KR100515056B1 - Network linked system for controlling and managing emergency, a business method using the system and computer readable medium having stored thereon computer executable instruction for preforming the same - Google Patents

Abstract

The present invention relates to a system capable of urgently and effectively responding to an emergency situation, a management business method using the same, and a recording medium thereof. System configuration according to the invention, the monitored portion; A sensing unit which detects a predetermined emergency cause element generated by the monitored unit and transmits emergency situation occurrence information corresponding thereto through a communication path; A monitoring action control unit for transmitting internal response action control command information and emergency analysis result corresponding to the emergency analysis result information according to the received emergency situation occurrence signal through a communication path; An internal response measure unit operable to perform an internal response action according to the internal response action control command, and to transmit the result of analyzing the validity analysis result of the internal response action through a communication path; And receiving emergency analysis result information from the monitoring action control unit, receiving validity analysis result information of the internal response action from the internal response measurer, and determining whether the external response action is necessary corresponding to each of the received information. And a management control unit for transmitting the determination result information through the communication path.

Description

Recording system including emergency control system connected to communication network, emergency control management business method using the same, and program that can be executed by computer (Network linked system for controlling and managing emergency, a business method using the system and computer readable) medium having stored thereon computer executable instruction for preforming the same}

The present invention relates to an emergency situation control management system connected to a communication network, an emergency situation control management business method using the same, and a recording medium containing a program that can be executed by the computer. In the event of an emergency such as fire, collapse, gas leak, or criminal element, it can be detected automatically or manually so that an emergency situation can be automatically transmitted to the outside and response actions can be executed automatically for each emergency situation. The emergency situation control management system that can control and manage the emergency situation by using the communication network, the emergency situation control management business method using the same, and the program that can be executed by the computer for the purpose of securing safety by quick emergency response action. It relates to the recorded medium.

As we enter modern society, how systematic, rapid and reasonable follow-up is achieved for emergency situations such as fires, collapses, hazardous gas leaks, theft, and robbery in certain spaces, such as houses, public places, and buildings. Therefore, it is obvious that the degree of human and material damage can vary sharply. If the causative factor can be eliminated at the source so that the emergency situation itself cannot occur, this problem will not occur, but in reality, such a containment would be nearly impossible. Therefore, it is natural that in preparation for an emergency situation, it is natural to prepare a system, education, equipment, and the like for emergency emergency drills and appropriate emergency response measures, which are scheduled for an emergency situation to minimize the damage. On the other hand, when an unexpected emergency occurs, it is necessary to identify the exact situation of the relevant emergency at the early stage of its occurrence, and to take prompt precautionary measures as well as specific and effective countermeasures to prevent further damage from spreading. . However, there are many lessons learned from the devastation and devastation that frequently decorate the media that these textbook theories alone are not enough to deal with emergencies. In case of emergencies caused by inevitable genius by human power, in general, in case of accidents that are commonly referred to as human resources, the general people's safety insufficiency is pointed out.

The most frequently encountered emergency response system around us may be a disaster prevention system that detects the fact of a fire by a fire alarm and automatically operates a sprinkler facility attached to the ceiling in case of a fire. As a business, if a remote operator detects a trace of an internal entry attempt due to a mismatch of a security key or an external shock, it is a well-known analogous system.

It is true that even in the presence of such a conventional emergency response system and method, incidents continue to occur, resulting in not only human injury but also severe damage to property every year. For example, if a fire breaks out in an underground shop that accommodates a large number of people, even if the initial fire suppression of the fire is effectively carried out by a conventional fire detection and sprinkler system, even if the fire occurs, the people inside may be caught in a panic phenomenon. It is necessary to run to emergency exits, but most workplaces maintain emergency exits, which are essential as safety facilities, in a closed state or in an unusable state. It is also well known that the accident leads to a catastrophe. Regular opening and closing of the emergency door may not be desirable for the actual user. However, when an emergency occurs, it is obvious that the damage can be minimized only if the emergency door is operated. Therefore, in case of emergency door, it can keep its closed state at ordinary times in accordance with the user's convenience, but if it can be equipped with an automatic system that can be opened automatically in case of emergency, it can contribute to its own safety. Countermeasures should be taken to minimize human and physical damage.

As discussed in the above specific cases, the related problem cannot be solved simply by raising the awareness of safety, and therefore, having technical equipment or system that can effectively deal with emergency situations in consideration of realistic considerations, It may be a good idea to know how to handle the situation.

Therefore, there is a technically advanced and more effective way to manage and control the emergency situation more easily than a system or a related business method that copes with general emergency situations that are actually commercialized in various forms. The present invention has been devised through various research processes.

