KR100998323B1 - System for Monitoring a Fire - Google Patents

Abstract

The present invention relates to a fire monitoring system for sensing current flow.

The present invention provides a fire alarm that senses the actual current flow by sensing the current signal generated when operating the alarm bell in the fire receiver by using a current sensor and delivers the fire information to the controller.

The present invention can be expected not to violate the fire law by implementing a fire monitoring system in a non-contact manner in the fire-fighting equipment products that are legal equipment.

Fire receiver, seedling, fire lice, controller, current sensor, current sensing

Description

Fire Monitoring System {System for Monitoring a Fire}

The present invention relates to a fire monitoring system, and more particularly to a fire monitoring system for sensing the current flow.

Conventional fire receiver detects the occurrence of a fire in the interior of the power sphere, such as the transmission and distribution cable is arranged to notify the fire through the alarm, induction lamp.

The conventional fire monitoring device was a method of driving a relay in the fire monitoring device by a current for operating the alarm bell by connecting a wire from the fire receiver to the alarm bell.

However, the fire notification service, which directly connects the wiring to the statutory fire-fighting products (fire receivers, fire equipment systems, etc.), flows from the fire receiver to the alarm in response to the above-described abnormality of fire monitoring devices (destructive parts, poor contact, etc.). There was a problem that could interrupt the current or affect the fire protection product.

The fire notification service using the conventional fire monitoring device has a problem that it is not possible to perform a normal fire notification service by removing the fire monitoring device when the fire check is in violation of the fire law.

In order to solve this problem, the present invention is to provide a fire monitoring system for detecting the current flow.

The fire monitoring system according to a feature of the present invention for achieving the technical problem senses the current signal generated when operating the alarm bell in the fire receiver, and analyzes the current signal level of the sensed current signal to generate a fire and A current monitoring sensor unit generating related information and generating and transmitting a response signal corresponding to the received disconnection inspection signal when receiving a disconnection inspection signal for checking disconnection; And receiving information related to the fire occurrence from the current monitoring sensor unit to perform a fire information processing, generating the disconnection test signal to the current monitoring sensor unit, and receiving the response signal from the current monitoring sensor unit. It includes a fire alarm for checking the disconnection, wherein the current monitoring sensor unit is configured in a non-contact form between the fire receiver and the alarm bell.

Fire monitoring system according to a feature of the present invention is configured in a non-contact form between the fire receiver and the alarm bell senses a current signal generated when operating the alarm bell in the fire receiver, the current signal level of the sensed current signal A plurality of current monitoring units configured to analyze and generate and transmit information related to a fire occurrence; And a plurality of fire monitoring devices which receive information related to the fire occurrence from the respective current monitoring units and transmit the information related to the fire to a controller for processing the fire information, wherein each of the fire monitoring devices includes the respective current monitoring units. In order to check whether there is an abnormal state, the equipment check signal is transmitted to each current monitoring unit through wireless communication, and the response signal corresponding to the equipment check signal is received from each current monitoring unit.

Fire monitoring system according to a feature of the present invention is a non-contact between the fire receiver and the alarm bell, the current sensor for sensing and outputting a current signal generated when operating the alarm bell in the fire receiver; And a first range in which the sensed current signal is a level range of a current signal indicating that a fire is occurring, a second range in which a level signal of a current signal in which distortion due to spark current is generated, and the first range and the second range. It is determined in which range of the third range which is the level range of the current signal which does not correspond to, and if the digital sensing current signal belongs to the first range, a fire occurrence signal; if it belongs to the second range, a fire alarm signal It generates and transmits to the controller for processing the fire information, and if belonging to the third range includes a fire ear view for processing to delete the information representing the steady state signal does not occur, the current sensor for disconnection monitoring Wired connection with the fire alarm through the disconnection monitoring terminal for forming a closed loop and an output terminal for outputting the sensed current signal Characterized in that control.

By the above-described configuration, since the present invention is a way of detecting a change in the magnetic field in the current can be expected to have an effect that does not affect the fire receiver.

The present invention minimizes the customer service gap by performing a disconnection notification function by detecting a disconnection process between a current sensor and a fire alarm during the fire inspection.

The present invention can be expected not to violate the fire law by implementing a fire monitoring system in a non-contact manner in the fire-fighting equipment products that are legal equipment.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In the drawings, parts irrelevant to the description are omitted in order to clearly describe the present invention, and like reference numerals designate like parts throughout the specification.

