embodiments or examples of the disclosure are described below with reference to the accompanying drawings. It is obvious that the described embodiments or examples are only some, but not all embodiments or examples of the utility model. All other embodiments or examples obtained by a person of ordinary skill in the art based on the embodiments or examples of the present invention without any creative effort shall fall within the protection scope of the present invention.

As shown in fig. 1, an AED emergency networking system includes a plurality of AED fixed terminals 10, one or more AED mobile terminals 20, a mobile device terminal 30, and a cloud service platform 40; wherein the AED-securing end 10 includes a first AED device 110 placed in a municipal fixed location; the AED mobile end 20 includes a second AED device 210 placed on the drone; the AED fixed end 10 and the AED mobile end 20 keep real-time networking communication with the cloud service platform 40 in a wireless mode; the mobile device 30 includes an AED device request module 310, and the AED device request module 310 is configured to send an AED device use request to the cloud service platform 40, and obtain location information and use status information of the AED fixed end 10 or the AED mobile end 20, where the use status information includes two kinds of status information, namely, in-use status information and idle status information.

Further, the mobile device end 30 also includes an instruction acquisition module 320 for viewing instructions on the method of use of the AED device.

Further, the wireless mode comprises WIFI and a mobile network.

Detailed description of the preferred embodiment

As shown in fig. 2, the first AED device 110 at the fixed end 10 of the AED is placed in an AED first-aid kit, which further includes a fixed-end controller 120, a door lock unit 130 and an alarm device 140, which are placed inside the case body of the first-aid kit, and the door lock unit 130 includes a bluetooth lock and a mechanical lock; alarm device 140 is a sound and light alarm configured on the first-aid kit housing; the AED first-aid kit body is provided with an emergency hammer, and the emergency hammer is connected with the alarm device 140.

The AED first-aid kit at the fixed end of the AED is mainly used for emergency treatment in public places. When emergency happens, any person in the scene of the incident can know the nearest AED equipment storage position through the public number or APP and other ways, and the AED equipment can be quickly found through the navigation route guidance provided by the emergency system, and the AED equipment in the AED emergency case can be quickly taken through scanning the two-dimensional code on the AED emergency case. The two-dimensional code is bound with the bluetooth lock on the AED first-aid kit one by one, has entered in advance in the cloud service platform. After any one of the Bluetooth lock and the mechanical lock is opened, the door of the first-aid box can be opened.

Under emergency, bluetooth lock is unblanked and is failed or the battery exhausts, and the first-aid kit is opened to on-the-spot maintainer accessible mechanical lock key, takes out AED equipment and is used for the first aid. When an emergency occurs, once a user takes the AED equipment, the box body automatically gives out sound and light alarm, thereby attracting surrounding people to pay attention and actively participating in treatment. The emergency hammer is further arranged on the case body of the AED emergency case, so that when maintenance personnel are not on site, transparent window glass can be broken through the emergency hammer, the AED can be taken out for emergency treatment, and at the moment, the emergency hammer also triggers an alarm.

When taking AED equipment, AED first-aid kit is taken out because of equipment, and fixed end controller 120 can be automatic send the state information that case door was opened and equipment was taken out to high in the clouds service platform in real time this moment, and the platform is automatic to be issued the SMS and is sent to AED equipment manager's cell-phone to inform the administrator to take the place immediately and catch up with the first-aid scene.

The AED device request module 310 of the mobile device end 30 further includes a positioning transmission sub-module 3110 and a navigation sub-module 3120, where the positioning transmission sub-module 3110 is configured to transmit the real-time location information of the mobile device end 30 to the cloud service platform 40; the navigation sub-module 3120 is used for establishing navigation directions according to the real-time location information of the mobile device end 30 and the location information of the fixed end 10 of the AED.

Detailed description of the utility model

As shown in fig. 3, the second AED device 210 of the AED moving terminal 20 is detachably connected to the lower part of the drone, the AED moving terminal 20 further includes a mobile navigation module 220 disposed on the drone, and the mobile navigation module 220 is in communication connection with the cloud service platform 40. When an emergency occurs in a certain residential cell and AED rescue is needed, a user sends rescue-needed information through a service APP downloaded from a mobile terminal, namely, sends an AED equipment use request, and uploads real-time position information; the method comprises the steps that after receiving an AED equipment use request and position information needing emergency rescue, a cloud service platform sends rescue starting signals to a plurality of AED mobile terminals nearest to the position needing emergency rescue, and dispatches an unmanned aerial vehicle of the AED mobile terminals which are in the optimal state, namely nearest and in the idle state, to take off to the position needing emergency rescue according to different states of the plurality of AED mobile terminals; in the flight process of the unmanned aerial vehicle, a mobile navigation module on the unmanned aerial vehicle is communicated with a cloud service platform, and city map information on the cloud service platform is used for navigating the unmanned aerial vehicle, so that the unmanned aerial vehicle can reach a rescue place at the highest speed; after the user uses the completion, click through the service APP on the mobile terminal and return, unmanned aerial vehicle returns this AED automatically and removes the end.

Detailed description of the preferred embodiment

As shown in fig. 4, the project of the embodiment of the utility model is composed of four parts, namely an AED patient data collecting and transmitting system, a cloud-control-technology urban intelligent AED system, an AED emergency treatment system used by medical staff and the public, and an AED delivery unmanned aerial vehicle navigation system, and an outdoor AED emergency patient database is established.

(1) The "cardiac origin" AED emergency system was manufactured and used: the AED emergency system with the cardiac origin is a main achievement of the project, and has a plurality of functions of an AED map system, an unmanned aerial vehicle navigation system, a sudden cardiac arrest patient distress system, AED use steps and the like.