As described above, when an emergency situation occurs, it is intended to solve a problem that cannot be solved by a conventional apparatus or system. More specifically, when an emergency situation occurs, it is detected at an initial stage and automatically takes a primary countermeasure. There is a technical problem to achieve the present invention in order to minimize the human and physical damage caused by the emergency situation by operating a continuous monitoring system, to quickly follow up emergency measures from the outside. In order to achieve this technical problem, it is an object of the present invention to provide an emergency situation control management system connected to a communication network that can take easy, quick and effective emergency response measures at a remote location. On the other hand, another object of the present invention is to provide a new business method that can run the emergency situation control management business method using the emergency situation control management system connected to the communication network. In addition, another object of the present invention is to provide a recording medium containing a program that can be executed by an automated computer program for the emergency situation control management business method using the emergency situation control management system connected to the communication network.

Emergency situation control management system connected to the communication network according to the present invention to achieve the above object, the monitored portion; A detection unit provided in a predetermined part of the monitored unit and detecting a predetermined cause of emergency situation generated by the monitored unit and transmitting corresponding emergency occurrence information through a communication path; Receives an emergency occurrence signal sent from the detection unit through a communication path, and internal response measure control command information and emergency situation analysis result information corresponding to the emergency situation analysis result information according to the received emergency situation occurrence signal communication path Surveillance action control unit for transmitting through; An internal correspondence measurer provided in a predetermined portion of the monitored unit, operable to perform an internal correspondence action according to the internal correspondence action control command, and to transmit validity analysis result information of the internal response action through a communication path; And receiving emergency analysis result information from the monitoring action control unit, receiving validity analysis result information of the internal response action from the internal response measurer, and determining whether the external response action is necessary corresponding to each of the received information. And a management control unit for transmitting the determination result information through the communication path.

In this case, the management control unit is connected to the monitoring and control unit via a dedicated line or a general communication network, it is preferable that the plurality of local management control unit consisting of a single or a plurality of management control unit or integrated control of the central single management control unit, The management control unit or external response measure unit includes a predetermined emergency situation database (DB) and an emergency related program which can be read by a computer so that the signal analysis and the corresponding action command corresponding to the emergency can be performed in an automated sequence. It is more preferable that the PG be mounted to allow simultaneous or sequential control and management in an automated order.

On the other hand, the monitoring action control unit, the detection signal receiving unit for receiving the emergency situation generation signal sent from the detection unit through a communication path; An emergency control manager for receiving an emergency occurrence signal received from the detection signal receiver to analyze an emergency situation, transmitting an internal response action control command corresponding to the analysis result, and sending an emergency situation analysis signal to a management control unit; And an emergency situation response control unit for receiving the internal response action control command and sending an emergency response action command to the corresponding internal response action.

The emergency control management unit may be linked to a plurality of detection signal receivers and a plurality of emergency situation response controllers, and may be integrated control management for each of the emergency control managers, and the emergency control manager may be linked to an emergency situation occurrence signal. It is more preferable to further include various display members such as an emergency situation display unit, such as an emergency alarm, an alarm siren, an emergency lamp, an alarm broadcast, which can be externally recognized.

The emergency situation control management system includes a result recognizing unit capable of automatically recognizing an internal response measure result or an external response measure result in the monitored unit, wherein the internal / external response measure recognizing unit is configured to detect the internal or external response measure result. It is more preferable that a separate result recognition unit that is used in combination with the corresponding measure unit or recognizes a separate internal / external countermeasure measure is further included.

In order to achieve another object of the present invention, an emergency situation control management business method by an emergency situation control management system connected by a communication network includes: a monitoring unit, a sensing unit, a monitoring action control unit, an internal response measure unit, a management control unit and an external unit. A component including a countermeasure unit is connected to a communication network. (A1) When an emergency situation cause element is generated in the monitored unit, a sensing unit provided at a predetermined portion of the monitored unit detects this, and the detected emergency Transmitting emergency situation occurrence signal information corresponding to the emergency situation due to the cause of the situation via a communication path; (a2) Analyze emergency situation occurrence signal information received from the monitoring action control unit, generates an emergency response action command corresponding thereto and sends it to the internal response unit provided in the monitored unit through a communication path, Transmitting the analysis result information of the situation occurrence signal information through a communication path; (a3) operating the internal response action corresponding to the emergency response action operation command received by the internal response action unit, and then transmitting the automatically recognized internal response action result information through a communication path; (a4) automatically analyzing the individual information received by the management control unit to determine whether to take a subsequent response according to the analysis result information, and transmitting the determined subsequent response action related information through a communication path; And (a5) automatically analyzing individual information received from the external response measure to determine whether the external response is determined according to the analysis result information, and transmitting the determined external response measure related information through a communication path. It is characterized by proceeding.

