KR20180043164A - Storage case of automated external defibrillator, and platform for remote total management of automated external defibrillator - Google Patents

Abstract

The present invention relates to a storage case for an automated external defibrillator and a remote integrated management platform for an automated external defibrillator. According to the embodiment of the present invention, the storage case for an automated external defibrillator includes: a case accommodating at least one automated external defibrillator inside; a management sensing board installed in the case and sensing a storage environment, a managed state, and a defect by each automated external defibrillator, wherein the management sensing board generates information on the sensed defect, management state information, and storage environment information; a light bar formed on the outer surface of the case and generating an alarm when each automated external defibrillator is separated or is carried out or when there is a failure of the management of the automated external defibrillator; and a wireless antenna installed in the light bar or on the outer side of the case and transmitting the defect information, the management state information, and the storage environment information from the management sensing board to a gateway server by wire or wirelessly. The storage case for an automated external defibrillator can monitor and integrally manage the defect, the storage environment, and the managed state of the automated external defibrillator installed in a public place in real time. So, the storage case for an automated external defibrillator can increase management efficiency and can reduce management costs.

Description

{STORAGE CASE OF AUTOMATED EXTERNAL DEFIBRILLATOR, AND PLATFORM FOR REMOTE TOTAL MANAGEMENT OF AUTOMATED EXTERNAL DEFIBRILLATOR}

The present invention can improve the accuracy and efficiency of management and improve the management cost by monitoring and managing the defective state, the storage environment, and the management state of the automatic cardiopulters placed in public places in real time at the installation and management institutions. And a remote integrated management platform for an automated cardioplegia.

Generally, there are many emergency facilities such as terminal, subway waiting room, and amusement park, where emergency facilities or first aid equipments for emergency treatment are stored in case of an accident, do. (Article 47-2 of the Act on Emergency Medical Care; duties such as the provision of emergency equipment for cardiopulmonary resuscitation)

In addition to emergency supplies, an Automated External Defibrillator is placed to provide an electrical shock to the heart, so that the heart can be exposed to an electrical shock when an emergency occurs.

However, the emergency cardiac pacemaker, which is a emergency device, has a built-in battery to receive the power. The battery can not predict the amount of change due to the environmental change caused by the weather, and because of the natural discharge, There are cases where the life of a person can not be maintained in a situation. Therefore, in order to prevent the natural discharge of the automatic cardioplegia, it is inconvenient to continuously check the remaining capacity of the battery of the automatic cardioplegia.

Conventionally, after setting the shelf life for a certain period of time using the placement date of the automatic heart paddles to manage the battery residual amount and the pad of the automatic paddler, it is possible to replace the battery and the pad according to the expiration date, I have also checked.

In particular, in order to ensure stable use of the automatic cardioplegia for a long period of time, the condition of the automatic cardioplegia should be checked on a monthly basis, but the date of installation of the automatic cardiopulmonary device is used to determine the expiration date for a certain period of time, In this way, management is difficult because of the large amount of management. Furthermore, the enforcement of legislation related to the installation of multi-use facilities and apartment houses for automatic pacemakers has made it even more difficult to identify and monitor the rapidly increasing locations of automatic pacemakers.

In addition, since it is installed in a public place, expensive medical equipment theft occurs at late night or early morning hours when people do not come and go. Therefore, there is a problem that equipment can not be used when necessary, There was also a problem that theft could not prepare for monetary damages and emergency situations.

In this regard, in recent years, the location and storage information of the automatic cardiopulmonitor installed in a public place is monitored in real-time by a control center such as a city, a county, a ward, a public health center, There is a need for an emergency rescue system.

