KR102206600B1 - Fire detection inspection system that can inspect fire detectors with inspection fire signals - Google Patents

Abstract

Disclosed are a novel internet-based schedule sharing system and a method thereof, capable of increasing work efficiency or family management efficiency by selectively sharing schedule information between a plurality of user terminals. To this end, according to the present invention, the fire detection inspection system comprises: the fire detector detecting one or more fire elements to generate and transmit a fire signal through wired communications, and transmitting an inspection fire signal through the wired communications and short-distance wireless communications when the inspection fire signal is inputted from the outside; the fire receiver receiving the fire signal transmitted from the fire detector and the inspection fire signal; and a remote controller transmitting the inspection fire signal to the fire detector in accordance with a user′s input signal and receiving and outputting the inspection fire signal transmitted from the fire detector. According to the present invention, since schedules managed through the user terminal can be shared with those who have registered as a group (members of a family, company, and meeting), a more efficient and practical communication can be expanded.

Description

Fire detection inspection system that can inspect fire detectors with inspection fire signals {FIRE DETECTION INSPECTION SYSTEM THAT CAN INSPECT FIRE DETECTORS WITH INSPECTION FIRE SIGNALS}

The present invention relates to a fire detection inspection system capable of performing the inspection of a fire detector using a fire signal for inspection, and more particularly, a fire even if the field inspector of the fire detector does not use a fire detector tester that generates heat, smoke, etc. It relates to a fire detection inspection system that can check the condition of a detector at the site where a fire detector is installed.

In general, fire detectors are mainly installed near the ceiling of a building to detect heat or smoke in the event of a fire, convert it into a unique signal, and transmit it to a fire alarm device (fire receiver) to generate a fire alarm signal. I did it.

A plurality of these fire detectors are connected in parallel in the same fire detection area, and when any one fire detector is activated in the event of a fire, the fire detector connected in the area generates a fire alarm signal, whereas any one of the fire detectors If the fire detector of is in an inoperable state or the line is disconnected, an alarm signal will not be generated when a fire occurs.

If the fire detector alarming the occurrence of such a fire is abnormally operated, a lot of personal and physical damage occurs. Accordingly, building managers and fire officials regularly check whether the fire detector is operating normally using a fire detector tester. There is a need to do this, and if necessary, the fire detector is tested for operation.

1 is a cross-sectional view for explaining a conventional fire detector tester.

Referring to FIG. 1, a conventional fire detector tester has a main body 10 with an open top in the form of a cup accommodating the fire detector 1, and a heating tool housing 30 installed to generate heat within the main body 10. And, it is configured to include a smoke generating means (20) installed to generate smoke in the body (10).

The outer circumference of the main body 10 has an air inlet 11 for air inflow and a smoke outlet 12 on the opposite side thereof, and an installation hole 130 is formed through the center.

The body 10 is recessed in a hemispherical shape in order to increase the reflectance of radiant heat, and a reflecting mirror portion 31 made of a non-ferrous metal material treated with chromium plating by precision polishing processing on the surface is recessed.

In the center of the reflector part 31, a lamp socket part 32 for mounting the lamp heater L and a wire through hole 33 in the center from the lamp socket part are formed through, and the upper surface is formed at the bottom side of the fire detector 1 The insertion groove 34 into which the rubber ring R in close contact with the is inserted is formed, and a screw fastening part 35 for fixing as a nut N through the installation hole 13 on the main body 10 side is formed. The heating element housing 30 is guided and installed. At this time, the outer circumference of the heating bulb housing 30 is formed with a stepped diameter, and a compression spring 36 is installed on the outer circumference of the stepped diameter penetrating through the installation hole 13 of the main body 10. A switch (SW) that is supported on the side of the fire detector (1) and the rubber ring (R) is in close contact with each other, gives elasticity to the heating port housing (30) and supplies power to the lamp heater (L) and the smoke generating means (20) ) Is installed to be ON/OFF.

The smoke generating means (20) is formed on the side of the air flow path (23a) coinciding with the air inlet (11) of the main body (10) side on the top of the container body (22) filled with the ethanol solution (21) for generating smoke And a smoke outlet 23 communicating with the inside is mounted, and an ultrasonic vibrator 24 for dispersing the smoke-generating ethanol solution 21 into particulates by ultrasonic vibration is electrically connected and installed at the lower portion of the smoke outlet 23 In the lower portion of the ultrasonic vibrator 24, a filter 25 is provided that absorbs the ethanol-generating ethanol solution 2 and supplies it to the ultrasonic vibrator 24.

An exhaust fan 40 is installed inside the main body 10 adjacent to the smoke outlet 12 on the main body 10 side to guide and discharge smoke toward the smoke outlet 12 when smoke is generated.

However, in the above-described conventional fire detector tester, although the inspector must communicate whether the fire detector is operating normally or not through a walkie-talkie or telephone, the fire detector can be checked for a lot of time. There is a disadvantage that it is not only required, but the manager of the fire receiver who must inform the information of the fire receiver is absolutely necessary.