The emergency situation occurrence signal information of step (a1) is sent from the detection unit to one or more selected from the monitoring action control unit, the management control unit and the external response action unit, the analysis result of the emergency situation occurrence signal of step (a2) Information is sent from the monitoring action control unit to at least one selected from the internal response action unit, the management control unit and the external response action unit, and the internal response action information of the step (a3) is an internal response action provided in the monitored unit. From the result recognition unit capable of recognizing the result information is sent to one or more selected from the monitoring action control unit, the management control unit and the external response measure unit, the subsequent response action information of the step (a4) is monitored from the management control It is sent to at least one selected from the action control unit and the external countermeasure unit, and the external countermeasure related information of the step (a5) is the external Respond to one or more selected ones of the management control and monitoring control action from the action part is preferred when the sent out from.

In this case, the management control unit is preferably composed of two or more plurality of management control unit, in this case, the plurality of management control unit is a vertical relationship control management system composed of a single or a plurality of local management control unit linked to a single central management control unit. It is desirable that it can be established as a new business method as well as a new management system such as a central management project or a regional management project.

Finally, the emergency situation control management business method by the emergency situation control management system connected to the communication network according to the present invention is a recording medium, such as a ROM (Read Only Memory), RAM ( Implemented in the form of Random Access Memory (CD), Compact Disk (CD) -Rom, Digital Video Disk (DVD) -Rom, magnetic tape, floppy disk, optical data storage, carrier wave (for example, transmission over the Internet). It can be stored on various recording media. The recording medium may also be distributed over network coupled computer systems so that the computer readable code is stored and executed in a distributed fashion.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, terms or words used in the specification and claims should not be construed as having a conventional or dictionary meaning, and the inventors should properly explain the concept of terms in order to best explain their own invention. Based on the principle that can be defined, it should be interpreted as meaning and concept corresponding to the technical idea of the present invention. Therefore, the embodiments described in the specification and the drawings shown in the drawings are only the most preferred embodiment of the present invention and do not represent all of the technical idea of the present invention, various modifications that can be replaced at the time of the present application It should be understood that there may be equivalents and variations.

1 is a block diagram showing the configuration of an emergency situation control management system connected to a communication network according to the present invention.

As shown in FIG. 1, the system includes a central management control unit 110, a local management control unit 120, an external response measure unit 130, and a monitoring action control unit 140 interconnected through communication networks 100 and 101. Consists of. The communication networks 100 and 101 may exchange information and various command signals among system components through wired / wireless internet networks, wired / wireless telephone networks, or separate communication dedicated lines. The central management control unit 110 is a server system, and is equipped with a related database 111 and a related program 112 to perform the operation and related methods of the emergency situation control management system according to the present invention. The local management control unit 120 may be configured as a system having the same configuration and operation as the central management control unit 110, and in this case, both may be referred to as a management control unit. More specifically, the central management control unit 110 and the local management control unit 120 may be built and operated as a single or separate system, for example, a remote system by the same subject. On the other hand, when the local management control unit 120 is operated in a separate system configuration may be operated as a relay server system, an independent server system or a client system, a plurality of local management control unit under the central control of a single central management control unit 110 It is apparent that the emergency situation control management system according to the present invention may be operated in conjunction with the 120. It is preferable that the relevant database 121 and the related program 122 are mounted for the system operation of the regional management control unit 120. The external response measure unit 130 is a system component that can take subsequent and effective and specific emergency response measures for the emergency generated in the monitored unit 150, for example, a fire station, a police station, a security service company, a hospital, and the like. It refers to a person who provides the same emergency or emergency service, and is connected to the communication network 101 in order to provide appropriate emergency response measures appropriately and quickly, so that the reception of an emergency situation and the situation analysis and the response can be automatically performed. Specific external response measures can be achieved if the corresponding equipment or personnel are provided (133) to the monitored unit offline to provide emergency services. On the other hand, for the automated external response measures, such as information information on the first aid, etc. It is preferable that the external response measure unit 130 is equipped with a related database 131 and the associated program 132. The monitoring action control unit 140 receives a signal detected by using a sensing unit (not shown) provided in a predetermined portion of the monitoring unit 150 to determine an emergency occurrence factor generated by the monitoring unit 150, and Respond first to an emergency situation through an internal response unit (not shown) provided in a predetermined part of the monitored unit 150, and a series of automated flows regarding emergency situation occurrence, situation analysis, and request for subsequent response action. According to the role of propagating to the peripheral system components.

On the other hand, look at the interaction between the respective system components as follows. That is, when a signal indicating that an emergency situation has occurred in the monitored unit 150 is received by the monitoring action control unit 140, the monitoring action control unit 140 not only propagates the information on the occurrence of the emergency situation, but also has an internal emergency response action. Controls the operation of the internal corresponding measures provided in the predetermined portion of the monitored unit 150 to be made. Each of the central control controller 110, the local management controller 120, and the external countermeasure unit 130, which have received the information on the occurrence of the emergency situation from the monitoring and control unit 140, accurately and promptly analyzes the emergency situation. In order to take countermeasures against them, other system components of remote locations are allowed to receive certain user's licenses through each of the databases 111, 121, 131 and programs 112, 122, 132 or through a communication path. It is preferable to use an element mounted on the. The external response measures are taken by analyzing the emergency situation, the current internal response result and the need for subsequent external response actions, and spreading them to each system component through the communication path to automatically respond. Manpower or equipment is dispatched directly to the monitored unit 150 to allow more effective countermeasures.