Outdoor public place AED calls for help system: people who can master the emergency treatment mode of outdoor sudden cardiac arrest patients are generally medical workers or masses trained through some basic health education. But these people often do not appear as first responders to the patient at the first time, wasting optimal rescue time. The system is provided with the AED emergency system, when people nearby with the sudden cardiac arrest emergency ability hear the mobile phone for help, the people can arrive at the patient at the first time, rescue is implemented within the best rescue time of gold 6 minutes with higher probability, and the survival probability of the patient is increased.

(2) Build unmanned aerial vehicle and carry on AED emergency system: in some areas where the AED is not available in towns and villages and the like, the chance that a patient suffering sudden cardiac arrest gets effective electrical defibrillation within 'gold four minutes' is very poor, and the time for the patient to obtain the AED can be greatly shortened by popularizing 'an AED system carried by an unmanned aerial vehicle' in the areas to a certain extent. Unmanned aerial vehicle flying speed is fast, flight in-process is unrestricted, can deliver AED to patient's side fast. It is enough to be equipped with two "unmanned aerial vehicle-AED" in certain area, when can reducing the popularization cost, improves patient's cure rate and survival rate, accelerates AED's popularization and promotion.

Outdoor public place AED networks map and navigation and unmanned aerial vehicle and carries on AED navigation: when the sudden cardiac arrest patient of outdoor first aid, often can make patient's mortality rise by a wide margin because can't acquire reasonable use AED fast, utilize this system can utilize unmanned aerial vehicle to carry on the technique and let the patient in remote areas such as town rural area obtain rapidly and use AED. The AED map navigation system can provide optimal AED scheme and emergency treatment measures for sudden cardiac arrest patients, accelerate popularization and promotion of AEDs, and improve the rescue rate and survival rate of the sudden cardiac arrest patients outside the hospital.

(3) The unmanned aerial vehicle carries on AED emergency system and needs to cooperate with government social health department: unmanned aerial vehicle carries on AED emergency system except "unmanned aerial vehicle carries on AED navigation" system, still need establish an emergency station in certain area to unmanned aerial vehicle's supervision and maintenance, and should set up an emergency station so that unmanned aerial vehicle reaches to AED fast in a town.

(4) Uploading, storing and collating patient data of sudden cardiac arrest in public places: sudden cardiac arrest patient data is mostly collected after the patient is sent to a hospital for treatment, which may lead to some data collection insufficiency, such as the frequency distribution map of AED usage and the treatment rate of outdoor cardiac arrest patients using AED in time. The related data are uploaded through the AED networking technology, big data analysis is carried out, some data which are not available or are difficult to collect can be obtained, popularization and promotion of the AED are facilitated, and the related data of the cardiac arrest for a patient are obtained.

The use method of the outdoor public place AED comprises the following steps: bringing the AED to the patient for the effective time; opening the AED package and turning on the power supply; exposing the chest wall; sticking the electrode slice on the chest wall according to the prompt; connecting the motor to the AED without touching the patient; following the instructions, a defibrillation button is pressed or defibrillation is not performed.

While the utility model has been described with respect to a limited number of embodiments, those skilled in the art, having benefit of this description, will appreciate that other embodiments can be devised which do not depart from the scope of the utility model as described herein. The present invention has been disclosed in an illustrative rather than a restrictive sense, and the scope of the present invention is defined by the appended claims.

Claims (8)

1. An AED emergency networking system, comprising: the system comprises a plurality of AED fixed ends, one or more AED mobile ends, a mobile equipment end and a cloud service platform; wherein the content of the first and second substances,

the AED fixed end includes a first AED device placed at a fixed location in a city; the AED moves the end and includes the second AED apparatus placed on unmanned aerial vehicle; the AED fixed end and the AED mobile end are in real-time networking communication with the cloud service platform in a wireless mode;

the mobile equipment end comprises an AED equipment request module, and the AED equipment request module is used for sending an AED equipment use request to a cloud service platform and acquiring the position information and the use state information of the AED fixed end or the AED mobile end.

2. The AED emergency networking system of claim 1, wherein the use status information comprises both in-use and idle status information.

3. The AED first-aid networking system of claim 2, wherein the first AED device is placed in an AED first-aid case, the AED first-aid case further comprising a fixed-end controller and a door lock unit placed inside the case of the first-aid case, the door lock unit comprising a Bluetooth lock and a mechanical lock.

4. The AED emergency networking system of claim 3, wherein the AED emergency case further comprises an alarm device, wherein the alarm device is a sound and light alarm configured on the case of the emergency case; the AED first-aid kit box is provided with an emergency hammer, and the emergency hammer is connected with an alarm device.

5. The AED emergency networking system of claim 4, wherein the second AED device is connected below the UAV, the AED mobile terminal further comprises a mobile navigation module disposed on the UAV, and the mobile navigation module is in communication connection with the cloud service platform.

6. The AED emergency networking system of claim 5, wherein the AED equipment request module further comprises a positioning transmission submodule and a navigation submodule, wherein the positioning transmission submodule is used for transmitting real-time location information of a mobile equipment terminal to a cloud service platform; and the navigation sub-module is used for establishing navigation route guidance according to the real-time position information of the mobile equipment end and the position information of the AED fixing end.

7. The AED first-aid networking system of claim 6, wherein the mobile device further comprises an instruction obtaining module for viewing instruction of usage of AED equipment.

8. The AED emergency networking system of any of claims 1-7, wherein the wireless means comprises WIFI, mobile network.

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