KR102503148B1 - Automated External Defibrillator storage box integrated management system - Google Patents

Abstract

An integrated management system for an automatic defibrillator storage box is disclosed. An integrated management system for an automatic defibrillator storage box according to an embodiment of the present invention provides an automatic defibrillator storage space for storing an automatic defibrillator, and includes at least one automatic defibrillator storage space capable of adjusting temperature and humidity inside the automatic defibrillator storage space. a defibrillator storage unit; At least one automatic defibrillator storage unit disposed in each automatic defibrillator storage space, wirelessly connected to communicate with the automatic defibrillator, collects data on the state of the automatic defibrillator, and transmits the data to the server. IoT (Internet of Things) terminal; and a server that stores and processes data received from at least one IoT terminal and integrally manages at least one automatic defibrillator storage box.

Description

Automated External Defibrillator storage box integrated management system}

The present invention relates to an integrated management system for an automated external defibrillator (AED) storage box, and more particularly, to an integrated management system for an automated external defibrillator storage box capable of more efficiently managing an automated external defibrillator storage box remotely and in real time. It is about.

In general, in multi-use facilities and public places where many people gather, such as terminals, subway waiting rooms, and amusement parks, in the event of an accident, a number of emergency rescue boxes containing first aid supplies or first aid equipment for first aid are placed. do.

In addition to first aid supplies, an Automated External Defibrillator (AED), which can deliver an electric shock to the heart, is deployed to prepare for an electric shock to be applied to the heart in the event of an emergency such as cardiac arrest.

However, the automatic defibrillator, which is an emergency device, has a built-in battery to receive power, and the amount of change cannot be predicted according to environmental factors caused by the weather, and the battery becomes unusable after a certain period of time due to natural discharge. In some situations, it is impossible to save a person's life. Therefore, in order to prevent spontaneous discharge of the automatic defibrillator, it is inconvenient to continuously check the remaining amount of the battery of the automatic defibrillator.

In addition, since the AED cannot attach the pad to the human body when the gel of the pad dries, technology to maintain the temperature and humidity of the storage box under appropriate conditions is essential so that the gel of the pad does not dry out and maintains the best condition. .

Conventionally, in order to manage the remaining battery level and pads of the automatic defibrillator, an expiration date of a certain period was set using the date of deployment of the automatic defibrillator, and then the battery and pads were replaced according to the expiration date, and the state of the automatic defibrillator was manually written. I have also checked

In particular, in order to ensure that the automatic defibrillator can be stored and used stably for a long time, the condition of the automatic defibrillator must be checked monthly. In this way, the amount of management is so large that it is difficult to manage. Moreover, with the enforcement of the multi-use facility for automatic defibrillator and mandatory installation of multi-family housing, it is more difficult to find and check the rapidly increasing number of automatic defibrillator installation locations.

In addition, since it is installed in a public place, theft of expensive medical equipment occurs late at night or early in the morning when people rarely come and go, and when necessary, the equipment cannot be used. There was also a problem of not being able to prepare for financial damage and emergency situations due to theft.

In this regard, in recent years, the location and storage information of automatic external defibrillators installed in public places are monitored in real time by the control center of the city, county, or district public health center and the manager of the installation institution, and even requesting rescue in case of an emergency. There was a demand for an emergency rescue system that could do this.

However, the current emergency rescue system only periodically notifies the storage location of the automatic defibrillator, the deadline for battery and pad management, and whether or not it is stolen or lost. Since it is a system that needs to be implemented, a more efficient management platform is required. In particular, since emergency medical equipment is obliged to be inspected at least once a month according to the Act on Emergency Medicine, management efficiency should be further improved.

Korean Registered Patent No. 10-1038799, (Announced on June 3, 2011)

Therefore, the technical problem to be achieved by the present invention is to communicate with at least one automatic defibrillator storage box placed in a public place to determine whether the automatic defibrillator is operating normally, the battery status and pad status of the automatic defibrillator, and the temperature of the automatic defibrillator storage space. , humidity and shock, whether the door of the automatic defibrillator storage box is open or closed, whether the automatic defibrillator is attached or not, and whether the emergency call button is operated, etc. It is to provide an integrated management system for the automatic defibrillator storage box that can increase the management efficiency of the shock storage box and reduce the management cost.