Throughout the specification, when a part is said to "include" a certain component, it means that it can further include other components, without excluding other components unless specifically stated otherwise. In addition, the terms “… unit”, “… unit”, “module”, “block”, etc. described in the specification mean a unit that processes at least one function or operation, which is hardware or software or a combination of hardware and software. It can be implemented as.

1 is a view schematically showing the overall configuration of a fire monitoring system according to a first embodiment of the present invention, Figure 2 is a block diagram showing a brief internal configuration of the current monitoring sensor unit according to a first embodiment of the present invention to be.

The fire monitoring system according to the first embodiment of the present invention includes a current monitoring sensor unit 100, the first fire ear 200 and the first controller 300.

The current monitoring sensor unit 100 includes a current sensor 110, a signal amplifier 120, an A / D converter 130, a disconnection signal processing unit 140, and a current monitoring control unit 150.

The current sensor 110 is a non-contact clamp type CT sensor, and senses and outputs a current generated when operating the alarm bell 500 in the fire receiver 400.

The signal amplifier 120 amplifies the sensing current signal output from the current sensor 110 to a predetermined level so as to be recognized by the monitoring controller.

The A / D converter 130 converts the analog sensing current signal into a digital sensing current signal and outputs it.

When the disconnection signal processing unit 140 receives the disconnection check signal for checking the disconnection from the first fire previewer 200, the disconnection signal processor 140 transmits a response signal corresponding to the disconnection check signal to the first fire previewer 200.

The current monitoring controller 150 analyzes the digital sensing current signal to determine whether the digital sensing current signal is within the first range, the second range, or the third range.

Here, the first range represents the level range of the current signal indicating that a fire is occurring, the second range represents the level range of the current signal in which distortion due to the spark current has occurred, and the third range represents the first range and the second range. A current signal that is not included in the range indicates a range that is ignored even if a current signal is detected.

The setting of the second range described above is for recognizing the fire occurrence symptoms and preventing fire occurrence.

If it is determined that the digital sensing current signal exists within the first range, the current monitoring control unit 150 generates a fire occurrence signal and transmits it to the first fire preview 200.

When the current monitoring controller 150 determines that the digital sensing current signal exists within the second range, the current monitoring controller 150 determines whether the digital sensing current signal continues for a predetermined reference time, and the digital sensing current signal included in the second range is a predetermined reference time. When received during the electric fire symptom is recognized and generates a fire alarm signal and transmits to the first fire ear view 200.

When the current monitoring controller 150 determines that the digital sensing current signal exists within the third range, the current monitoring controller 150 recognizes the normal state in which the fire does not occur, generates a steady state signal, and transmits the generated state signal to the first fire view 200.

The first fire view 200 includes a signal processor 210 and a disconnection monitoring unit 220.

When the signal processor 210 receives the fire occurrence signal, the fire alarm signal, and the steady state signal from the current monitoring controller 150, the signal processor 210 transmits the fire occurrence signal and the fire alarm signal to the first controller 300, and the steady state signal. Delete process.

The disconnection monitoring unit 220 forms a closed loop with the current monitoring sensor unit 100 and performs a function of monitoring the presence of disconnection. The disconnection monitoring unit 220 is disposed between the first fire alarm 200 and the current monitoring sensor unit 100. When disconnection occurs, a disconnection generation signal is generated and transmitted to the first controller 300.

The first fire monitor 200 is configured such that an output terminal for outputting the sensed current signal of the current monitoring sensor unit 100 and a disconnection monitoring terminal for forming a closed loop for disconnection monitoring are wired.

The first fire monitor 200 may perform a disconnection monitoring function by using an output terminal for receiving the above-described output of the current signal. That is, the first fire view 200 is configured to connect only the output terminal by wire in order to reduce the connection wiring with the current monitoring sensor unit 100.

When the first fire alarm 200 and the current monitoring sensor unit 100 are connected to one wire, the disconnection monitoring unit 220 periodically generates a disconnection test signal for disconnection monitoring to detect the current monitoring sensor unit 100. ), And receives a response signal corresponding to the disconnection test signal from the current monitoring sensor unit 100.

Through this, when the first fire extinguisher 200 receives a response signal, the first fire ear 200 recognizes that the current monitoring sensor unit 100 and the first fire extinguisher 200 are normally connected and fail to receive the response signal. In this case, disconnection is detected and a disconnection generation signal is generated and transmitted to the first controller 300.

