KR20080055591A - Fire Fighting Complex Control Module - Google Patents

Abstract

The present invention relates to a firefighting composite control module that can be attached to an existing fire detection receiver and used in a fire control system. It relates to a fire alarm and combined information in real time to the user in real time, and by transmitting the optimal means of avoiding the fire to the personal information terminal, it is possible to immediately manage the disaster prevention composite control module characterized in that the fire prevention .

Description

Complex control module for fire protection

1 is a block diagram of a fire fighting complex control module according to an embodiment of the present invention.

Figure 2a is a view showing a power supply unit of the firefighting composite control module according to an embodiment of the present invention.

Figure 2b is a view showing the input circuit portion of the fire control complex control module according to an embodiment of the present invention.

Figure 2c is a view showing a CPPI unit of the fire control complex control module according to an embodiment of the present invention.

Figure 2d is a view showing the main central control unit of the fire control complex control module according to an embodiment of the present invention.

Figure 2e is a view showing a sub central processing unit of the firefighting composite control module according to an embodiment of the present invention.

3 and 4 is a block diagram showing an embodiment of a fire control system to which the fire control complex control module of the present invention is applied.

5 is a diagram illustrating an embodiment of a screen on which various fire occurrence information is sent to a personal information terminal.

Figure 6 is a total fire control applied to the fire control complex control module according to the present invention

A simplified representation of the control direction of the system.

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

100: firefighting composite control module 110: power supply unit

111: second power supply unit 120: input circuit unit

121: input monitoring unit 122: connection end

130: CPPI (CMOS Programmable Peripheral Interface)

131: CPPI (CMOS Programmable Peripheral Interface)

132: status display unit 140: main central control unit

150: sub central processing unit

The present invention relates to a firefighting composite control module that can be attached to an existing fire detection receiver and used in a fire control system. It relates to a fire alarm and combined information in real time to the user in real time, and by transmitting the optimal means of avoiding the fire to the personal information terminal, it is possible to immediately manage the disaster prevention composite control module characterized in that the fire prevention .

Many large buildings are equipped with automatic fire detection equipment to alert them in case of fire. This fire detection facility is a facility that recognizes a fire occurrence by sensors using heat, smoke or flame generated by a fire, and emits a fire alarm to a person or occupant in a building by a sound device such as a bell or a siren. Its configuration generally consists of receivers, detectors, transmitters, and sound equipment.

The fire receiver used in firefighting management receives a signal from a detector or a transmitter directly or through a repeater as a common signal and alerts the person concerned or the fire department of the fire object to be fired. , M-type receiver, GP-type receiver and GR receiver.

On the other hand, P-type hybrid receivers receive signals from detectors or transmitters (except M-type transmitters) as a common signal either directly or through a repeater to alert the person concerned to the fire and alert the fire. Or it means to control the pressurized water supply or starter such as indoor and outdoor fire extinguishing equipment, sprinkler equipment, water spray extinguishing equipment, fire extinguishing equipment, carbon dioxide extinguishing equipment, halide extinguishing equipment, powder extinguishing equipment, and flue gas equipment. In addition, there are R type combined receiver, GP type combined receiver and GR type combined receiver.

A circuit configured to directly send power to both wires and external loads of the power input side constituting the general receiver should be provided with a fuse or a breaker, and a spare power source should be installed inside, and the status of this spare power source will be monitored on the front side. There must be a monitoring device available.

In addition, the above-mentioned general receiver should be easy to handle and check, easy to repair and replace the accessories, and the terminals that affect the electrical function, ie screws and washers, are made of copper alloy or equivalent corrosion resistant material. shall.

On the other hand, the above-described general receiver is not possible to communicate quickly between the receiver when a plurality of receivers are installed in the fire-fighting building can not deliver fast fire information to the building user, each circuit when the number of transmitters arranged in each element increases In order to check the operation state of the user has to operate the rotary switch manually, there was a problem that the circuit inspection is not easy.

In addition, the general receiver can not know when there was a check of each fire equipment, so that the user has to check the equipment from time to time to recognize the equipment state, there is a problem that does not inform the initial occurrence time and place of fire As a result, the user could not easily check and manage the history of the firefighting building.

In other words, general receivers are limited to fire detection and simple notification services, and have a problem in implementing effective interaction by organically combining with other control systems.

In addition, since the general receiver cannot detect a temperature or a flame with respect to a fire generated around the receiver, there is a problem that a user or user cannot be alerted when a fire occurs around the receiver.

In addition, the existing system control unit requires a plurality of ports connected to a plurality of switches, such as a switch for ringing a main bell or a switch for conduction test, or a switch for operation or circuit test, the price will increase accordingly, There was a problem of complicated system.