At this point, however, the emergency rescue system is in place for automatic pneumatic stowers, battery and pad management deadlines and theft. It is only a matter of periodically notifying about whether or not it is lost. In reality, the administrative staff in the public health center needs to find out and manage the deposit, so a more efficient management platform is needed. Especially, since it is obliged to check the emergency equipment at least once a month by the Article 47-2 of the Emergency Medical Care Act (obligations such as the provision of emergency equipment for cardiopulmonary resuscitation), the management efficiency should be further improved.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above problems, and it is an object of the present invention to provide a system and a method for managing and managing defects, And to provide a remote integrated management platform of an automatic cardiopulmator.

According to another aspect of the present invention, there is provided an automatic cardiopulmonary storage unit including at least one automatic cardiopulmor accommodated therein, And a management sensing board for sensing the storage environment and generating sensed defect information, automatic cardiac pacemaker detachment information, management state information, and storage environment information, A wake-up lamp for generating an alarm in case of an out-of-management or management failure, and a wired / wireless transmitting / receiving unit for receiving defect information, management status information and storage environment information from the management sensing board, FPCB antenna.

According to another aspect of the present invention, there is provided a remote integrated management platform for an automated cardiac pacemaker, including at least one automatic cardiac pacemaker, A plurality of automated cardioplegia storage compartments containing a management sensing board for sensing; A plurality of gateway servers for receiving and collecting anomaly information, management status information, and storage environment information for each of the automatic cardiopulters from at least one of the plurality of automatic cardiopulmonary storage boxes; And an integrated management server for monitoring and analyzing the defect information, management status information, and environment information of the deposit box for each automatic pacemaker received through a plurality of gateway servers in real time to support remote management of each automatic pacemaker .

The automated cardiac pendulum storage system and the remote integrated management platform of the automatic cardioplecrator according to the embodiments of the present invention having various technical features as described above can be applied to the automatic cardiopulse storage boxes disposed in multiple use facilities and public places, And a management sensing board capable of detecting the presence or absence of the cardiac pacemaker and the storage environment, so that the management state of the automatic cardiopulters can be more accurately checked.

In addition, it is possible to increase the reliability of the management information by allowing the management information on the automatic cardiopulters to be transmitted to the management institution through short-range and long-distance wireless communication without being affected by the communication failure due to the storage material and the like.

In this way, in the present invention, it is possible to monitor and manage the abnormality of each of the automatic cardiopulters, the storage environment, and the management state in real time in the management institutions, thereby improving the management efficiency and accuracy and reducing the management cost It is effective.

1 is a block diagram illustrating a remote integrated management platform of an automatic cardiopulmor according to an embodiment of the present invention.
FIG. 2 is a block diagram specifically illustrating the internal arrangement of the automatic cardiopulmonary container shown in FIG. 1. FIG.
FIG. 3 is a block diagram specifically illustrating an automatic cardiac pendulum management sensing board shown in FIG. 2. FIG.
4 is a block diagram specifically illustrating the integrated management server shown in FIG.

The above and other objects, features, and advantages of the present invention will become more apparent by describing in detail exemplary embodiments thereof with reference to the attached drawings, which are not intended to limit the scope of the present invention. In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail. Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram illustrating a remote integrated management platform of an automatic cardiopulmor according to an embodiment of the present invention.

Referring to FIG. 1, a remote integrated management platform of an automatic cardiopulmonitor includes a plurality of automatic cardiopulmonitors including a management sensing board for detecting at least one of a cardiac pacemaker, Management state information, storage environment, and event information for each of the automatic cardiopulters from at least one of the automatic cardiopulmonary storages 100 of the storage box 100 and the plurality of automatic cardiopulmonary storage boxes 100, Management status information and storage environment information for each of the automatic cardiopulters received through the plurality of gateway servers 300 and the plurality of gateway servers 300 is monitored and analyzed in real time, And an integrated management server 500 that supports remote management for the user.

Each of the automatic cardiopulmonary storages 100 may be individually disposed with or separated from each other at regular intervals in a public place such as a public house or a subway platform. Each of the automatic cardiopulmonary storages 100 is arranged in the form of a wall, a stand, a display combined with a closet type display, a public telephone, an ATM, and a storage box. At least one Of the cardiac pacemaker. In response to each of the stored cardiac arrestors, a management sensing board is configured to detect in real time whether or not the cardiac pacemaker is defective, managed, and stored. Additional components that are configured in each of the automated cardiovascular storages 100 will now be described in more detail with reference to the accompanying drawings.