According to one aspect of the present invention, there is provided an automatic defibrillator storage space for storing an automatic defibrillator, comprising: at least one automatic defibrillator storage unit capable of adjusting temperature and humidity inside the automatic defibrillator storage space; At least one automatic defibrillator storage unit is disposed in the automatic defibrillator storage space, and is wirelessly connected to communicate with the automatic defibrillator to collect data on the state of the automatic defibrillator and transmit the data to a server. At least one IoT (Internet of Things) terminal that transmits; and a server for storing and processing the data received from at least one IoT terminal and integrally managing the at least one automatic defibrillator storage box. An integrated management system for the automatic defibrillator storage box may be provided.

Further comprising an integrated receiver receiving the data from the at least one IoT terminal and forwarding the data to the server, wherein the IoT terminal encrypts the collected data and converts it into encrypted data, and converts the converted encrypted data into encrypted data. Data is transmitted to the integrated receiver, and the integrated receiver decrypts the received encrypted data, converts it into non-encrypted data, and transmits the non-encrypted data to the server. The Automated Defibrillator collected by the IoT terminal The data on the state of may be data on self-diagnosis that the AED regularly performs according to a predetermined cycle.

The automatic defibrillator storage unit may include a storage unit main body providing a storage space for the automatic defibrillator; a humidity control fan that is coupled to the storage unit body and controls humidity inside the automatic defibrillator storage space; and a heating wire coupled to the storage unit main body and configured to adjust the temperature inside the automatic defibrillator storage space, wherein the IoT terminal is communicatively connected to the automatic defibrillator storage unit, and the automatic defibrillator storage unit is communicatively connected. Data on the temperature and humidity of the storage space may be collected and transmitted to the integrated receiver.

The automatic defibrillator storage unit may include: an automatic defibrillator attachment/detachment detection sensor provided inside the storage unit body to detect whether or not the automatic defibrillator is detached from the automatic defibrillator storage space; a siren provided inside the storage unit body to sound an alarm; a power supply unit supplying power to the fan for adjusting the humidity, the hot wire for adjusting the temperature, the sensor for detecting whether the automatic defibrillator is attached or not, and the siren; and a controller for controlling operation of the fan for adjusting the humidity, the heat wire for adjusting the temperature, the sensor for detecting whether the automatic defibrillator is attached or not, and the siren and the power supply unit, wherein the IoT terminal includes a sensor for detecting whether the automatic defibrillator is attached or not. Data on whether the automatic defibrillator is attached or detached may be collected and transmitted to the integrated receiver.

The heat wire for temperature control may include: an internal heat wire unit disposed inside the storage unit body; and an externally disposed heating wire unit extending from the internally disposed heating wire unit to the outside of the storage unit body and disposed to surround the outside of the storage unit body.

The automatic defibrillator storage box is disposed outdoors and provides a storage unit accommodating space for accommodating the automatic defibrillator storage unit to protect the automatic defibrillator storage unit from external environments such as snow, rain and wind. An automatic defibrillator storage unit storage tower may be further included.

The automatic defibrillator storage unit storage tower includes a tower main body providing a storage unit accommodation space; a door coupled to the tower body to open and close the storage unit accommodating space; an emergency call button provided on one side of the tower body; and a door open/closed detection sensor provided on one side of the tower body to detect whether the door is opened or closed, wherein the IoT terminal is connected to the automatic defibrillator storage unit storage tower to be communicatively connected, and the door is opened and closed. Data including at least one selected from whether or not the automatic defibrillator is detached and whether the emergency call button is operated may be collected and transmitted to the integrated receiver.

The automatic defibrillator storage box is disposed in the tower main body of the automatic defibrillator storage unit storage tower to surround the entrance of the storage unit accommodation space, and when the door is closed, it contacts one side of the door and stores the storage unit. A first leak prevention unit is provided to prevent water from leaking into the accommodation space, and the storage unit body of the automatic external defibrillator storage unit is disposed to surround an entrance of the automatic external defibrillator storage space, so that when the door is closed, the storage unit body is provided. A second water leakage prevention unit may be provided to prevent water leakage into the automatic external defibrillator storage space by coming into contact with a water leakage prevention plate provided inside the door.