Figure 2 is a block diagram showing the internal response action related system configuration of the emergency situation control management system connected to the communication network according to the present invention.

As shown in FIG. 2, specific detailed components in the monitored action control unit 140 and the monitored unit 150 illustrated in FIG. 1 are shown in detail. The monitoring action control unit 140 includes the detection signal receiving unit 141, the emergency control management unit 142, and the internal response action control unit 143. An emergency situation display unit is provided at a predetermined portion of the emergency control management unit 142. Although 144 is provided, the emergency situation display unit 144 is not necessarily provided to be coupled to a predetermined portion of the emergency control management unit 142, and a predetermined portion inside the monitoring action control unit 140 is provided on the outside thereof. It may be attached arbitrarily in a place where not only the manager but also the emergency situation can be recognized by all persons who need to take emergency measures. On the other hand, the monitored unit 151 is provided with a detection unit 151 capable of capturing the cause of the emergency situation to generate a signal that an emergency situation has occurred, and transmits an emergency situation detection signal to the detection signal receiving unit 141. To do that. The detection unit 151 may be provided with a special device that can detect the cause of the element in order to capture the cause of the emergency situation, the gas leak-related detection, such as heat detector, smoke detector for fire-related detection It may be provided as various elements such as a gas detector, an electric leak detector for the detection of electrical leakage. Meanwhile, the communication path 200 should be set for information transmission from the emergency control management unit 142 to the external system, but a general communication network (101 in FIG. 1) may be used, and a separate dedicated communication line (102 in FIG. 1). Can also be used.

Since there is a slight time difference from the initial stage of the emergency situation until the external response action is taken, as a component that can take urgent action, the predetermined part of the monitored part 150 has an internal response action part ( 152 is preferred. Such internal response measures 152 may be provided in various ways depending on the emergency situation, looking at a specific example of the emergency door opening device, the sprinkler, the emergency warning sound, the power cut device, the singular device, the emergency power generator, the emergency relief device, etc. Can be mentioned.

In order to understand the operational relationship between the system components illustrated in FIG. 2, specific examples will be set and described. That is, the detection unit 151 is set as an automated re-detector such as a heat detector, a smoke detector, etc., which can automatically recognize a situation related to a fire occurrence, and the internal response measurer 152 is the monitored unit 150. The emergency door automatic opening device, which is used for emergency evacuation, is intended for the emergency situation. In this case, even when the monitored unit 150 is operated in a state where the emergency door (not shown) is normally closed for the purpose of using the structure, in case of a fire in order to enable evacuation to the emergency door in case of an emergency, that is, a fire occurs, The system is set up so that the emergency door can be opened automatically. When the detection unit 151 detects that a fire has occurred and sends a fire occurrence signal, the detection signal receiver 141 transmits the received fire generation signal to the emergency control management unit 142 and simultaneously opens an emergency door. When the fire occurrence signal is sent directly to the internal response action control unit 143 or via the emergency control management unit 142, the internal response action control unit 143 automatically sends an emergency door opening operation command when an emergency occurs. The emergency door automatic opening device, which is the countermeasure unit 152, is operated to open the emergency door. Meanwhile, the emergency door opening operation result information is received by the internal response measurer 152 or a device (not shown) that can recognize and send the emergency response measure result information to the emergency control management unit 142. do. Emergency control management unit 142 analyzes the information on the emergency situation first received from the detection signal receiving unit 141 to manage the emergency situation management control unit (110, 120 in Figure 1) and external response measures (130 in Figure 1). Notify through the communication path 200, the internal response action related information made in the internal response action control unit 143 is also notified through the communication path 200, and the information on the external control signal or the corresponding action through the reverse path Receive. On the other hand, the emergency situation display unit 144 is set as an emergency lamp, and when an emergency situation, that is, a fire occurrence signal is received in the emergency control management unit 142, a display for promptly notifying the relevant facts to the internal manager and evacuation requesters Operation, for example, repeated flashing operation.