The plurality of gateway servers 300 are intermediate management servers that can be arranged in an intermediate management agency such as a public health center, city, county, or district. The plurality of gateway servers 300 may receive defect information, management status information, and storage status information for each of the automatic cardiopulters from at least one automatic cardiopulmonary storage box 100 belonging to the plurality of automatic cardiopulmon storage boxes 100, Information is received. That is, the system receives defect information, management status information, and storage environment information sensed by each management sensing board provided in each of the automatic cardiopulmonary storages 100, collects the collected information for each region, and transmits the information to the integrated management server 500 .

Each gateway server 300 basically acts as a gateway and an integrated receiver. In addition, each gateway server 300 can display defect information, management status information, and storage environment information detected on each management sensing board on a monitor. Accordingly, the intermediate administrators can confirm in real time the defect status, the management status, and the storage environment for each of the automatic cardiopulters through the respective gateway servers 300 through text transmission and monitoring.

The integrated management server 500 can be a final management server that can be deployed in city, county, district, and jurisdictional health control centers. The integrated management server 500 receives fault information, management status information, and storage environment information for each of the automatic cardiopulters through the respective gateway servers 300 in real time. In addition, it can display the received defect information, management status information, storage environment information, and real-time display on the monitor at the time of occurrence of an event so that the defect status, management status and storage environment for each of the automatic cardiopulters can be managed in real time do. In addition, when an emergency occurs, respond quickly within 5 minutes of the Golden Time and make it available to the emergency rescue staff in the vicinity of the emergency site quickly through text messaging.

In addition, the integrated management server 500 may store defect information, management status information, and storage environment information for each of the automatic cardiopulters in real time on the basis of stored reference environment information, manufacturing date information, shelf life information, use frequency information, Pad validity period information, and the like. Based on the results of the comparative analysis, each of the automatic pacemakers, batteries and pads are predicted for life or pre-calculated for replacement, thereby supporting remote management of the respective pacemakers. The detailed configuration and operation characteristics of the integrated management server 500 will be described in more detail with reference to the accompanying drawings.

FIG. 2 is a block diagram specifically illustrating the internal arrangement of the automatic cardiopulmonary container shown in FIG. 1. FIG. FIG. 3 is a block diagram specifically illustrating an automatic cardiac pendulum management sensing board shown in FIG. 2. FIG.

2 and 3, the automatic cardiopulmonitor storage box 100 includes a case 102 in which at least one automatic cardiopulster 101 is stored, A management sensing board 120 for detecting the presence or absence of defects, the management state and the storage environment, and generating sensed defect information, management state information and storage environment information, A warning light 104 for generating an alarm when an unauthorized person or an unauthorized person generates an alarm when an unauthorized person 101 is removed, And a wireless FPCB antenna 103 for wirelessly transmitting the management status information and the storage environment information to the gateway server 300.

Generally, the automatic heart pacifier 101 includes a plurality of pads attached to a chest of a human body to sense a rhythm of an electrocardiogram or the like and to which an electric shock is applied, and a plurality of pads . These automatic heart pacifiers (101) are housed in a case (102), wherein the case (102) is made of iron frame and iron bulkheads so that durability can be enhanced.

Each of the management sensing boards 120 includes a main body serial number, a date of manufacture, an abnormality of the equipment, a shortage of batteries and whether or not the pad is normal (or defective) Environment is periodically provided, and provided defect information, management status information, and storage environment information are generated. Here, the automatic heart pacifier 101 and the management sensing board 120 communicate with each other by short-range wireless communication such as Wifi, Bluetooth, IRDA, etc., and the automatic cardiopulse 101 has a self-diagnosed AED once or more per day, Information on whether the pad is normal or not, and the like, to the management sensing board 120 periodically.

