KR101682470B1 - Fire alert apparatus using multifunctional sensor module - Google Patents

Abstract

The present invention relates to a technique of detecting fire in electrical facilities in advance, capable of detecting a sign of fire in each position of a disaster prevention zone, such as an underground culvert weak to the fire due to installed power cables or power reception/distribution panels, in real time by using a multifunctional sensor module modularizing a plurality of non-contact type sensors, so as to inform a manager of the fire through a screen or an alarm. To this end, the apparatus comprises: a plurality of multifunctional sensor modules including modularized non-contact sensors to output an oxygen concentration detection signal, a smoke detection signal, and a motion detection signal in the disaster prevention zone weak to the fire; a wired/wireless transmitter receiving the oxygen concentration detection signal, the smoke detection signal, and the motion detection signal from the multifunctional sensor modules to transmit the signals through a recommend standard (RS)-485 communication network; a universal serial bus (USB)-serial communication conversion device to transmit, through a USB communication module, the detection signals received through the RS-485 communication network, or to convert the signals received through the USB communication module into a signal suitable for transmission through the RS-485 communication network; and a fire monitoring device recognizing the fire and an accident occurring in an arbitrary position within the disaster prevention zone based on the detection signals received from the USB-serial communication conversion device to display fire and accident occurrence in the corresponding position on a screen, and issues the alarm.

Description

FIELD ALERT APPARATUS USING MULTIFUNCTIONAL SENSOR MODULE USING MULTIFUNCTIONAL SENSOR MODULE

The present invention relates to a technology for detecting fire occurrence in electrical equipment in advance, and more particularly, to a fire detection system using a multifunctional sensor module capable of detecting and reporting a fire occurrence through a multifunctional sensor module in an underground culvert ≪ / RTI >

Generally, the main cause of electric fire is short circuit, overcurrent, arc and leakage current of cable. To reduce the occurrence of such electric fires, individual devices such as fire detection sensors and breakers are installed.

Recently, a contact type temperature sensor is separately installed in a place where a fire is likely to occur in a large building, an industrial facility equipped with a mechanical facility, or an electric facility, and a system is provided to notify the manager when heat is detected through these.

However, in the case of the prior art that detects the occurrence of fire by using the contact type temperature sensor, it is difficult to quickly cope with the delay time after the heat generation, and since a large number of temperature sensors are attached to each heat generation position, There is a difficulty in.

Furthermore, it is difficult to detect an unexpected fire symptom occurring in an underground calvert or a certain place in a building in real time and notify an administrator of the underground calvert that a communication line, a wire or the like passes through.

A problem to be solved by the present invention is to provide a multi-function sensor module in which a plurality of non-contact type sensors are modularized in a disaster prevention area such as an underground curb where a power cable or a switchboard is installed and is vulnerable to fire, And to inform the administrator through the screen or alarm.

According to an aspect of the present invention, there is provided an apparatus for monitoring fire occurrence of an electrical equipment using a non-contact type temperature sensor, the apparatus including a modular non-contact type sensor for detecting an oxygen concentration detection signal and a smoke detection signal in a fire- A plurality of multi-function sensor modules each outputting a motion detection signal; A wired / wireless transmitter for receiving an oxygen concentration detection signal, a smoke detection signal, and a motion detection signal from the multifunctional sensor module and transmitting the received oxygen concentration detection signal, smoke detection signal, and motion detection signal through an RS-485 communication network; A USB-serial communication converter for transmitting the detection signals received through the RS-485 communication network through the USB communication module or converting the signals received through the USB communication module to be suitable for transmission through the RS-485 communication network ; And a control unit for recognizing that a fire or an accident has occurred at an arbitrary position in the disaster prevention area based on the detection signals transmitted from the USB-serial communication conversion device and displaying a fire or accident occurrence at the corresponding position on the screen, And a fire monitoring device for generating a fire.

The disaster prevention area may be an underground calvert or a building interior.

The multi-function sensor module includes an oxygen sensor for sensing an atmospheric oxygen concentration in the corresponding disaster prevention area and outputting the oxygen concentration detection signal corresponding thereto, and solid and liquid fine particles, which are combustibles that are not completely combusted in the airtight body, And a motion sensor for measuring a change in level of infrared rays (or heat) emitted from a surrounding object and outputting the detected motion detection signal, have.

The multifunctional sensor module may be connected to the parameter setting device to set parameters of the oxygen sensor, the smoke sensor, and the motion sensor.

