KR101291415B1 - A cabinet of the automated external defibrillator managment system - Google Patents

Abstract

PURPOSE: A management system for a cabinet of the automated external defibrillator is provided to stably maintain the cabinet of the automated external defibrillator at the location where commercial electricity is not supplied by supplying the power to the system and environment retention system using solar power generation. CONSTITUTION: A cabinet of the automated external defibrillator stores the automated external defibrillator and includes the door enabling to open and close. The cabinet of the automated external defibrillator comprises: a micro control unit (10) arranged in the cabinet, and performs the whole control function; a power control unit (20) performing the supply and control of the power by the micro control unit; a solar cell module (30) arranged in one side of the cabinet in which generated electricity is charged in a battery (32), and supplies the power into the power control unit; a real time clock unit (40) which is connected to the micro control unit, and control the management and information of the cabinet in the pre-set time; a communication device (50) which is connected to the micro control unit, and reports the use of the automated external defibrillator to the administrator; and a temperature sensor (60) measuring the temperature of the automated external defibrillator and controlling the operation of the cooling and heating apparatus (62) (64). [Reference numerals] (20) Power control unit; (30) Solar cell module; (32) Voltage sensor; (34) Battery; (40) Real time clock unit; (60) Temperature sensor; (62) Cooling apparatus; (64) Heating apparatus; (70) Lighting apparatus; (AA) Power control; (BB) Battery voltage; (CC) Wired and wireless communication system; (DD) Local communication system; (S1) Door opening/closing checking switch; (S2) ALD separation checking switch

Description

{A cabinet of the automated external defibrillator Managment System}

The present invention relates to an automatic defibrillator storage management system using photovoltaic power generation. More specifically, the electrode pad of the automatic defibrillator can always be stored at a temperature within a certain range, even in places such as outdoors where commercial power cannot be supplied. The present invention relates to an automatic defibrillator storage management system using photovoltaic power generation to perform communication and environmental maintenance functions in a power supply and an automatic defibrillator storage using solar power generation.

Automated External Defibrillator (AED) is a machine that automatically removes defibrillation. When the heartbeat is stopped and blood flow is interrupted to each tissue, the supply of oxygen, which is essential for biological activity, is stopped. It is a device that gives an electric shock to return the heartbeat to normal.

In the urgent situation when the AED should be used, the AED may not be able to play its role due to the failure of the AED, the battery power shortage, the life of the electrode pad, etc. Periodic checks should be made to the AED for any problems.

In other words, the AED can be checked remotely using a wired / wireless communication network, and the AED self-diagnoses the power status of the internal battery, whether there is an internal electronic circuit failure, and when the electrode pad is installed using the self-diagnosis function. After the self-diagnosis is delivered to the management server through the wired / wireless network, the AED should be easily managed even if the administrator does not go to the area where the AED is installed. It is desirable that the optimum temperature for use so that the function can be exhibited can be maintained in the range of 0 to 40 degrees.

And the defibrillator management system using the power line communication network disclosed in the prior art Patent Publication No. 10-2010-0080695, the defibrillator storage containing a defibrillator and openable cover, the defibrillator storage box corresponding to the management identifier, if the cover is opened And a defibrillator management server that generates an included call signal and transmits it to a power line communication network and receives a call signal through a power line communication network and executes a call using pre-stored contact information. have.

However, the conventional automatic defibrillator including the prior art does not control the temperature of the storage pads of the automatic defibrillator because the temperature control of the defibrillator is not performed, so that the function of the automatic defibrillator does not function during the high temperature of winter or low winter. Not only that, there was a problem that the AED storage system with built-in communication function and environmental maintenance function could not be installed and operated in the outdoor where the AED can not be supplied with stable management.

The present invention has been made to solve this problem, by installing a cooling and heating device in the automatic defibrillator storage to maintain the storage temperature of the electrode pad through the temperature sensor, using a solar power communication system and environment By providing power to the maintenance system, it is possible to reliably manage the AED storage box under optimal conditions in a location where commercial power cannot be supplied.

The present invention provides an automatic defibrillator storage including an openable and openable automatic defibrillator, a micro control unit installed in the automatic defibrillator storage box to perform an overall control function, and supplying power by the micro control unit. A power control unit for controlling the solar cell, a solar cell module installed at one side of the AED storage box and charged with electricity generated in the battery to supply power to the power control unit, and stored at a predetermined time connected to the micro control unit; Real-time clock unit for controlling the management and information of the communication device connected to the micro-control unit to report the use of the automatic defibrillator to the administrator, and the temperature of the automatic defibrillator storage by measuring the temperature of the automatic defibrillator Solar light with temperature sensor to control operation Features a defibrillator storage management system using power generation.