Specifically, the management sensing board 120 receives the remaining battery power of the automatic cardiopulster 101 in real time, senses the current flow of a high-voltage circuit, an impedance circuit, an electrocardiogram circuit, etc., Detachment, external export, and management failure in real time to generate defect information. Management of the manufacturing date information, the expiration date information, the use frequency information, and the like set in advance for the serial number (serial number), the manufacturing date information (year, month, and day) And generates management status information such as a replacement period of the battery and the pad according to the comparison result.

In addition, each of the management sensing boards 120 may be provided with an internal cardiac pendulum storage box 100 in which an automatic cardiopulmonitor 101 is stored, a temperature change amount of the internal and external portions, a humidity change amount, an external impact amount, ) In a real-time manner. The storage environment information that calculates the service life and replacement timing of the pad or the like is generated and transmitted according to the change in the temperature of the inside and the outside during the storage period and the change in the humidity. Since gel or adhesive pads are highly affected by temperature and humidity, their service life varies depending on the storage temperature change and the humidity change amount. Therefore, each of the management sensing boards 120 sets the optimum storage environment information, the service life according to the manufacturing date and the replacement time in advance, and adjusts the service life and the replacement time according to the temperature variation amount and the humidity variation amount sensed in real time , It is possible to reset the service life and replacement timing in real time. The lifetime and replacement timing of the automatic heart pacifier 101 reset in real time are transmitted to the storage environment information.

The detailed configuration and operation characteristics of the management sensing board will be described in more detail with reference to FIG.

The management sensing board 120 shown in FIG. 3 includes a product information storage unit 121, an event sensing control unit 122, a current sensing unit 123, a temperature sensing unit 124, a humidity sensing unit 125, (126), and an impact sensing unit (127). The first communication unit 131 and the alarm unit 132 may be additionally provided on the inside and the outside of the management sensing board 120.

Specifically, the product information storage unit 121 stores the serial number, the manufacture date information (manufacture year, month, day), and the expiration date information (serial number) of each of the automatic cardiopulters 101 supported by the integrated management server 500 , Product information (or product management information) including information on the number of times of use of the main body, the battery and the pad, and normal presence / absence information. And stores the stored product information with the event detection control unit 122 or the like.

The current sensing unit 123 senses current flows in a high voltage circuit, an impedance circuit, an electrocardiogram circuit, and the like, which are respectively provided in the main body of the automatic cardiopulmonitor 101, in real time. And provides information on the sensed current flow to the event detection control unit 122.

The battery detection unit 126 detects the remaining amount of the battery in the main body of the automatic heart attack machine 101 in real time. The charging and replacement timing is transmitted to the event detection control unit 122 in real time according to the remaining battery level.

The event detection control unit 122 generates defect information by detecting in real time the charging of the battery, the replacement timing of the pad, the defect according to the current flow, the detachment, the external removal, and the management failure. The defect information is transmitted to the integrated management server 500 by the first communication unit 131 and the wireless FPCB antenna 103.

In addition, the event detection control unit 122 reads the product information including the manufacture date information, the shelf life information, the body and the pad use reference frequency information set in advance from the product information storage unit 121. [ The management status information including the replacement time and the expiration date of the expiration date is generated according to the comparison result with the manufacturing number, the manufacturing date information, the body and the actual number of pads per automatic pedometer 101. The generated management status information is transmitted to the gateway server 300 and the integrated management server 500 by the first communication unit 131 and the wireless FPCB antenna 103. Here, the management sensing board 120 may be configured to transmit the information of the automatic cardiopulster 101 and the information of the storage box 100 to the integrated management server 500 in such a manner that it is periodically transmitted several times a day Can be set.

In the case of the temperature sensing unit 124, the temperature change amount of the inside and outside of the automatic heart pendant storage unit 100 is detected in real time, and is transmitted to the event detection control unit 122 when the risk range is out of the range of 0 to 60 degrees.