In the present invention, a multi-function sensor module is used in a disaster prevention area such as an underground curb where a power cable, a power plant or the like is installed and is vulnerable to fire, real-time detection of a fire occurrence at each location, , The administrator can recognize the occurrence of a fire at the corresponding position through a screen or an alarm, and take necessary measures without paying special attention.

1 is a block diagram of a fire occurrence monitoring device using a multifunctional sensor module according to an embodiment of the present invention.
2 is a photograph of a multi-function sensor module product applied to the present invention.
3 is a block diagram of a parameter setting device of a multifunctional sensor module according to another embodiment of the present invention.

It is to be understood that the words or words used in the present specification and claims should not be construed in a conventional or dictionary sense and that the inventor can properly define the concept of a term in order to best describe its invention It is to be understood that the present invention is not limited to the above-described embodiments.

It is also to be understood that the specific structure or functional description is illustrative only for the purpose of illustrating an embodiment consistent with the concept of the present invention and that the embodiments according to the concept of the present invention may be embodied in various forms, But are not limited to, examples.

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 fire occurrence monitoring apparatus using a multifunctional sensor module according to an embodiment of the present invention. As shown in FIG. 1, the multifunctional sensor module 10A-10N, the wire / wireless transmitter 20, (30) and a fire monitoring device (40).

The plurality of multifunctional sensor modules 10A to 10N are installed in an underground calvert which is a pipe through which communication lines, electric wires, and the like pass, or in a disaster prevention area susceptible to the occurrence of fire in a building. These sensors are respectively an oxygen sensor 11A, a smoke sensor 11B, A motion sensor 11C and a controller 12. [

The oxygen sensor 11A detects the atmospheric oxygen concentration in the corresponding disaster prevention area and outputs an oxygen concentration detection signal corresponding thereto. It is reported that humans feel the most comfortable when the oxygen concentration in the atmosphere is 21 ~ 23%. If oxygen concentration is 18% or more, safety limit is reached. If oxygen concentration is 16%, breathing and pulse increase, headache nausea is felt. If oxygen concentration is 12%, there is risk of dizziness, vomiting, muscle weakness, If there is a risk of pale pale, unconsciousness, airway obstruction, if 10% oxygen concentration is 8%, fainting, spontaneous death (within 8 minutes), 6% oxygen concentration, respiratory arrest, .

The smoke sensor 11B senses that solid and liquid fine particles, which are combustibles that are not completely combusted in the gas, are floating in the air, and output a smoke detection signal corresponding thereto. Smoke is reported to have a better fire response than heat sensation. The smoke sensor 11B is extremely low in power consumption and can be used for many years in battery operation. The smoke sensor 11B is less expensive than the photoelectric type and is structurally simple. The smoke sensor 11B has been reported to have excellent durability against pollution as compared with the photoelectric type.

The motion sensor 11C measures the level change of the infrared ray (or heat) emitted from the surrounding object and outputs a motion detection signal corresponding thereto. The motion detection signal 11C supports a long distance and a wide angle (Sentry Angle: 120 degrees).

Since the oxygen sensor 11A, the smoke sensor 11B and the motion sensor 11C included in the multifunctional sensor modules 10A to 10N have a wide field of view (FOV), various FOVs Of View).

The controller 12 is connected to the oxygen sensor 11A, the smoke sensor 11B and the motion sensor 11C to determine whether or not a fire has occurred at a corresponding position (node) in the disaster prevention area based on the output signals of the sensors , And transmits a fire detection signal through a Zigbee or RS-485 communication network when it is determined that a fire has occurred.

The wired / wireless transmitter 20 is connected to the controller 12 and transmits a fire detection signal received therefrom through the RS-485 communication network.

On the other hand, the USB-serial communication converter 30 is connected to the wired / wireless transmitter through an RS-485 communication network and is connected to the fire monitoring device 40 via a USB communication module. Accordingly, the USB-serial communication conversion device 30 transmits a fire detection signal received through the RS-485 communication network through the USB communication module, or conversely, receives the signal received through the USB communication module via the RS-485 communication network And to convert it to be suitable for transmission.

The USB-serial communication conversion device 30 collects and transmits a fire detection signal output from the multi-function sensor module 10A-10N. The USB-serial communication conversion device 30 can be configured to have three channels of alarm output, and a tower lamp or a horn can be provided to ensure quick judgment and visibility.