The present invention has been made to solve the above problems, the object of the present invention is to deliver the real-time information and alarms for the fire automatically through the personal wired and wireless terminal and personal PC to the Internet registered user response time It is to provide a firefighting composite control module that can be minimized.

Another object of the present invention is to provide a user with a variety of information on the fire protection, such as various classifications according to region, shape, structure, and details of evacuation ports and fire extinguishers.

In addition, users can easily register through online to integrate and manage the buildings distributed through the registered network, allowing individual management for each building, such as the management of each building fire chief's mission. Another goal is to build a response system.

Fire control complex control module of the present invention for achieving the above object, the power input unit for supplying AC power to the rectifying bridge, and the power output from the power input unit for smoothing the first, and outputting the DC voltage; An input circuit comprising a power supply unit consisting of two power supply units, a connecting end consisting of a connector to connect to a fire detector, an input monitoring unit for detecting a malfunction of the smoke detector, self-diagnosis and periodic fire monitoring, and an output of the input monitoring unit In order to process the sensing information with the position signal, the CPPI stage connected in parallel with the CMOS (CMOS), the CPPI unit consisting of a status display unit for checking whether or not the fire signal by the LED on and off, and the CPPI unit A main central control unit which receives an output signal and controls a real-time fire detection signal, and is connected to the main central control unit The main central control unit periodically diagnoses whether the control signal is output correctly or includes a sub central processing unit for temporarily storing data and outputting the signal to an external Ethernet network.

In addition, the status display unit is characterized in that by periodically checking the signal applied to each CPPI stage whether the fire signal or not by the on / off of the LED.

In addition, by placing a communication module capable of bidirectional communication between the input circuit unit and the CPPI unit to enable the output signal which is not only an input signal for the fire occurrence information but also a reverse control signal for fire control and disaster prevention by the fire prevention manager. Characterized in that the remote control is possible.

In this case, the communication module configured to enable reverse remote control is characterized in that the RSC 485.

The present invention having such a feature may be more clearly described through the preferred embodiment thereof. Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram of a firefighting composite control module according to an embodiment of the present invention, Figure 2a is a view showing a power supply unit of the firefighting composite control module according to an embodiment of the present invention, Figure 2b is an embodiment of the present invention FIG. 2C is a view illustrating an input circuit unit of a firefighting composite control module according to an example, and FIG. 2C is a view showing a CPPI portion of a firefighting composite control module according to an embodiment of the present invention, and FIG. 2D is a firefighting composite control module according to an embodiment of the present invention. Figure 2e is a view showing the main central control unit, Figure 2e is a view showing a sub central processing unit of the firefighting composite control module according to an embodiment of the present invention.

As shown in Figure 1, the fire control complex control module 100 according to the present invention is connected to the existing fire receiver is transmitted through the Ethernet network connected to the fire signal and various information detected according to the user Done.

The fire control complex control module includes an input circuit unit 120, a CPPI unit 130, a main central control unit 140, a sub central processing unit 150, and a power supply unit 110.

The power supply unit 110 may include a power input unit 111 for supplying AC power to a rectifying bridge, and first and second power units 112 for smoothing the power output from the power input unit 111 and outputting the DC voltage. , 113).

In this case, the AC power is preferably passed through the first and second power supply units 112 and 113 to output the smoothed power to DC 5V, DC 3.3V.

In this case, the output DC power of the power supply unit 110 is applied to the input circuit unit 120, the CPPI unit 130, the main central control unit 140, and the sub central processing unit 150.

The input circuit unit 120 includes a connection stage 122 directly connected to the fire detector, and an input monitoring unit 121 for detecting a malfunction of the fire detector, self-diagnosis, and periodic fire monitoring.

In this case, the connection end 122 is formed of six connectors, and the input monitoring unit 121 is formed of 60 chips to distribute the data applied from one connector to ten input monitoring units for fire monitoring. do.

In addition, when a fire occurs, the signal is changed by passing the chip of the input monitoring unit 121 to output a fire signal. In this case, the signal inside the chip maintains 3V to 5V when the fire is not detected, and recognizes that a fire has occurred when the 6V to 10V output signal is applied to the input monitoring unit 135 in the fire detector.

The CPPI unit 130 includes a CPPI stage 131 in which three CMOS devices are connected in parallel, and a status display unit 132 for checking whether or not a fire signal is generated by turning on or off eight LEDs. At this time, the CPPI stage 131 receives the output of the input monitoring unit 121 of the input circuit unit 120, combines the fire detection information and the position signal to process the time and space of the fire information signal transfer to the CPU board . The state display unit 132 is preferably configured to display the current communication status of the CPPI and CPU, and to visually know the occurrence of the fire by irregularly lit / extinguished eight LEDs.

Here, CPPI (CMOS Programmable Peripheral Interface) is a core module in the firefighting composite control module configuration according to the present invention, the function of the fire occurrence time by sequentially passing various signals for the fire occurrence information through the CMOS (CMOS) It combines the information, the location of the fire and the location information of the optimum evacuation port and transmits to the main central control unit 140.