When the first controller 300 receives a fire occurrence signal and a fire alarm signal from the first fire ear tip 200, the first controller 300 alerts the fire occurrence and the symptom to a control center to perform fire information processing.

3 is a view schematically showing the overall configuration of a fire monitoring system according to a second embodiment of the present invention.

Fire monitoring system according to a second embodiment of the present invention includes a plurality of current monitoring unit 600, a plurality of fire monitoring device 700 and the second controller (800). The description of the corresponding device in the configuration module of the fire monitoring system of the first embodiment described above will be omitted.

Here, each current monitoring unit 600 is located between the fire receiver 400 and the alarm bell 500, like the current monitoring sensor unit 100 described above.

Each current monitoring unit 600 includes a current sensor 110, a signal amplifier 120, an A / D converter 130, a current monitoring controller 150, and a fire information transmitter (not shown). Here, the current sensor 110, the signal amplifier 120, the A / D converter 130, and the current monitoring controller 150 will not be described in detail because they are described in the fire monitoring system of the first embodiment.

The fire information transmitter transmits the information related to the fire occurrence generated by the current monitoring controller 150 to the fire monitoring apparatus 700 through wireless communication, and receives the equipment check signal from the fire monitoring apparatus 700, and checks the equipment. A response signal to the signal is generated and transmitted to the fire monitoring apparatus 700. Here, the information related to the fire occurrence is the same as mentioned in the first embodiment.

The fire monitoring apparatus 700 constitutes a wireless transmission / reception unit (not shown) that transmits and receives information related to a fire occurrence to the current monitoring unit 600 and the second controller 800, and generates a fire received from the fire information transmission unit. By analyzing the relevant information, the fire occurrence signal and the fire alarm signal are transmitted to the second controller 800, and when the steady state signal is received, the process is deleted.

The fire monitoring apparatus 700 generates equipment check signals and periodically transmits them to the current monitoring unit 600 through wireless communication to check whether there is an abnormal state of the current monitoring unit 600, and from the current monitoring unit 600. Receive a response signal corresponding to the equipment check signal.

The second controller 800 receives a fire occurrence signal and a fire alarm signal through a wireless communication from a plurality of fire alarms to alert the fire center to a control center to perform fire information processing.

4 is a view schematically showing the overall configuration of a fire monitoring system according to a third embodiment of the present invention.

The fire monitoring system according to the third embodiment of the present invention includes a current sensor 110, a second fire ear 900 and the first controller 300. Here, since the first controller 300 is the same as the first controller 300 of the above-described first embodiment, description thereof will be omitted.

The current sensor 110 is configured in a non-contact form between the fire receiver 400 and the bell 500, and senses and outputs a current signal generated when operating the bell 500 in the fire receiver 400.

The second fire ear 900 is the signal amplifier 120, the A / D converter 130, the current monitoring control unit 150, the signal processing unit 210 and the disconnection monitoring unit 220 in the above-described first embodiment. Plays the role of.

That is, the second fire ear 900 includes a first range which is a level range of a current signal indicating that a fire is occurring, and a second range which is a level range of a current signal in which distortion due to spark current occurs. And a third range which is a level range of a current signal that does not correspond to the first range and the second range.

The second fire view 900 transmits a fire occurrence signal when the digital sensing current signal belongs to the first range, and generates a fire alarm signal when the digital sensing current signal belongs to the second range, and transmits the generated fire alarm signal to the first controller 300 that processes the fire information. If it is in the third range, the data is deleted with information indicating a steady state signal in which no fire occurs.

The second fire ear 900 is configured to be connected by wire to an output terminal for receiving the output of the sensed current signal of the current sensor 110 and a disconnection monitoring terminal for forming a closed loop for disconnection monitoring.

The embodiments of the present invention described above are not implemented only by the apparatus and / or method, but may be implemented through a program for realizing functions corresponding to the configuration of the embodiment of the present invention, a recording medium on which the program is recorded And such an embodiment can be easily implemented by those skilled in the art from the description of the embodiments described above.

Although the embodiments of the present invention have been described in detail above, the scope of the present invention is not limited thereto, and various modifications and improvements of those skilled in the art using the basic concepts of the present invention defined in the following claims are also provided. It belongs to the scope of rights.

1 is a diagram schematically showing the overall configuration of a fire monitoring system according to a first embodiment of the present invention.

2 is a block diagram schematically showing the internal configuration of the current monitoring sensor unit according to the first embodiment of the present invention.