The fire monitoring device 40 monitors the occurrence of fire at the corresponding location in the disaster prevention area through the USB port for each independent group. That is, the fire monitoring apparatus 40 receives the fire detection signals sent from the USB-serial communication conversion apparatus by each group through the USB port of each group and receives the fire detection signals from the corresponding positions in the disaster prevention area It recognizes the occurrence of a fire or an accident and displays it on the screen for alarm monitoring.
Accordingly, the manager can recognize the occurrence of fire at the corresponding position and take necessary actions through the screen or the alarm without paying any special attention.

FIG. 2 is a photograph of a multi-function sensor module product according to an embodiment of the present invention. As shown in FIG. 2, the sensor module has a single module and can be easily installed on a ceiling or a wall surface in a disaster prevention area to detect an oxygen sensor, .

FIG. 3 is a block diagram of a parameter setting apparatus according to another embodiment of the present invention. As shown in FIG. 3, the parameter setting apparatus includes a multi-function sensor module 10A-10N, The setting device 50 can be connected to set the parameters of the oxygen sensor 11A, the smoke sensor 11B, and the motion sensor 11C.

The user selects a sensor to set a parameter among the oxygen sensor 11A, the smoke sensor 11B and the motion sensor 11C through the user interface. When the oxygen sensor 11A is selected by the user, the controller 12 turns the oxygen sensor 11A on or off according to the user's request through the parameter setting device 50. [ When the smoke sensor 11B is selected by the user, the controller 12 turns the smoke sensor 11B on or off according to the user's request through the parameter setting device 50. [ When the motion sensor 11C is selected by the user, the controller 12 sets the operation time of the motion sensor 11C according to the user's request through the parameter setting device 50, and stores the set contents in the internal memory do.

Although the preferred embodiments of the present invention have been described in detail above, it should be understood that the scope of the present invention is not limited thereto. These embodiments are also within the scope of the present invention.

10A-10N: Multi-function sensor module 11A: Oxygen sensor
11B: Smoke sensor 11C: Motion sensor
20: wire / wireless transmitter 30: USB-serial communication converter
40: fire monitoring device 50: parameter setting device

Claims (4)

A plurality of multi-function sensor modules (10) provided with a modular non-contact type sensor and outputting an oxygen concentration detection signal, a smoke detection signal and a motion detection signal in a fire prevention zone vulnerable to fire generation;
A smoke detection signal, and a motion detection signal of the multifunctional sensor module 10, and receives the oxygen concentration detection signal, the smoke detection signal, and the motion detection signal of the multifunctional sensor module 10, And a controller 12 for determining whether or not a fire has occurred in the fire alarm system and transmitting a fire detection signal to the wired / wireless transmitter 20 through a Zigbee or RS-485 communication network when it is determined that a fire has occurred;
A wired / wireless transmitter 20 for receiving a fire detection signal from the controller 12 and transmitting the fire detection signal to the USB-serial communication converter 30 through an RS-485 communication network;
A fire detection device 40 for transmitting the fire detection signal received through the RS-485 communication network to the fire monitoring device 40 via the USB communication module, and a USB- A serial communication conversion device (30);
The fire detection signal transmitted from the USB-serial communication converter is received by each group through a USB port for each group, and based on the received fire detection signal, a fire or an accident occurs at the corresponding location in the fire fighting area, A fire monitoring device (40) for displaying an alarm on a screen so as to be integrally monitored for each group;
A parameter setting device 50 connected to the multifunctional sensor module for setting parameters such as on / off of the oxygen sensor, on / off of the smoke sensor, and operation time of the motion sensor,
The USB-to-serial communication conversion device 30 constitutes a three-channel alarm output for securing quick judgment and visibility, and includes a tower lamp or a horn. Fire monitoring device used.
The fire detection apparatus according to claim 1, wherein the fire-fighting area is an underground calvert or a building.
The multi-function sensor module according to claim 1,
An oxygen sensor for sensing an atmospheric oxygen concentration in the disaster prevention zone and outputting the oxygen concentration detection signal corresponding thereto;
A smoke sensor for detecting that solid and liquid fine particles, which are combustibles that are not completely combusted in the gas, are floating in the air, and outputting the smoke detection signal corresponding thereto; And
And a motion sensor for measuring the level change of infrared rays (or heat) emitted from the surrounding object and outputting the motion detection signal according to the level change.
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