In addition, the main central control unit 140 receives the output signal of the CPPI unit 130 and controls the real-time fire detection signal. At this time, it is periodically checked whether the fire detection signal is input through the input circuit unit 120 and the CPPI unit 130. That is, the internal 60 chips of the input circuit unit 120 are sequentially searched to transmit a fire occurrence signal to the user's PC when a fire occurs.

The sub central processing unit 150 periodically checks whether the main central control unit 140 operates normally. At this time, if the processing capacity of the main central control unit 140 is examined at a predetermined period, and if it is smaller or larger than a predetermined range, the sub central processing unit 150 may take over the function of the main central control unit 140 and the main central control unit 140. ) Can be used to restore the auxiliary function.

In addition, the sub central processing unit 150 transmits the detected fire occurrence signal to the user's personal information terminal (not shown) through the associated Ethernet network. At this time, if the output of the main central control unit 140 is an abnormal signal, the sub central processing unit 150 performs the function of outputting the function of the main central control unit 140 and the external Ethernet network at the same time.

3 and 4 illustrate an embodiment of a fire control system to which the fire control complex control module of the present invention is applied.

As shown in Figure 3, the fire control complex control module 100 according to the present invention is configured to be mounted inside the fire receiver and can be applied to the internal control center in the company by allowing the fire occurrence information to be transmitted to the internal fire manager. Of course, in this case, the fire location and time information can be sent to the PC screen in real time or SMS text messages are sent to all users in the company, such as each production room and individual independent departments, in addition to the fire prevention manager. Enable work.

In addition, as shown in FIG. 4, the fire control complex control module 100 may be configured in an external control center. To this end, a fire control server and a groupware hub configured to manage a fire by establishing a control system for a plurality of companies may be configured. Connect through the IP Network or TCP IP, the groupware hub connects the fire fighting complex control module 100 according to the present invention.

Of course, in this case, the module 100 is mounted inside the fire receiver. According to the above configuration, the fire occurrence information through the module 100 is sent in association with the groupware hub. In other words, by sending fire location and time information to PC screen or sending it individually through SMS text message to all users in the company such as fire manager, each production room and individual independent department, it enables immediate and efficient disaster management management in case of fire detection. do.

The system is exemplary, and in addition, the real-time fire information transmission is possible through various types of systems and networks.

Hereinafter will be described in detail the operating method of the fire control complex control module 100 according to the present invention as a preferred embodiment of the present invention.

First, the six connectors are coupled to the fire receiver to supply external power to the module through the power supply unit 110.

Subsequently, a malfunction of the fire receiver is detected, a self-diagnosis and periodic fire monitoring are performed through the input monitoring unit 121 receiving the output of the connector.

Subsequently, when a fire occurrence signal is applied, the signal is sequentially passed through the CMOS of the CPPI stage 131 to combine the location information of the fire occurrence place with the occurrence time information and transmit it to the main central controller 140. . At this time, it is preferable that the eight LEDs constituting the status display unit 132 may be irregularly lit / disappeared so that a fire occurrence may be visually recognized.

Subsequently, the main central controller 140 receiving the output signal of the CPPI unit 130 upgrades the change of the fire occurrence information in real time. At this time, the main central control unit 140 periodically checks the location of the ignition to check the fire movement trajectory, and outputs a screen for guiding the user to the best escape through the sub central processing unit 150 to the Ethernet network. do. In addition, the image of capturing the entrance warning text and the ignition of the fire to the user in the building and the surrounding area where the fire occurred is continuously displayed on the personal information terminal.

At this time, the sub central processing unit 150 periodically checks whether the main central control unit 140 operates normally, or checks the stored user information according to the fire occurrence signal by incorporating user identification information and exit information. Fire information is transmitted to the user's personal information terminal (not shown) through the Ethernet network. At this time, if the output of the main central control unit 140 is an abnormal signal, the sub central processing unit 150 performs the function of outputting the function of the main central control unit 140 and the external Ethernet network at the same time.

In this case, the information on the fire occurrence to be output is configured to transmit the real-time information on the built-in misfires so that the user can escape from the misfire position through the optimum escape port provided. At this time, if necessary, the sub central processing unit 150 has a space for storing the user's details, and a fire occurrence command is output from the fire detector, and information on the place and time of the fire is generated as a personal information terminal in text and image. To a mobile phone, PC or PDA.

5 is an embodiment of a screen for transmitting the various fire occurrence information illustrated above. As shown in the figure, the display screen implemented in the fire control system displays and sends out the location of the fire on the drawing where the building location is laid out. In this case, the user can enlarge and display the fire occurrence area by one-clicking again. It is preferable to. As a result, the fire authorities may take quick initial action when extinguishing the fire. In addition, it is possible to immediately know the location of the disaster prevention tool around the misfire to enable efficient disaster prevention work.