It is to construct the general type of the general type that captures and controls the emergency situation using the emergency situation control management system connected to the communication network according to Figs. 1 and 2 as shown in Table 1 below. Would be desirable. However, the contents of the following Table 1 should not be used as a limited interpretation of the present invention, it is obvious that it is only an example to help a more detailed understanding of the present invention.

division Cause factor Detector Internal Response Measures External Response Measure fire Fire, soot, heat Heat detection, soot detection Emergency Door Open, Sprinkler fire station Gas accident Gas leak Gas detection Ventilator operation, emergency door opening Gas supplier Leak water Leak detection Open drain, single measure Water supplier Short circuit Electricity Short circuit detection Switchboard Power supplier crime Robbery / theft Crime detection Alarm Operation, Door Lock Police office hospital disease Emergency situation detection First Aid, Securing Traffic hospital

3 is a flowchart illustrating an emergency situation management control method using an emergency situation control management system connected to a communication network according to the present invention.

As shown in FIG. 3, when an emergency situation occurs (S300), it is detected to determine whether an emergency situation requires an actual response (S310), and in the case of an emergency situation where an emergency response is required (S321). ) And the emergency control signal is sent (S320) to respond to the emergency situation, otherwise feedback.

After the emergency control signal is transmitted, it is determined whether the emergency control signal is received (S330), and when the emergency control signal is received, the internal corresponding action control signal is continuously transmitted (S340). When the internal response control signal is sent, the internal response control unit receives the control signal and operates (S540). When the emergency situation is fortunately terminated due to the internal response, the confusion state is first generated due to the emergency situation and the internal response. After recovering to the state or stable state, each system component waits (S370), and then ends by reporting that the related situation is finished (S380). However, despite the internal countermeasures, if the emergency situation persists or fails to control the emergency situation, it is necessary to find out whether there is a subsequent countermeasure and to make the related countermeasures repeatedly or other countermeasures to be made (S372). )

The propagation of the emergency is composed of an emergency situation display unit that indicates that an emergency has occurred, for example, an emergency light indication (S322), an emergency warning sound generation (S323), and the like to respond to an emergency so that substantial external countermeasures can be achieved. Start the external response action program (S324). The external countermeasure program consists of an automated program form by the management control unit or the external countermeasure unit, which can transmit and propagate information on the countermeasures through the communication path, as well as the human resources according to the scheduled procedures by emergency training. , Equipment, etc. may be provided. After the external countermeasures are executed according to the external countermeasure action program (S325), the process proceeds to a step (S360) of checking whether a valid response to the emergency situation has been made.

FIG. 4 is a block diagram showing the configuration of an automatic emergency door opening and closing system using a fire line, which can automatically open and close an emergency door as an internal countermeasure when an emergency occurs according to an embodiment of the present invention.

4 is a block diagram of the emergency door automatic opening and closing system according to a preferred embodiment of the present invention. Referring to the drawings, the emergency door automatic opening and closing system of the present invention receives an emergency signal as an internal countermeasure unit for opening an emergency door (not shown), the automatic opening and closing means 400 and the emergency by detecting an emergency situation such as a fire It is composed of a management means 420 for operating the automatic opening and closing means 400 by outputting a signal.

According to the present invention, the automatic opening and closing means 400 is installed at the entrance of the staircase or building where the emergency door is located, the management means 420 is installed in the disaster prevention room or management room for monitoring the fire and controlling the entire system. . Specifically, the automatic opening and closing means 400 is electrically connected to the induction light 430 provided around the emergency door, for example, the emergency door. As is known, the induction light 430 is essentially provided with an emergency door as a light to guide the entrance that people can evacuate in case of fire or power outage. According to the present invention, since the automatic opening and closing means 400 is electrically coupled to the induction light 430 near the emergency door, there is no need for a separate dedicated line construction as will be described later. In the present embodiment, the automatic opening and closing means 400 has been described as being connected to the induction lamp 430, but is not limited thereto, and may be connected to a fire lamp or a fire electrical facility provided near an emergency door. Hereinafter, in the present specification and claims, the induction lamp, the fire lamp, the fire electric equipment, etc. installed around the emergency door will be collectively referred to as "remote fire extinguishing furnace terminal". Such a remote fire station terminal is connected to the emergency power source 431 and the wire of the disaster prevention room is supplied with power. In the present specification and claims, such a wire is defined as "fire line 432".

The management means 420 is installed so as to be electrically connected to the emergency power line 431 in the area where the manager resides, such as the disaster prevention room, more specifically to the fire line 432.

The automatic opening and closing means 400, the first central control unit 411 for controlling each part and outputs an emergency door opening and closing control signal in accordance with the emergency control signal received from the management means 420, fire line 432 and A first filter / combining unit 412 for separating or coupling a power supply and a data signal from the connected power line signal and a first communication module unit for receiving a data signal transmitted from the filter / compositing unit 412 413 and the switch controller 414 which receives the emergency door open / close control signal from the first central controller 411 and outputs an emergency door operation signal.