3 is a view schematically showing the overall configuration of a fire monitoring system according to a second embodiment of the present invention.

4 is a view schematically showing the overall configuration of a fire monitoring system according to a third embodiment of the present invention.

Claims (8)

In a fire monitoring system that uses a fire receiver and alarm to notify of a fire, Sensing the current signal generated when operating the alarm bell in the fire receiver, analyzing the current signal level of the sensed current signal to generate information related to the occurrence of a fire, and receiving a disconnection test signal to check for disconnection A current monitoring sensor unit generating and transmitting a response signal corresponding to the received disconnection test signal; And Receive information related to the fire occurrence from the current monitoring sensor unit to perform the fire information processing, generate the disconnection test signal to the current monitoring sensor unit, and receives the response signal from the current monitoring sensor unit disconnection Includes this view of the fire to check for the presence, The current monitoring sensor unit fire monitoring system, characterized in that configured in a non-contact form between the fire receiver and the alarm. According to claim 1, The current monitoring sensor unit, A current sensor for sensing a current signal generated when operating the alarm bell in the fire receiver; A signal amplifier for amplifying the sensed current signal to a predetermined level; An A / D converter converting the amplified current signal into a digital sensing current signal; And The digital sensing current signal is a first range which is a level range of a current signal indicating that a fire is occurring, a second range which is a level range of a current signal in which distortion due to spark current is generated, and the first range and the second range. It is determined in which range of the third range which is the level range of the non-current signal, and if the digital sensing current signal belongs to the first range, a fire occurrence signal is output; A current monitoring control unit configured to generate and transmit a steady state signal indicating that a fire does not occur when falling in the third range Fire monitoring system comprising a. The method of claim 2, This view of the fire, A signal processing unit which receives the fire generation signal and the fire alarm signal from the current monitoring sensor unit and transmits the fire information to a controller that processes fire information through an interlocked control center, and deletes the received state signal; And When disconnection occurs between the current monitoring sensor unit and the fire alarm, a disconnection monitoring unit generating a disconnection generation signal and transmitting the disconnection generation signal to the controller. Fire monitoring system comprising a. The method of claim 3, The disconnection monitoring unit generates the disconnection inspection signal and periodically transmits the disconnection inspection signal to the current monitoring sensor unit, and receives a response signal corresponding to the disconnection inspection signal from the current monitoring sensor unit to check for disconnection. system. According to claim 1, The current monitoring sensor unit is a fire monitoring system, characterized in that the wire connection with the fire alarm through the output terminal for outputting information related to the fire occurrence and the disconnection monitoring terminal for forming a closed loop for monitoring the disconnection. According to claim 1, The fire monitoring system and the current monitoring sensor unit is a fire monitoring system, characterized in that for implementing the function of checking the disconnection and the function of transmitting and receiving the information related to the fire through a single wiring. In a fire monitoring system that uses a fire receiver and alarm to notify of a fire, The non-contact type between the fire receiver and the alarm bell senses a current signal generated when operating the alarm bell in the fire receiver, and analyzes the current signal level of the sensed current signal to generate information related to the fire occurrence. A plurality of current monitoring unit for transmitting by; And A plurality of fire monitoring device for receiving the information related to the fire occurrence through the wireless communication from each of the current monitoring unit for transmitting to the controller for processing the fire information, Each fire monitoring device transmits an equipment check signal to each of the current monitoring units through wireless communication to check whether there is an abnormal state of each of the current monitoring units, and sends a response signal corresponding to the equipment check signal from each of the current monitoring units. Fire monitoring system, characterized in that for receiving. In a fire monitoring system that uses a fire receiver and alarm to notify of a fire, A current sensor positioned non-contacted between the fire receiver and the alarm bell and sensing and outputting a current signal generated when operating the alarm bell in the fire receiver; And The sensed current signal is a first range which is a level range of a current signal indicating that a fire is occurring, a second range which is a level range of a current signal in which distortion due to spark current is generated, and the first range and the second range. It is determined in which range of the third range which is the level range of the current signal which does not correspond, and if a digital sensing current signal processed and generated from the current signal belongs to the first range, a fire occurrence signal is generated; If belongs to the fire alarm signal is generated and transmitted to the controller for processing the fire information, if the belonging to the third range includes a fire view to delete the information processing to indicate the normal state signal that does not occur, And the current sensor is wired to the fire alarm system through a disconnection monitoring terminal for forming a closed loop and an output terminal for outputting the sensed current signal for disconnection monitoring.

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