The automatic defibrillator storage unit includes a sliding movement rail coupled to a side surface of the storage unit body and connecting the storage unit body to one side of the tower body so that the storage unit body can be drawn in and out from the storage unit accommodating space by a sliding motion; and a fixing bracket provided on an upper portion of the storage unit body to fix the storage unit body to the tower body when the storage unit body is inserted into the storage unit accommodating space.

Embodiments of the present invention communicate with at least one automatic defibrillator storage box placed in a public place to determine whether the automatic defibrillator is normally operating, the battery status and pad status of the automatic defibrillator, the temperature, humidity, and temperature of the automatic defibrillator storage space. By monitoring whether there is a shock, whether the door of the automatic defibrillator storage box is opened or not, whether the automatic defibrillator is attached or not, and whether the emergency call button is operated, etc., it is possible to integrate and manage at least one automatic defibrillator storage box. It can increase management efficiency and reduce management cost.

1 is a configuration diagram schematically showing an integrated management system for an automatic defibrillator storage box according to an embodiment of the present invention.
2 is a diagram schematically showing a flow chart of a terminal system certification operation of an automatic defibrillator and an IoT terminal.
3 is a perspective view showing an outdoor automatic defibrillator storage box according to an embodiment of the present invention, showing a state in which an automatic defibrillator storage unit is withdrawn from the storage unit accommodating space.
FIG. 4 is an enlarged view of a portion of the automatic defibrillator storage unit of FIG. 3, showing a state in which the automatic defibrillator storage unit is retracted into the storage unit accommodating space.
5 is a perspective view showing a front portion of the automatic defibrillator storage unit of FIG. 4;
6 is a perspective view showing a rear portion of the automatic defibrillator storage unit of FIG. 5;

In order to fully understand the present invention and the advantages in operation of the present invention and the objects achieved by the practice of the present invention, reference should be made to the accompanying drawings illustrating preferred embodiments of the present invention and the contents described in the accompanying drawings.

Hereinafter, the present invention will be described in detail by describing preferred embodiments of the present invention with reference to the accompanying drawings. Like reference numerals in each figure indicate like members.

1 is a configuration diagram schematically showing an integrated management system for an automatic defibrillator storage box according to an embodiment of the present invention, and FIG. 2 is a diagram schematically showing a flow chart of a terminal system authentication operation of an automatic defibrillator and an IoT terminal. 3 is a perspective view showing an outdoor automatic defibrillator storage box according to an embodiment of the present invention, showing a state in which the automatic defibrillator storage unit is withdrawn from the storage unit accommodation space, and FIG. As an enlarged view of the automatic defibrillator storage unit, it is a view showing a state in which the automatic defibrillator storage unit is retracted into the storage unit accommodation space, and FIG. 5 shows the front portion of the automatic defibrillator storage unit of FIG. 4 It is a perspective view, and FIG. 6 is a perspective view showing the rear part of the automatic defibrillator storage unit of FIG. 5 .

As shown in these figures, the automatic defibrillator storage box integrated management system according to an embodiment of the present invention includes an automatic defibrillator storage unit 300 and an automatic defibrillator storage unit storage tower 500. It includes a storage box 1, an Internet of Things (IoT) terminal 700, an integrated receiver 800, and a server 900.

As shown in detail in FIG. 1, the case where the automatic external defibrillator 100 is disposed alone (a) and the case where the automatic external defibrillator 100 is stored in the automatic defibrillator storage unit 300 ( In case b), the automatic defibrillator storage unit 300 is stored in the automatic defibrillator storage unit 300, and the automatic defibrillator storage unit 300 is placed in the automatic defibrillator storage unit storage tower 500 while being stored therein. (c) may exist.

In general, cases (a) and (b) are the case of installation indoors, and case (c) will be the case of installation outdoors.

Hereinafter, description will be made based on the case of (c) installed outdoors, and therefore, the automatic defibrillator storage box 1 is an outdoor automatic defibrillator storage box 1, but the present invention is not limited thereto, and In the case of (a) and (b) to be installed, there are some differences in components, but the basic management method is similar.