Reference numeral 415 denotes a first battery for continuously applying current to the automatic opening and closing means 400 even in the case of a power failure, and reference numeral 416 denotes a first manual control unit provided for manually opening the emergency door. In addition, reference numeral 433 denotes emergency door operating means for receiving the emergency door operation signal from the switch control unit 414 to operate the emergency door to open it, and reference numeral 434 is a monitor means for monitoring the opening and closing state of the emergency door.

The management means 420, a second central control unit 421 for controlling each unit, receiving a detection signal and outputting an emergency control signal therefrom, and transmits the data signal output from the second central control unit 421 The second communication module unit 422, a signal receiving unit 423 for receiving a signal transmitted as an emergency situation such as a fire by the automatic detection means 435, and the second communication module unit 422 And a second filter / combining unit 424 for coupling the data signal outputted from the power line with the frequency of the power line to synthesize the power line signal.

In addition, the management means 420 is a panel unit that can be provided with a warning light (not shown) that visually shows the occurrence of an emergency situation or the opening and closing state of the emergency door, or a speaker (not shown) that generates an acoustic alarm ( 425).

In addition, reference numeral 426 denotes a second battery capable of continuously supplying current to the management means 420 even during a power failure, and reference numeral 427 denotes a second manual operation portion for manually operating the emergency door.

In addition, the automatic detection means 435 includes any known sensor means capable of detecting a fire or smoke, including a fire detector.

Then, the operation of the system for automatically opening and closing the emergency door mounted on the monitored unit as an internal response measure according to the emergency situation according to the present invention configured as described above will be described in more detail with reference to FIG.

FIG. 5 is a flowchart illustrating an operation of an automatic emergency door opening / closing system using a fire line in which an emergency door opening and closing operation may be automatically performed as an internal response when an emergency occurs.

First, the second central control unit 421 of the management means 420 continuously determines whether a detection signal for notifying a fire or the like is received (step S500). The detection signal is generated by the automatic detection means 435 detecting a fire or smoke. That is, when a fire occurs, the automatic detection means 435 outputs a fire detection signal, which is received by the signal receiver 423 and then transmitted to the second central controller 421. Then, if it is determined that the detection signal has been received, the second central control unit 421 outputs an emergency control signal to operate the emergency door (step S510). Preferably, the second central control unit 421 may transmit a separate output signal to the panel unit 425 to blink a warning light or generate an alarm through a speaker. The output emergency control signal is transmitted along the fire line 432 in step S520. Specifically, the data signal output from the second central control unit 421 passes through the second communication module unit 422 to the second filter / compositing unit. 424, the second filter / synthesizer 424 couples the data signal to a power line frequency for Power Line Communication (PLC). As is known, power line communication is the transmission and reception of data at a frequency (1-30 MHz) that is much higher than the width (about 60 Hz) needed to send and receive power among the frequency widths within the power line. In general, power line communication is very vulnerable to noise and a lot of data loss, but according to the present invention, the fire line is embedded in the wall of the building to shield the influence of electric appliances such as air conditioning or audio through which strong electricity flows, It is relatively short-range and can be used effectively without any noise or data loss. The synthesized power line signal is transmitted along the fire line 432 to the automatic switching means 400 electrically connected to a remote fire line terminal such as an induction lamp 430. The transmitted power line signal is again separated into power and data signals by the first filter / synthesizer 412. The separated data signal is transmitted to the first central controller 411 through the first communication module 413. The first central controller 411 determines whether an emergency control signal is received (step S530), and if a signal is received, outputs an opening / closing control signal to open the emergency door and transmits it to the switch controller 414 (step). S540). The switch controller 414 determines whether an open / close control signal is received from the first central controller 411 (step S550), and if so, outputs an emergency door operation signal to open the emergency door (step S560). The emergency door operation signal is transmitted to the emergency door operating means 433, and then the emergency door is opened by the operation of the emergency door operating means 433 (step S570).

According to the present invention, the opening and closing state of the emergency door can be continuously monitored to notify the manager of the disaster prevention room where the management means 420 is located. In detail, the opening / closing state of the emergency door is detected by the monitor means 434, and the generated monitor signal is transmitted to the switch controller 414. In response to the received monitor signal, the switch controller 414 notifies the first central controller 411 if it is determined that the emergency door is abnormally open, and thus the first central controller 411 is abnormal. Output the signal. The abnormal signal data output is converted into a data packet by the first communication module unit 413 and then coupled to the power line frequency by the first filter / combining unit 412. Next, the synthesized power line signal is transmitted to the management means 420 along the fire line 432 connecting the remote fire line terminal (not shown) and the emergency power source 431, the second filter / synthesis unit 424 The data signal is separated out. The separated data signal is transmitted to the second central control unit 421 again through the second communication module unit 422, and the second central control unit outputs a warning signal to the panel unit 425, for example, the panel unit 425. By flashing a warning light or triggering an alarm through the speaker, you can alert the administrator of an abnormal condition of the emergency door.