The humidity sensing unit 125 senses the humidity change of the inside and outside of the automatic cardiopulmonitor box 100 in real time, and transmits the detected humidity change to the event detection controller 122 when the humidity is 90% or more.

The impact detection unit 127 senses in real time the external impact of the automatic cardiopulmonary storage box 100 and the amount of change in the impact of breaking the front side acrylic of the storage box and transmits the detected impact to the event detection control unit 122.

The door opening detection unit 128 senses the door opening of the automatic cardiopulmonary storage box 100 and transmits it to the event detection control unit 122.

The detachment detection unit 129 often locks the door due to theft of the automatic cardiopulter storage box 100. In the emergency, the front acrylic is wakened to detect the detached state of the automatic cardiac pacemaker, and the detected state is transmitted to the event detection control unit 122.

The event detection control unit 122 is connected to the temperature sensing unit 124, the humidity sensing unit 125, and the shock sensing unit 127, the storage door opening detection unit 128, and the automatic heart attack device detachment detection unit 129 The amount of change in the temperature of the inside and outside of the automatic heart pacifier storage box 100, and the amount of humidity change. And an external shock amount can be generated and transmitted in real time.

The event detection control unit 122 calculates the pad usage life and replacement timing of the automatic cardiopulster 101 according to changes in the internal and external temperature changes and the humidity change amounts during the storage period in which the automatic cardiopulster 101 is stored, And generates the calculated pad usage life information and pad replacement timing information. The pad service life information and pad replacement timing information are transmitted to the gateway server 300 and the integrated management server 500 by the first communication unit 131 and the wireless FPCB antenna 103.

The notification unit 132 displays a notification character when the detachment of the cardioplec- tive 101, an unloading operation of the cardiovascular unit 101, a management failure occurs, or the like, in conjunction with the warning light 104, And informs the outside of information such as defectiveness.

The first communication unit 131 may be integrated with the management sensing board 120, but may be configured separately from the management sensing board 120. The first communication unit 131 may include a communication module that supports at least one communication method among IoT (Internet of Things), WiFi, LTE, PSTN, and Ethernet.

The first communication unit 131 supplies defect information, management status information, and storage environment information transmitted from the event detection control unit 122 of the management sensing board 120 to the wireless FPCB antenna 103, The gateway server 300 transmits the information to the management sensing board 120 and the integrated management server 500 through a predetermined communication method.

In another embodiment, the current sensing unit 123, the temperature sensing unit 124, the humidity sensing unit 125, the battery sensing unit 126, and the impact sensing unit 127, together with the first communication unit 130, An IoT chip may be provided in the cardiac pacemaker 101 separately from the management sensing board 120. In other words, the current sensing unit 123, the temperature sensing unit 124, the humidity sensing unit 125, the battery sensing unit 126, and the impact sensing unit 127 together with the first communication unit 130 are connected to the management sensing board 120, and may be separately built in the inside of the automatic heart pacifier 101 or detached / attached to any one part of the automatic heart pacifier 101. In this case, the automatic heart attacker will send various status information to the gateway server through the wireless antenna module installed in the storage without the management sensing board.

The first communication unit 130 receives the temperature sensed by the current sensing unit 123, the temperature sensing unit 124, the humidity sensing unit 125, the battery sensing unit 126, and the impact sensing unit 127 through the IoT chip, Humidity, and the amount of the used amount of the battery can be transmitted to the wireless FPCB antenna 103. Accordingly, the sensed information can be transmitted to the integrated management server 500 through the wireless FPCB antenna 103. [ Of course, the management sensing board 120 may transmit the sensing information to the integrated management server 500 using a wired communication network (PSTN, Ethernet) as well as a wireless communication network.

The wireless FPCB antenna 103 may be a planar antenna such as an FPCB. The wireless FPCB antenna 103 is configured on the outer surface of the case 102 or inside the warning light 104 so that defect information, management status information and storage environment information from the first communication unit 130 are transmitted to the gateway server 300 To the integrated management server 500 via the Internet.