The automatic defibrillator storage unit 300 serves to provide an automatic defibrillator storage space (S1) for storing an automatic defibrillator, and is provided to control the temperature and humidity inside the automatic defibrillator storage space (S1). , It is possible to store the automatic defibrillator in the best condition by controlling the optimum temperature and humidity for storing the automatic defibrillator placed outdoors.

The automatic defibrillator storage unit 300 includes a storage unit body 310, a sliding rail 320, a fixing bracket 330, a fan 340 for controlling humidity, a hot wire 350 for adjusting temperature, It includes an automatic defibrillator attachment/detachment detection sensor 360, a siren 370, a power supply unit 380, and a control unit (not shown).

The storage unit body 310 serves to provide an automatic defibrillator storage space S1.

The sliding movement rail 320 is coupled to the side of the storage unit body 310, and one side of the tower body 510 allows the storage unit body 310 to be drawn in and out from the storage unit accommodating space S2 by a sliding motion. serves to connect

Usually, the storage unit body 310 is fixed while being drawn into the storage unit accommodating space S2, but by providing a sliding rail 320 to conveniently and easily maintain the AED storage unit 300, The automatic defibrillator storage unit 300 can be easily taken out from the storage unit accommodation space S2.

The fixing bracket 330 is provided on the upper part of the storage unit body 310, and when the storage unit body 310 is inserted into the storage unit accommodating space S2, that is, a maintenance boss of the automatic defibrillator storage unit 300 is required. It serves to fix the storage unit body 310 to the tower body 510 in a state where the storage unit body 310 is drawn into the storage unit accommodating space S2.

The humidity control fan 340 is coupled to the storage unit body 310 and serves to adjust the humidity inside the automatic defibrillator storage space S1, and as shown in detail in FIGS. 3 and 4, the storage unit body It is disposed inside 310 and circulates air through the fan exhaust port 313 (see FIG. 5) to adjust the humidity inside the automatic defibrillator storage space S1.

The heating wire 350 for temperature control is coupled to the storage unit body 310, serves to adjust the internal temperature of the automatic defibrillator storage space S1, and is an internally arranged heating wire unit disposed inside the storage unit body 310. 351, and an externally disposed heating wire unit 352 extending from the internally disposed heating wire unit 351 to the outside of the storage unit body 310 and disposed to surround the outside of the storage unit body 310.

In the present embodiment, as shown in detail in Figs. ), by simultaneously applying heat from the inside and outside of the storage unit body 310, the internal temperature of the automatic defibrillator storage space S1 can be more efficiently controlled.

At this time, a hot wire cover plate (311, see FIG. 5) is provided on one side of the internally disposed hot wire unit 351, and the hot wire cover plate 311 serves to transfer the temperature more efficiently by being in close contact with the automatic defibrillator, Therefore, by providing the heated cover plate 311, the storage temperature of the automatic defibrillator can be more effectively controlled.

The hot wire cover plate 311 may be made of aluminum in order to maximize thermal conductivity and prevent the influence of magnetism, which also has an advantage of being resistant to corrosion.

The automatic defibrillator attachment/detachment detection sensor 360 is provided inside the storage unit body 310 and serves to detect whether the automatic defibrillator is detached from the automatic defibrillator storage space (S1), and determines whether the automatic defibrillator is detached or not. When is detected, data is transmitted to the IoT terminal 700 to be described later.

The siren 370 is provided inside the storage unit body 310 to sound an alarm, and the power supply unit 380 includes a fan 340 for controlling humidity, a hot wire 350 for adjusting temperature, and a sensor for detecting whether the automatic defibrillator is detached ( 360) and serves to supply power to the siren 370.

The control unit (not shown) controls the operation of the humidity control fan 340, the temperature control hot wire 350, the automatic defibrillator attachment/detachment sensor 360, the siren 370, and the power supply unit 380.

According to the present invention, not only the automatic defibrillator storage unit 300 but also the automatic defibrillator storage unit storage tower 500 to be described later are provided to store the automatic defibrillator by a double storage structure, so that the automatic defibrillator is placed outdoors. is more effectively protected from the external environment such as snow, rain and wind, so that the automatic defibrillator can be stored in the best condition.