On the other hand, the emergency door can also be opened by manual operation. Manual opening of the emergency door may be performed by using the management means 420 in the remote disaster prevention room or in the automatic opening and closing means 400 located near the emergency door. First, when the manager located on the management means 420 side operates the manual operation unit 427, the second central control unit 421 outputs the emergency door manual opening signal in accordance with the signal. As described above, the output signal is synthesized with the power line through the second communication module unit 422 and the second filter / compositing unit 424, and then transmitted to the automatic switching unit 400 through the fire line 432. do. Subsequently, the data signal separated by the first filter / combining unit 412 of the automatic switching unit 400 is received by the first central control unit 411 via the first communication module unit 413 and the first central control unit ( 411 is to command the opening of the emergency door by outputting the emergency door opening and closing control signal as described above. On the other hand, when the emergency door opening operation using the first manual control unit 416 located on the automatic opening and closing means 400 side, the first central control unit 411 transmits the opening and closing control signal to the switch control unit 414 to open the emergency door. At the same time, the emergency door open state signal is transmitted to the management means 420 through the first communication module 413. The open state signal is synthesized into a power line signal in the same manner as described above and transmitted to the management means 420 along the fire line 432, and the transmitted power line signal is processed by the second filter / compositing unit 424 and therefrom. The data signal is separated. The separated data signal is received by the second central controller 421, from which a status display signal is output to the panel unit 425. Accordingly, the panel unit 425 may allow the administrator to visually confirm the opening of the emergency door by, for example, turning on the emergency door opening lamp according to the status display signal.

Emergency door automatic opening and closing system according to the present invention has its own first and second batteries 415, 426, even if the emergency power source 431 is cut off due to an accident such as a power outage, the fire line 432 by the battery power source ) Can be used for communication.

According to the present invention, an emergency situation control management system connected to a communication network, an emergency situation control management business method using the same, and a recording medium containing a program that can be executed by the computer are monitored at a remote location spaced apart from the monitored part. The internal and external countermeasures can be effectively implemented in response to emergency situations occurring in the department, thereby minimizing the loss of lives and physical losses due to emergency situations. In particular, when the emergency door automatic opening device, which must be implemented as an emergency door in case of emergency, is installed as an example of the internal response measure, it can minimize the human property damage caused by emergency evacuation. Economic advantages will be obvious. In addition, by incorporating communication-related technologies that are occurring rapidly in recent years, it is possible to promptly check whether an emergency situation occurs and cope with it effectively. In particular, as an embodiment for implementing the present invention, each of the elements corresponding to the sensing unit, the monitoring action control unit and the internal response measure unit comprises a fire detection unit, an emergency door automatic opening and closing system, an emergency door operation means, and separate dedicated lines. It is simple and inexpensive to construct and install the system because the opening and closing of the emergency door is controlled by the power line communication using the fire line already built in advance. In fact, the fire line already installed in the existing building is connected from the emergency power supply of the disaster prevention room to the point where each emergency door is located, so that the opening and closing of emergency doors can be centrally managed without installing a separate dedicated network. It becomes possible.

1 is a block diagram showing the configuration of an emergency situation control management system connected to a communication network according to the present invention.

Figure 2 is a block diagram showing the internal response action related system configuration of the emergency situation control management system connected to the communication network according to the present invention.

3 is a flowchart illustrating an emergency situation control management business method using an emergency situation control management system connected to a communication network according to the present invention.

FIG. 4 is a block diagram showing the configuration of an automatic emergency door opening and closing system using a fire line, which can automatically open and close an emergency door as an internal countermeasure when an emergency occurs according to an embodiment of the present invention.

FIG. 5 is a flowchart illustrating an operation of an automatic emergency door opening / closing system using a fire line in which an emergency door opening and closing operation may be automatically performed as an internal response when an emergency occurs.

<Explanation of symbols for the main parts of the drawings>

100, 101 ... Communication network 102 ... Dedicated communication network

110 ... Central Management Control Unit 120 ... Regional Management Control Unit 130 ... External Response Measure Unit

140 Monitoring and control unit 150 Monitoring unit

111, 121, 131 ... Database (DB) 112, 122, 132 ... Program (PG)

Claims (13)