It is characterized in that the lighting device is provided to provide lighting by the real-time clock unit connected to the micro control unit.

The door opening and closing confirmation switch for checking the door opening and closing state is provided in the automatic defibrillator storage box, and a signal is applied to the micro control unit so that the administrator can check the connection through a wired / wireless communication device or a short range communication device. do.

The automatic defibrillator departure confirmation switch is provided in the automatic defibrillator storage box to check that the automatic defibrillator has been removed from the storage box. It is characterized by that it was possible to.

The battery is characterized in that the voltage sensor is connected to monitor the capacity of the battery as a means to be applied to the micro control unit in real time.

The power control unit is characterized by supplying and controlling the power of the wired / wireless communication device and the near field communication device and the lighting device, the cooling and heating device in the automatic defibrillator storage by the control of the microcontroller.

The temperature sensor is characterized in that to control the operation of the cooling, heating device to maintain the electrode pad of the automatic defibrillator at a temperature of 0 ~ 40 degrees.

The AED storage management system of the present invention has the following effects.

first ; By installing a cooling and heating device in the automatic defibrillator storage box, the temperature of the electrode pad can be maintained at a temperature of 0 to 40 degrees through the temperature sensor so that the function of the electrode pad can be made smoothly under optimal conditions.

Secondly, it is possible to reliably manage the AED storage box in a location where commercial power cannot be supplied by enabling power supply to communication systems and environmental maintenance systems using solar power generation.

Third: The automatic defibrillator can be checked remotely by using wired / wireless communication device and short-range communication device, and it is effective to diagnose and manage battery power status, internal electronic circuit failure, installation time of electrode pad, etc. have.

1 is a block diagram showing an automatic defibrillator storage management system using photovoltaic power generation according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

The present invention is a machine that automatically removes the defibrillation of the heart rhythm stops the blood flow to each tissue as a phenomenon that the supply of oxygen, such as essential to the biological activity is interrupted, give an external electric shock to return the heart beat normally Automated External Defibrillator (AED) is stored in a defibrillator storage box using solar power generation in a location where commercial power cannot be supplied in the management of the AED storage box, which includes an openable door, which is housed in an enclosure. It is a management system that enables stable maintenance and management.

The automatic defibrillator storage management system according to the present invention includes a micro control unit (10) installed in the automatic defibrillator storage box to perform an overall control function, and supply and control of power by the micro control unit (10). A solar cell module 30 installed at one side of the automatic defibrillator storage and charging the electricity generated in the battery 32 to supply power to the power control unit 20, and the micro control unit. Real-time clock unit 40 connected to the (10) to control the management and information of the storage box at a predetermined time, and a communication device connected to the micro-control unit 10 to report the use of the automatic defibrillator to the administrator 50 and a temperature sensor 60 for measuring the temperature of the defibrillator storage to control the operation of the cooling and heating devices 62 and 64. .

In addition, the lighting device 70 for controlling the management and information of the storage box and providing lighting by the real-time clock unit 40 connected to the micro-control unit 10 is installed in the automatic defibrillator storage box and the lighting device at night. (70) makes it easy to identify the location of the defibrillator storage.

And the door opening and closing confirmation switch (S1) for checking the door opening and closing state of the automatic defibrillator storage, and the automatic defibrillator departure confirmation switch (S2) for confirming that the defibrillator is separated from the storage is provided. When the door of the AED storage box is opened by the door opening / closing check switch S1 or the AED is released from the storage box, a signal is applied to the micro control unit 10, wired, wireless or near field communication. It is preferable to enable the administrator to check whether the AED is used through the device 50.

The battery 32 charges the electricity generated by the solar cell module 30 and supplies it to the power controller 20, but the voltage sensor 34 is connected to the battery 32 to control the battery voltage in real time. 10) Monitor the battery capacity as a means to be applied to.

The power control unit 20 is a wired or wireless or near field communication device 50 and the lighting device 70, the cooling, heating device 62, 64 in the automatic defibrillator storage under the control of the micro-control unit 10. Supply and control.