On the other hand, the automatic defibrillator storage unit storage tower 500 is disposed outdoors, and the automatic defibrillator storage unit 300 is installed to protect the automatic defibrillator storage unit 300 from external environments such as snow, rain and wind. It serves to provide a storage unit accommodating space (S2, see FIG. 4) for accommodating.

The automatic defibrillator storage unit storage tower 500 includes a tower body 510, a door 520, an emergency call button 530, a warning light 540, and a door open/close detection sensor (not shown). include

The tower body 510 serves to provide a storage unit accommodating space S2, and in this embodiment, as shown in detail in FIG. 3, the storage unit accommodating space S2 is provided at the top and additional equipment at the bottom. A space was provided to place the back.

The door 520 is coupled to the tower body 510 and serves to open and close the storage unit accommodating space S2.

According to the present invention, the automatic defibrillator storage unit 300 and the automatic defibrillator storage unit storage tower 500 are provided with a double-structured leakage prevention part, which will be described below, so that the automatic cardiac defibrillator storage unit 300 can be stored automatically. It is possible to more effectively protect the shock absorber storage space S1 from leakage due to snow and rain.

First, the tower body 510 is disposed to surround the entrance of the storage unit accommodating space S2, so that when the door 520 is closed, it contacts one side of the door 520 and provides access to the storage unit accommodating space S2. A first water leakage prevention unit 515 is provided to prevent water leakage.

In addition, the storage unit body 310 of the automatic defibrillator storage unit 300 is disposed to surround the entrance of the automatic external defibrillator storage space S1, and when the door 520 is closed, the inside of the door 520 A second water leakage prevention unit 315 is provided to prevent water leakage to the automatic external defibrillator storage space S1 by coming into contact with the water leakage prevention plate 521 provided.

That is, the contact between the door 520 and the first water leakage prevention part 515 primarily prevents water leakage into the storage unit receiving space S2 of the tower body 510, and the inside of the door 520 Since leakage into the automatic external defibrillator storage space (S1) is secondarily prevented by the contact between the provided water leakage prevention plate 521 and the second water leakage prevention part 315, the water leakage prevention part of the dual structure prevents the automatic cardiac arrest. It is possible to more effectively protect the impactor storage unit 300 from water leakage caused by snow and rain.

In addition, due to the double structure in which the automatic external defibrillator storage unit 300 is disposed inside the storage unit accommodation space S2 of the tower body 510, an air layer is formed between the tower body 510 and the storage unit body 310. Since it can be formed, there is an advantage in that the temperature inside the automatic defibrillator storage space (S1) can be more effectively controlled.

As shown in detail in FIG. 3, a pair of intake fans 517 and intake vents 518 are provided on both sides of the lower portion of the tower body 510, and as shown in detail in FIG. 4, the upper portion of the tower body 510 exhausts the air. Since the fan 519 and the exhaust vent (not shown) control the air flow inside the tower body 510, the humidity inside the storage unit accommodation space S2 can be more effectively controlled, and furthermore, the automatic defibrillator storage space S1 ) has the advantage of being able to control the internal humidity more effectively.

The intake port 518 and the exhaust port (not shown) are formed with an inclined blocking film to block the inflow of rainwater, and a fine dust blocking filter (not shown) is added between the intake fan 517 and the intake port 518. can be provided with

Therefore, by providing the automatic defibrillator storage unit storage tower 500 having this structure, temperature and humidity can be more effectively controlled, and the inflow of rainwater can be effectively prevented.

The emergency call button 530 is provided on one side of the tower main body 510, and when the emergency call button 530 is pressed in the event of an emergency, a signal is transmitted to the server, and medical support personnel including ambulances are sent according to this signal. You will be able to request a dispatch so that you can arrive on time.

A door open/closed detection sensor (not shown) is provided on one side of the tower body 510 and serves to detect whether the door 520 is opened or closed, and transmits data to the IoT terminal 700 to be described later when the door open/closed state is detected. will do

Meanwhile, the IoT (Internet of Things) terminal 700 is disposed in the automatic defibrillator storage space (S1) of the automatic defibrillator storage unit 300, and is wirelessly connected to communicate with the automatic defibrillator, thereby enabling automatic defibrillator status. It collects data about and transmits the collected data to the server.