The wireless FPCB antenna 103 can be configured on the outer side of the case 102 so that the management information on the automatic cardiopulmonators 101 is transmitted to the wireless FPCB antenna 103 through short distance and long distance wireless communication And may be transmitted to the integrated management server 500 through the gateway server 300.

The wireless FPCB antenna 103 is formed on the outer surface of the case 102 or the inside of the warning light 104 so that defect information, management status information and storage environment information from the first communication unit 131 are transmitted to the gateway server 300, To the integrated management server 500 via the Internet. The wireless FPCB antenna 103 can be configured on the outer side of the case 102 so that the management information on the automatic heart puckers 101 is transmitted to the wireless FPCB antenna 103 in a short distance and in a long distance wireless communication And may be transmitted to the integrated management server 500 through the gateway server 300.

4 is a block diagram specifically illustrating the integrated management server shown in FIG.

The integrated management server 500 shown in FIG. 4 includes an event monitoring server 510, a second communication unit 520, a product information input unit 530, and an installation information management unit 540.

The event monitoring server 510 analyzes the defect information input through the gateway server 300 and detects the storage position information of the automatic cardiopulster 101 that has been detached, Display information on screen and voice.

In addition, the event monitoring server 510 analyzes the management status information input through the gateway server 300, and stores the validity period of the validated period and the storage location of the automatic cardiopulmonitor 101 whose expiration date of the battery, Detects the information, and displays the detected position information on the screen and the voice. Then, the storage environment information inputted through the gateway server 300 is analyzed to detect and display the storage basic information of the malfunctioning cardiac pacemakers 101.

The second communication unit 520 transmits defect information, management status information, and storage environment information input through the gateway server 300 to the event monitoring server 510. The second communication unit 520 may include a communication module that supports at least one communication method among IoT (Internet of Things), WiFi, LTE, PSTN, and Ethernet.

The product information input unit 530 receives the manufacturer's name and manufacturer information, manufacture number, manufacture date information, storage box type information, and status of the automatic cardiopulster 101 from manufacturers per automatic cardiopulmonitor 101 Product information including history information and use frequency information, battery and pad serial number information, battery and pad validity period, communication port Bluetooth and IRDA standard information of an automatic cardiopulter, and is provided to the management state sensing unit 514 do.

The management status sensing unit 514 receives the product information including the failure event of the management sensing board 102 and the remaining battery level of the operation battery, the serial number, the IoT communication company classification, the maintenance inspection history, .

The installation information management unit 540 receives and stores installation location information for each of the automatic cardiopulters 101 when each of the automatic cardiopulters 101 is installed. The installation location information for each of the automatic heart attack units 101 is shared with the management state detection unit 514.

4, the event monitoring server 510 includes an event sensing unit 511, a life predicting unit 512, a database 513, a management state sensing unit 514, a monitor unit 515, And a sensing unit 516.

The event detection unit 511 analyzes defect information, management status information, and storage environment information input through the gateway server 300 to determine detachment, external export, and management failure of the automatic cardiopulters 101 . Then, information on the storage position of the cardioplec- tive autoloader 101, which has been detached, carried out, and determined to be in poor management, is detected and provided to the monitor unit 515.

The life predicting unit 512 analyzes the management state information input through the gateway server 300 and detects the storage position information of the automatic cardiopulster 101 whose replacement period, service life and the expiration date of the parts have expired. And provides the monitor unit 515 with information on the storage position of the automatic heart pacifier 101 whose replacement period, service life and the expiration date of the parts have expired.

Specifically, the life predicting unit 512 reads the product information including the manufacturer information, the manufacturing number, the manufacturing date information, the storage precautions information, the number-of-use-of-use information, the consumable item information, And compares it with the serial number per the automatic heart pacifier 101, the manufacture date information, and the actual number of times the pad and pad are used. Then, according to the result of the comparison, the automatic cardioplegia 101 whose replacement period, service life and the expiration date of parts expire are classified. At this time, the position of the classified cardiac arrestor 101 can be detected by the installation position information of the cardiac pedometer 101 of the installation information managing unit 540.