In addition, it is configured to transmit the SMS text through the user terminal registered separately from the PC screen transmission. Preferably, the system is set so that drawing transmission is possible within 1 second and text transmission is possible within 10 seconds.

In the display screen, it is configured to transmit the laid out drawing by dividing the buildings displayed by floor and room, and by presenting the disaster prevention work and the optimal fire evacuation location to the user promptly when the fire evacuation work is completed in the fire warning message. Until it is desirable to configure to enable the continuous transmission of messages to the user and the transmission of real-time information display screen.

That is, the personal information terminal (not shown) is configured to display the geographic diagram of the location information and the structure of the fire occurrence location and the actual location of the fire in real time.

Figure 6 is a total fire control applied to the fire control complex control module according to the present invention

Briefly showing the control direction of the system.

As shown, the receiver checks whether a fire has occurred based on data from fire detection sensors, elevator motion detection sensors, fire shutters, etc. installed throughout the building. By attaching the fire control complex control module 100 according to the present invention to such a receiver, if the fire information is detected afterwards to determine the exact location where the fire occurred, as well as displaying with a map on all PCs registered in the receiver, SMS notification, Notify the fire by telephone. Since the contents of the fire occurrence information have been described above, the module configured to enable reverse remote control and the reverse control according to the above will be described in detail.

To this end, a communication module capable of bidirectional communication is disposed between the input circuit unit 120 and the CPPI unit 130 to configure an output signal instead of an input.

That is, a communication module capable of bidirectional communication is disposed between the input circuit unit 120 and the CPPI unit 130 to send an input signal for fire occurrence information and not only provide continuous information to a user, but also efficiently according to the provided information. The fire control complex control module 100 is configured to enable reverse remote control by enabling an output signal that is a control signal for fire control and disaster prevention by the fire protection manager to enable disaster prevention.

To this end, RSC 485, a communication module, is configured between the input circuit unit 120 and the CPPI unit 130.

That is, by receiving a control signal from the control computer or the user computer it is possible to control the fire receiver by the remote control.

In addition, all information on fire detection and malfunctions is stored so that it can be used for various purposes as fire maintenance, maintenance and control information.

As described above, although the present invention has been described by way of limited embodiments and drawings, the present invention is not limited thereto and is intended by those skilled in the art to which the present invention pertains. Of course, various modifications and variations are possible within the scope of equivalents of the claims to be described.

Fire control complex control module according to the present invention configured and operated as described above is a module that can be simply attached to the use of the fire detector because the installation cost is low, the compatibility with the existing receiver is large, the fire occurrence time and the place of fire personal It is possible to efficiently and quickly fire control by transmitting the optimal information to avoid the place of fire by directly transmitting to the place where the user is located through the information terminal.

In addition, various classifications according to region, shape, and structure, and various information about fire protection such as evacuation ports and detailed location information of fire extinguishers can be quickly provided to users, and users can easily register online and register registered networks. Through this, it is possible to integrate and manage the distributed buildings in case of fire, and to make a flexible control system by enabling individual management for each building such as the duty management of each building fire officer.

Claims (4)

A power supply unit including a power input unit for supplying AC power to the rectifying bridge, and first and second power supply units for smoothing the power output from the power input unit and outputting the DC voltage; An input circuit unit comprising a connector configured to connect to a fire detector and an input monitoring unit for detecting a malfunction of the fire detector, self-diagnosis, and periodic fire monitoring; In order to process the sensing information together with the position signal by receiving the output of the input monitoring unit, a CPPI stage connected in parallel with CMOS, and a status display unit that can periodically check whether or not the fire signal by LED on / off A CPPI unit configured; Control the real-time fire detection signal by receiving the output signal of the CPPI unit, and transmits the fire occurrence information to the external Ethernet network through the sub-central processing unit the initial occurrence time and place when the fire occurs by receiving the processing signal of the CPPI stage A main central control unit; And And a sub-central processing unit connected to the main central control unit to periodically diagnose the main central control unit to check whether the control signal is outputted correctly or to temporarily store data and output the signal to an external Ethernet network. Fire fighting composite control module. The method of claim 1, The status display unit checks the signal applied to each CPPI stage periodically, the composite fire control module, characterized in that whether the fire signal or not LED on / off. The method of claim 1, A communication module capable of bidirectional communication is arranged between the input circuit unit and the CPPI unit so that not only an input signal for fire occurrence information but also an output signal that is a control signal for fire control and disaster prevention by a fire manager can be reversed. Fire composite control module, characterized in that possible. The method of claim 3, wherein The communication module is a firefighting composite control module, characterized in that the RSC 485.

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