The IoT terminal 700 may be communicatively connected to the automatic defibrillator 100 by a short-range wireless connection method such as Bluetooth or infrared communication (IrDA), and the automatic defibrillator storage unit 300 and It can also be connected to the defibrillator storage unit storage tower 500 to enable additional communication.

At this time, the data on the state of the automatic defibrillator collected by the IoT terminal 700 may be data on self-diagnosis that the automatic defibrillator regularly performs according to a predetermined cycle.

The data collected by the IoT terminal 700 is whether the automatic defibrillator is operating normally, the battery status of the automatic defibrillator, the temperature and humidity of the automatic defibrillator storage space, whether the door is opened or closed, whether the automatic defibrillator is removed, and emergency calls. It may include at least one selected from whether the button is operated or not, and depending on the situation, important data may be collected preferentially.

Also, depending on the type of data, data may be continuously collected in real time or periodically according to a predetermined period.

The data collected by the IoT terminal 700 is transmitted to the server 900 and used for integrated management of at least one automatic defibrillator storage box.

In this embodiment, data collected by the IoT terminal 700 may be different according to a target to which the IoT terminal 700 is communicatively connected.

For example, when the IoT terminal 700 is communicatively connected to the automatic defibrillator 100, data on whether the automatic defibrillator is normally operating and the battery status of the automatic defibrillator may be obtained, and the IoT terminal 700 When is communicatively connected to the automatic defibrillator storage unit 300, the temperature and humidity of the automatic defibrillator storage space and data on whether the automatic defibrillator is attached or detached can be obtained, and the IoT terminal 700 stores the automatic defibrillator When connected communicatively with the unit storage tower 500, it is possible to obtain data on whether the door is opened or not and whether the emergency call button is operated.

On the other hand, the integrated receiver 800 serves to receive data from at least one IoT terminal 700 and transmit the data to the server 900, and in general, the IoT terminal 700 and the integrated receiver 800 are remote Since various types of data are transmitted and received through communication, an operation of encrypting and transmitting/receiving data is performed between the IoT terminal 700 and the integrated receiver 800 for security.

In detail, the IoT terminal 700 encrypts the collected data and converts it into encrypted data, transmits the converted encrypted data to the integrated receiver 800, and the integrated receiver 800 decrypts the received encrypted data. The communication method between the IoT terminal 700 and the integrated receiver 800 is IoT communication LTE-M (KT), NB-IoT (KT), ROLA (SKT), public switched telephone network (PSTN), wireless Internet (Wi-Fi), Ethernet, and the like may be used.

Meanwhile, the server 900 plays a role of integrally managing at least one automatic defibrillator storage box by storing and processing data received from at least one IoT terminal 700 .

As shown in detail in FIG. 1 , an administrator can simply access the server 900 using a PC or mobile device without restrictions on a connection location.

Here, the server 900 may be a cloud-type server system, and since the manager can monitor in real time through a management platform, a plurality of automatic defibrillator storage boxes can be easily and efficiently integrated and managed.

For example, when the automatic defibrillator storage box detects whether the door of the automatic defibrillator storage box is opened or not, or whether the automatic defibrillator is attached or detached, the corresponding data is transmitted to the IoT terminal 700 and then transmitted to the server 900. . And the transmitted data is stored and processed in the server 900, and sent to the manager through the management platform in real time using a method such as text message (SMS), e-mail (E-mail) or various social network services (SNS). will be forwarded to the manager.

In addition, it is possible to efficiently manage the replacement timing of an automatic defibrillator by monitoring and managing the remaining battery capacity and pad expiration date of the automatic defibrillator and creating a checklist on a regular basis.

In addition, if certain conditions are met when receiving data on whether the emergency call button is operating, for example, the door of the automatic defibrillator storage box is opened and the attachment and detachment of the automatic defibrillator is detected, the use of the automatic defibrillator and emergency If the operation of the call button is detected, it is determined that an emergency has actually occurred, and a dispatch request can be made so that medical support personnel including an ambulance can arrive on time.

Hereinafter, with reference to FIG. 1, the operation of the automatic defibrillator container integrated management system having the above configuration will be described.