Monitored part; A detection unit provided in a predetermined part of the monitored unit and detecting a predetermined cause of emergency situation generated by the monitored unit and transmitting corresponding emergency occurrence information through a communication path; Receives an emergency occurrence signal sent from the detection unit through a communication path, and internal response measure control command information and emergency situation analysis result information corresponding to the emergency situation analysis result information according to the received emergency situation occurrence signal communication path Surveillance action control unit for transmitting through; An internal correspondence measurer provided in a predetermined portion of the monitored unit, operable to perform an internal correspondence action according to the internal correspondence action control command, and to transmit validity analysis result information of the internal response action through a communication path; On the basis of one or more information selected from the emergency situation analysis result information received from the monitoring action control unit and the analysis result validity information of the internal response action received from the internal response measurer to determine the need for external response action corresponding to the emergency situation A management control unit for transmitting the determination result information through a communication path; And At least one selected from emergency situation analysis result information received from the monitoring action control unit, validity analysis result information of the internal response action received from the internal response measure unit, and determination result information of whether the external response action is received from the management control unit; And an external countermeasure unit for determining and executing an external countermeasure measure corresponding to the emergency based on the information. The method of claim 1, The management control unit is connected to the monitoring and control unit via a dedicated line or a general communication network, characterized in that it is composed of a plurality of local management control unit consisting of a single or a plurality of management control unit or integrated control by a central single management control unit Emergency control system connected by communication network. The method of claim 2, The management and control unit is equipped with a predetermined emergency situation-related database and emergency-related programs that can be read by a computer so that the signal analysis and the corresponding action command corresponding to the emergency can be processed in an automated sequence. Networked emergency situation control management system. The method of claim 1, The monitoring action control unit: A detection signal receiving unit which receives an emergency occurrence signal transmitted from the detection unit through a communication path; An emergency control manager for receiving an emergency occurrence signal received from the detection signal receiver to analyze an emergency situation, transmitting an internal response action control command corresponding to the analysis result, and sending an emergency situation analysis signal to a management control unit; And And an emergency response control unit for receiving the internal response measure control command and sending an emergency response action command to the corresponding internal response measure. The method of claim 4, wherein The emergency control management unit is connected to a plurality of detection signal receiving unit and a plurality of emergency situation response control unit, the emergency situation control management system connected to the communication network, characterized in that the integrated control management for each of them. The method according to claim 4 or 5, The emergency control management unit further comprises an emergency situation display unit that can externally recognize the emergency situation in conjunction with the emergency situation occurrence signal management system connected to the communication network. The method of claim 1, And the emergency situation control management system further comprises a result recognizing unit capable of automatically recognizing an internal response measure result or an external response measure result in the monitored unit. The method of claim 7, wherein The internal / external response measure recognition unit may be used together with the sensing unit or the internal response measure unit, or a separate result recognition unit may recognize a separate internal / external response measure. Emergency control system connected by In the emergency situation control management business method by an emergency situation control management system in which each component member including a monitored unit, a sensing unit, a monitoring action control unit, an internal corresponding action unit, a management control unit and an external corresponding action unit is connected to a communication network, (a1) When an emergency cause element occurs in the monitored part, a sensing unit provided in a predetermined part of the monitored part detects this, and an emergency occurrence signal corresponding to an emergency situation caused by the detected emergency cause element Transmitting the information through a communication path; (a2) Analyze emergency situation occurrence signal information received from the monitoring action control unit, generates an emergency response action command corresponding thereto and sends it to the internal response unit provided in the monitored unit through a communication path, Transmitting the analysis result information of the situation occurrence signal information through a communication path; (a3) operating the internal response action corresponding to the emergency response action operation command received by the internal response action unit, and then transmitting the automatically recognized internal response action result information through a communication path; (a4) automatically analyzing the individual information received by the management control unit to determine whether to take a subsequent response according to the analysis result information, and transmitting the determined subsequent response action related information through a communication path; And (a5) automatically analyzing the individual information received by the external response measure unit to determine whether the external response action according to the analysis result information, and transmitting the determined external response action related information through a communication path; Emergency situation control management business method by the emergency control system connected to the communication network, characterized in that. The method of claim 9, The emergency situation occurrence signal information of step (a1) is sent from the detection unit to one or more selected from the monitoring action control unit, the management control unit and the external response action unit, the analysis result of the emergency situation occurrence signal of step (a2) Information is sent from the monitoring action control unit to at least one selected from the internal response action unit, the management control unit and the external response action unit, and the internal response action information of the step (a3) is an internal response action provided in the monitored unit. From the result recognition unit capable of recognizing the result information is sent to one or more selected from the monitoring action control unit, the management control unit and the external response measure unit, the subsequent response action information of the step (a4) is monitored from the management control It is sent to at least one selected from the action control unit and the external countermeasure unit, and the external countermeasure related information of the step (a5) is the external Response the action management control and monitoring measures emergency control method for work management by the emergency control management system that is connected to the communication network, characterized in that is delivered to the place of one or more selected ones of the control from the unit. The method according to any one of claims 9 and 10, And said management control unit comprises at least two plurality of management control units. The method of claim 11, The plurality of management control unit is an emergency situation control management by the emergency situation control management system connected to the communication network, characterized in that the configuration consisting of a single or a plurality of local management control unit linked to a single central management control unit; Business method. Recording medium containing computer program configured to execute the method according to claim 9 for management in emergency control by an emergency control management system connected through communication network