The database 513 stores and shares the manufacturer information, the manufacturing number, the manufacturing date information, the storage precautions information, the consumable information, and the consumable production information for each of the automatic cardiopulters 101. In the database 513, installation location information for each of the automatic cardiopulters 101 from the installation information management unit 540 may be stored.

The management status detection unit 514 analyzes the defect information input through the gateway server 300 and the storage environment information to detect whether the pad, the battery, the main body parts, and the consumables are faulty. Then, the storage position information of the malfunctioning automatic heart pacifiers (101) is extracted and provided to the monitor unit (515).

When the storage position information of the automatic cardiopulter 101 that has been detached from the event detection unit 511 and has been determined to be malfunctioning has been input, the monitor unit 515 detects the detachment, the unloading, The storage position information of the heart pacifier 101 can be displayed on the screen or by voice. At this time, the monitor unit 515 can display on the map by matching with the storage position information map information of the automatic cardiopulter 101 that has been detached, carried out, and is in poor management.

The monitor unit 515 receives the storage location information of the automatic cardiopulmonitor 101 whose expiration date, the service life and the expiration date of the parts have expired from the life predicting unit 512, Storage position information of the automatic heart pacifier 101 whose expiration date has expired is displayed on the map.

In addition, the monitor unit 515 displays the storage position information of the malfunctioning automatic cardiopulmonitors 101 on the map when the storage position information of the malfunctioning cardiopulmonitors 101 is inputted from the management state detection unit 514 do.

Meanwhile, the user detection unit 516 analyzes defect information, management status information, and storage environment information input through the gateway server 300 in real time, and detects the location information of the cardiac pacemaker 101 actually used in real time Analyze. The location information of the used cardiac pacemaker (101) is transmitted to a real-time emergency medical institution or an adjacent hospital so that the emergency dispatch of an ambulance can be performed. This is a very important system for patients with cardiac arrest, in which 4 minutes of golden time is very important, and ambulance and emergency care are very important and can arrive on site in 4 minutes.

As described above, the remote integrated management platform of the automatic pacemaker according to the embodiment of the present invention detects the defects of the automatic pacemaker and the storage environment in the automatic pacemaker storage boxes disposed in the multiple use facilities and public places A management sensing board capable of checking the management state of the automatic heart prac- ticators can be provided more accurately.

In addition, it is possible to increase the accuracy and reliability of the check information by allowing the check information on the automatic cardiopulters to be transmitted to the management institution through short-distance and long-distance wireless communication without being affected by the communication failure according to the storage material.

In this way, in the present invention, it is possible to monitor and manage the defects, the storage environment, and the management state of each of the automatic cardiopulters in real time in the management institutions, thereby improving the management accuracy and efficiency and reducing the management cost .

It is to be understood that the above-described embodiments are to be considered in all respects as illustrative and not restrictive, and the scope of the present invention will be indicated by the appended claims rather than by the foregoing detailed description. It is intended that all changes and modifications that come within the meaning and range of equivalency of the claims, as well as any equivalents thereof, be within the scope of the present invention.

100: Multiple auto heart pacifier storage
101: At least one automatic cardiopulmonary
102: Case
103: Wireless FPCB antenna
104: warning light
120: management sensing board
300: a plurality of gateway servers
500: Integrated management server

Claims (6)