First, the automatic defibrillator 100 regularly performs self-diagnosis according to a predetermined cycle, for example, by performing self-diagnosis once every day at a set time, and data related to the state of the automatic defibrillator. is delivered to the IoT terminal 700.

The types of data related to the state of the AED include the serial number of the AED, the date of manufacture of the AED, the time of self-diagnosis, whether the AED is normal, whether the high voltage circuit is faulty, whether the battery is insufficient, impedance Circuit errors, electrocardiogram circuit errors, battery warnings, system errors, remaining battery level (different for each model), normal presence or absence of pads (different for each model), and in some cases, other necessary data could be added

Since the IoT terminal 700 is disposed inside the automatic external defibrillator storage unit 200 and is disposed close to the automatic external defibrillator 100, such data is transmitted from the automatic external defibrillator 100 to the IoT terminal 700. When it is, it is advantageous to transmit by a short-range wireless connection method such as Bluetooth or infrared communication (IrDA).

Meanwhile, the automatic defibrillator storage unit 300 and the automatic defibrillator storage unit storage tower 500 are communicatively connected to the IoT terminal 700 like the automatic defibrillator 100, and the temperature and humidity of the automatic defibrillator storage space Data such as whether an external shock occurs, whether a door is opened or not, whether an automatic defibrillator is attached or detached, a communication error, whether a check mode is operating, and whether an emergency call button is operating can be transmitted to the IoT terminal 700, In some cases, other necessary data may be additionally transmitted.

Next, the IoT terminal 700 transmits data collected from the automatic defibrillator 100, the automatic defibrillator storage unit 300, and the automatic defibrillator storage unit storage tower 500 to the integrated receiver 800, In general, since the integrated receiver 800 is located close to the server 800, there is a long physical distance between the IoT terminal 700 and the integrated receiver 800.

Therefore, long-distance communication is used rather than short-distance wireless communication, and the communication method is IoT communication LTE-M (KT), NB-IoT (KT), ROLA (SKT), PSTN (public switched telephone network), wireless Internet (Wi-Fi), Ethernet (Ethernet), etc. may be used.

At this time, the data to be transmitted includes the data on the state of the automatic defibrillator, the serial number of the IoT terminal, the type of communication, the connection status of the contact port, the strength of communication, and the system error code. may be transmitted, and other necessary data may be added according to the case.

Since the IoT terminal 700 and the integrated receiver 800 transmit and receive various data through long-distance communication, data encryption is required for security.

Therefore, the IoT terminal 700 encrypts the collected data and converts it into encrypted data, transmits the converted encrypted data to the integrated receiver 800, and the integrated receiver 800 decrypts the received encrypted data to generate non-encrypted data. , and the converted unencrypted data is transmitted to the server 900.

Since the server 900 can monitor in real time through the management platform, a plurality of automatic defibrillator storage boxes can be easily and efficiently integrated and managed.

As such, according to the present embodiment, communication with at least one automatic defibrillator storage box placed in a public place determines whether the automatic defibrillator is operating normally, the battery status of the automatic defibrillator, the temperature and humidity of the automatic defibrillator storage space, and automatically At least one automatic defibrillator storage box can be integrated and managed by monitoring whether the door of the defibrillator storage box is opened or not, and whether the automatic defibrillator is attached or not, thereby increasing the management efficiency of the automatic defibrillator storage box and reducing management costs do.

As such, the present invention is not limited to the described embodiments, and it is obvious to those skilled in the art that various modifications and variations can be made without departing from the spirit and scope of the present invention. Therefore, it should be said that such modifications or variations fall within the scope of the claims of the present invention.