The real time clock unit 40 transmits the state of the AED to a manager using a wired / wireless or near field communication device 50 at a preset time so that the storage state can be checked, and the lighting device 70 is turned on at night. It allows you to perform the function.

The solar cell module 30 of the present invention is to enable the power supply to the communication system and the environmental maintenance system using the photovoltaic power to manage the automatic defibrillator storage at a location that can not supply commercial power.

The solar power generation means consisting of a solar cell module 30 consisting of a solar cell for converting the solar energy into electrical energy in the above, and a configuration including an inverter for controlling the output from the solar cell module is a conventional system. However, the detailed description is omitted because it may be made of a system having a similar structure.

The wired / wireless and short-range communication device 50 enables to check the AED remotely using various lines such as a telephone, a dedicated network, the Internet, and wired / wireless communication networks such as LAN, Wi-Fi, CDMA, and WCDMA. The defibrillator uses the self-diagnosis function to self-diagnose the internal battery power status, internal electronic circuit breakdown, and electrode pad installation time, and then deliver the results of the self-diagnosis to the management server through the wired / wireless communication network. This makes it easy to manage the AED without having to go to the area where the AED is installed.

The micro control unit 10 provides information such as a temperature sensor 60, a voltage sensor 34, a door open / close confirmation switch S1, an automatic defibrillator check switch S2, and the like from the real time clock unit 40. By using the time to control the communication device 50, to provide lighting through the lighting device 70, and to operate the cooling device 62 and the heating device (64).

The temperature sensor 60 operates the air conditioner 62 when the storage temperature of the AED is high, and operates the heating device 64 when the temperature is low, so that the electrode pad of the AED can be always used. It is to establish an environmental system to maintain the temperature of 40 degrees.

For example, when the temperature of the storage box detected by the temperature sensor 60 is high, the cooling fan of the air conditioner 62 is operated to lower the internal temperature of the storage box. When the temperature of the storage box is low, the heater of the heating device 64 is turned off. It is a means to raise the temperature of the storage box by operating it so that the electrode pad can function properly, so that the electrode pad of the AED can be used while maintaining the temperature of 0 to 40 degrees at all times.

And the door opening and closing check switch (S1) to confirm that the door of the defibrillator storage is open, the automatic defibrillator (AED) departure confirmation switch (S2) can be confirmed that the defibrillator has been removed from the storage box. It is supposed to be.

When the door of the AED locker is opened or the AED is removed from the AED storage box, the door is opened through the door open / close check switch (S1) and the AED (S2) check switch (S2). It transmits a signal to the control unit 10, and reports the use of the AED to the administrator through the wired or wireless or near field communication device 50 so that management can be made.

While the present invention has been described with reference to the exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments.

10: micro control unit 20: power control unit
30: solar cell module 32: battery
34: voltage sensor 40: real time clock
50: communication device 60: temperature sensor
62: cooling device 64: heating device
70: lighting device S1: door opening and closing confirmation switch
S2: AED release switch

Claims (7)

In an AED compartment containing an AED storage and opening and closing door,
A micro control unit 10 installed in the AED storage box to perform an overall control function, a power control unit 20 to supply and control power by the micro control unit 10, and the automatic defibrillator The solar cell module 30 is installed at one side of the synchronous storage box and charged with electricity generated in the battery 32 to supply power to the power control unit 20, and is connected to the micro control unit 10 and stored at a predetermined time. Real-time clock unit 40 for controlling the management and information of the communication device 50 connected to the micro-control unit 10 to report whether the use of the automatic defibrillator to the administrator, and the defibrillator storage of It consists of a temperature sensor 60 to measure the temperature to control the operation of the cooling, heating devices (62, 64), the temperature sensor 60 is the temperature of the electrode pad of the AED 0 ~ 40 degrees AED library management system using solar power as that characterized hayeoseo including one that can control the operation of the cooling and heating devices (62, 64) to maintain.
The method of claim 1,
Automated defibrillator storage management system using solar power, characterized in that the illumination device 70 is provided to provide illumination by the real-time clock unit 40 connected to the micro-control unit 10.
The method of claim 1,
The door opening and closing confirmation switch (S1) is provided to check the door opening and closing state in the automatic defibrillator storage box, the signal is applied to the micro-control unit 10 so that the administrator can check through the communication device 50 Automatic defibrillator storage management system using photovoltaic power generation.
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