A case in which at least one automatic heart pacifier is housed;
And a management unit configured to detect a defect status, a management status, and a storage environment of each of the automatic cardiopulters through short-range wireless communication with the automatic cardiopulter and to generate information on the detected defect, management status information, Sensing board;
A warning light which is provided on the outer surface of the case and generates an alarm when the automatic cardiopulter is removed, And
And a wireless antenna for transmitting defect information, management status information, and storage environment information from the management sensing board to the gateway server, the wireless antenna being disposed on an outer surface of the case or the inside of the warning light, .
The method according to claim 1,
The management sensing board includes:
A product information storage unit for storing product information including manufacturing number and manufacturing date information for the automatic cardiopulmonary device; A current sensing unit for sensing a current flow of a high-voltage circuit, an impedance circuit, and an electrocardiogram circuit, which are respectively formed in the main body of the automatic cardiopulmonary apparatus and the pad; A battery detecting unit for detecting a remaining battery level of the automatic heart pacifier body in real time and transmitting a charging and replacement time according to the remaining battery level in real time; A temperature sensing unit for sensing in real time the temperature change amount of the inside / outside of the automatic cardiopulmonitor storage; A humidity sensing unit for sensing in real time the amount of change in humidity inside and outside of the automatic cardiopulmonitor storage; An impact sensing unit for sensing in real time an external impact variation amount of the automatic cardiopulmonitor storage; And an error detection control unit for detecting in real time the defective or non-defective information based on the charging and replacement timing, the defective state according to the current flow, the detachment, the external removal, and the management failure.
3. The method of claim 2,
The error detection control unit,
Product information including preset manufacturing date information, expiration date information, main body, and pad use reference frequency information is read from the product information storage unit, and the product number, manufacture date information, actual use frequency of the main body and the pad And an automatic cardiopulter storage box containing the replacement timing and the expiration date information according to the comparison result.
A plurality of automatic cardiopulm reservoirs including at least one automatic cardiopulmonitor, and a management sensing board for detecting in real time whether the cardiopulmonary defects are defective, a management state, and a storage environment;
A plurality of gateway servers for receiving and collecting defect information, management status information, and storage environment information for each of the automatic cardiopulters from at least one of the plurality of automatic cardiopulmonary storage boxes; And
Monitoring and analyzing defect information, management status information, and storage environment information for each of the automatic cardiopulters received through the plurality of gateway servers in real time to support remote management of each of the automatic cardiopulters ; A remote integrated management platform of an automated cardioplegia.
5. The method of claim 4,
The automatic cardiopulse storage box
A product information storage unit for storing product information including manufacturing number and manufacturing date information for each of the automatic cardiopulmonary apparatuses;
A current sensing unit for sensing a current flow of a high-voltage circuit, an impedance circuit, and an electrocardiogram circuit, which are respectively formed in the body and the pad of each of the automatic cardiopulters;
A battery sensing unit for detecting a remaining battery level of the automatic heart pacifier body in real time and transmitting a charging and replacement timing in real time according to the remaining battery level; And
And a failure detection control unit for detecting in real time the defective or non-defective information by detecting in real time the charging and replacement timing, the defect according to the current flow, the detachment, the external removal, and the management failure,
The error detection control unit
Product information including preset manufacturing date information, expiration date information, main body, and pad use reference frequency information is read from the product information storage unit, and the product number, manufacture date information, actual use frequency of the main body and the pad And generates management state information including replacement timing and expiration date information according to the comparison result.
5. The method of claim 4,
The integrated management server
Management status information, and storage environment information inputted through the gateway server, and stores the storage location information of the automatic pacemaker determined to be malfunctioning, and the storage location information of the automatic pacemaker determined by the automatic life- A malfunction monitoring server for detecting and displaying the storage position information of the cardiac pacemaker and the storage position information of the malfunctioning cardiac pacemakers;
A communication unit for transmitting defect information, management status information, and storage environment information input through the gateway server to the failure monitoring server;
The product information including the manufacturer information, the manufacturing number, the manufacturing date information, the storage note information, the number of times of using the reference number, the consumable item information, and the consumable product production information from the automatic heart attacking device manufacturers, A product information input unit for transmitting the fault information to the fault monitoring server; And
And an installation information management unit for receiving and storing the automatic heart attack device-specific installation location information.

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