S1: Automated Defibrillator storage space S2: Storage unit storage space
1: outdoor automatic defibrillator storage box 100: automatic defibrillator
300: automatic defibrillator storage unit 310: storage unit body
315: second leak prevention unit 320: sliding moving rail
330: fixed bracket 340: fan for humidity control
350: heating wire for temperature control 351: internally arranged heating wire
352: external arrangement hot wire part
360: automatic defibrillator attachment detection sensor
370: Siren
500: automatic defibrillator storage unit storage tower
510: tower body 515: first leak prevention unit
517: intake fan 518: intake port
519: exhaust fan
520: door 521: leak prevention plate
530: emergency call button 700: IoT terminal
800: integrated receiver 900: server

Claims (7)

An automatic defibrillator storage box providing an automatic defibrillator storage space for storing an automatic defibrillator, and having at least one automatic defibrillator storage unit capable of adjusting temperature and humidity inside the automatic defibrillator storage space;
At least one automatic defibrillator storage unit is disposed in the automatic defibrillator storage space, and is wirelessly connected to communicate with the automatic defibrillator to collect data on the state of the automatic defibrillator and transmit the data to a server. At least one IoT (Internet of Things) terminal that transmits;
a server that stores and processes data received from at least one IoT terminal and manages the at least one automatic defibrillator storage box in an integrated manner; and
An integrated receiver receiving the data from at least one IoT terminal and transmitting the data to the server,
The IoT terminal,
The collected data is encrypted and converted into encrypted data, and the converted encrypted data is transmitted to the integrated receiver;
The integrated receiver decrypts the received encrypted data, converts it into non-encrypted data, and transmits the non-encrypted data to the server;
The automatic defibrillator storage unit,
a storage unit body providing a storage space for the automatic defibrillator;
a humidity control fan that is coupled to the storage unit body and controls humidity inside the automatic defibrillator storage space;
a heat wire coupled to the storage unit main body and configured to adjust the temperature inside the automatic defibrillator storage space; and
A defibrillator attachment/detachment detection sensor provided inside the storage unit body to detect whether or not the automatic defibrillator is detached from the automatic defibrillator storage space;
The IoT terminal,
It is communicatively connected to the automatic defibrillator storage unit, collects data on the temperature and humidity of the automatic defibrillator storage space, transmits the data to the integrated receiver, and detects the automatic defibrillator from the automatic defibrillator attachment/detachment detection sensor. Data on whether or not to attach or detach is collected and transmitted to the integrated receiver;
The automatic defibrillator storage box,
An automatic defibrillator storage unit storage tower disposed outdoors and providing a storage unit accommodating space for accommodating the automatic defibrillator storage unit to protect the automatic defibrillator storage unit from external environments such as snow, rain and wind. Including more,
The automatic defibrillator storage unit storage tower,
a tower body providing an accommodation space for the storage unit; and
A door coupled to the tower body to open and close the storage unit accommodating space;
In the tower body, a first water leakage prevention part is disposed to surround the entrance of the storage unit accommodating space and prevents water leakage into the storage unit accommodating space by contacting one side of the door when the door is closed,
The storage unit body of the automatic defibrillator storage unit is arranged to surround the entrance of the automatic defibrillator storage space, and when the door is closed, it comes into contact with a leak prevention plate provided inside the door to accommodate the automatic defibrillator. An integrated management system for an automatic defibrillator storage box, characterized in that a second leak prevention unit is provided to prevent leakage into the space. delete According to claim 1,
Data on the state of the automatic defibrillator collected by the IoT terminal,
The automatic defibrillator storage box integrated management system, characterized in that the data for the self-diagnosis that the automatic defibrillator regularly performs according to a predetermined cycle. delete According to claim 1,
The automatic defibrillator storage unit,
a siren provided inside the storage unit body to sound an alarm;
a power supply unit supplying power to the fan for adjusting the humidity, the hot wire for adjusting the temperature, the sensor for detecting whether the automatic defibrillator is attached or not, and the siren; and
The automatic defibrillator storage box integrated management system further comprising the humidity control fan, the temperature control hot wire, the automatic defibrillator attachment/detachment detection sensor, and a control unit for controlling the operation of the siren and the power supply unit. delete According to claim 1,
The automatic defibrillator storage unit storage tower,
an emergency call button provided on one side of the tower body; and
Further comprising a door open/closed detection sensor provided on one side of the tower body to detect whether the door is opened or closed,
The IoT terminal,
It is communicatively connected to the automatic defibrillator storage unit storage tower, and collects data including at least one selected from among whether the door is opened and closed, whether the automatic defibrillator is attached and detached, and whether the emergency call button is operated, and the integrated receiver Automated defibrillator storage box integrated management system, characterized in that for transmission.

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