Korean Patent Registration No. 10-2022995 (announced on September 19, 2019) Korean Patent Registration No. 10-1770251 (announced on Aug 22, 2017) Republic of Korea Utility Model Registration No. 20-0450081 (2010.09.03 announcement) Korean Patent Registration No. 10-1903692 (announced on October 2, 2018)

Accordingly, it is an object of the present invention to quickly check the connection state between the fire receiver and the fire detector by sharing the fire signal transmitted to the fire receiver in real time at the site where the fire detector is installed, without having to receive the fire signal from the manager of the fire receiver. It is to provide a fire detection and inspection system.

In order to achieve the object of the present invention described above, in an embodiment of the present invention, a fire signal is generated by detecting one or more fire elements, and the fire signal is transmitted through wired communication, and when a fire signal for inspection is input from the outside. A fire detector that transmits the fire signal for inspection through wired communication and short-range wireless communication, respectively, a fire receiver that receives the fire signal and fire signal for inspection transmitted from the fire detector, and a fire signal for inspection according to the user's input signal It provides a fire detection inspection system including a fire control remote control for transmitting to the fire detector and receiving and outputting the inspection fire signal transmitted from the fire detector.

According to the present invention, since there is no need to directly perform a heat detection test or a smoke detection test in the field to check the condition of the fire detector, the hassle is minimized and work efficiency is improved, and damage to the fire detector is prevented during fire detection inspection. can do.

In addition, in the present invention, even if the manager of the fire receiver checks the fire signal transmitted to the fire receiver and does not provide feedback, the state of the fire detector can be checked at the site where the fire detector is installed, so the inspection speed of the fire detector is improved, The manpower required to inspect the fire detector is reduced.

In addition, the present invention can readjust the initial sensing value to the real-time detection value even if the initial sensing value of the sensor detecting the fire element does not coincide with the real-time detection value in the state in which the fire has not occurred as the usage period of the fire detector increases. have. In other words, according to the present invention, even if the amount of light emitted from the light emitting device decreases due to the introduction of contaminants such as dust into the fire detector as a long time elapses after the fire detector is installed, the threshold value is changed to Fire elements can be detected normally.

1 is a cross-sectional view for explaining a conventional fire detector tester.
2 is a configuration diagram for explaining a fire detection inspection system according to the present invention.
3 is a block diagram showing an embodiment of a fire detection inspection system according to the present invention.

Hereinafter, a fire detection inspection system capable of inspecting a fire detector with a fire signal for inspection according to preferred embodiments of the present invention (hereinafter, abbreviated as'fire detection inspection system') will be described in detail with reference to the accompanying drawings. .

2 is a block diagram illustrating a fire detection inspection system according to the present invention.

Referring to FIG. 2, the fire detection inspection system according to the present invention includes a fire detector 100 that detects one or more fire elements to generate a fire signal, and a fire receiver that receives a fire signal transmitted from the fire detector 100. (200), and a fire signal for inspection is provided to the fire detector (100), and a fire inspection remote control (300) that receives and outputs a fire signal for inspection transmitted by the fire detector (100) to the fire receiver (200) Includes.

Hereinafter, each component will be described in more detail with reference to the drawings.

3 is a block diagram showing an embodiment of a fire detection inspection system according to the present invention.

2 and 3, the fire detection inspection system according to the present invention includes a fire detector 100.

The fire detector 100 detects one or more fire elements to generate a fire signal, transmits the fire signal, and when a fire signal for inspection is input from the outside, the fire signal for inspection is transmitted through wired communication and short-range wireless communication. Each is transmitted to the fire receiver 200 and the fire inspection remote control 300, and may be an analog fire detector that detects heat, smoke, or both.

As a specific aspect, the fire detector 100 according to the present invention includes a fire detection module 110 that detects one or more fire elements, and a fire receiver 200 that transmits a fire signal detected from the fire detection module 110 through wired communication. ), and a fire signal for inspection from the outside is input wirelessly through the wired/wireless communication module 120, the fire signal for inspection is transmitted to the fire receiver through wired communication, and a fire signal for inspection It includes an inspection module 130 for transmitting to the remote control for fire inspection through short-range wireless communication. At this time, the wired/wireless communication module 120 is connected to the fire detection module 110 and the inspection module 130.

The fire detection module 110 constituting the fire detector 100 according to the present invention includes at least one of a heat detection sensor, a smoke detection sensor, a gas detection sensor, and a fine dust detection sensor.

The heat detection sensor is a sensor that measures heat (temperature), and a constant temperature heat detection sensor or a differential heat detection sensor may be used.

At this time, the constant temperature type heat sensor may detect heat (temperature) using the thermistor. In addition, the differential thermal sensor combines two temperature sensors to increase the thermal time constant of one side and decrease the thermal time constant of the other, and detects the rate of temperature rise from the difference between the detected temperature and heat (temperature). Can be detected.

The smoke detection sensor may detect smoke concentration through a photoelectric method. Such a smoke detection sensor can increase or decrease the sensitivity to smoke concentration.

The gas detection sensor may detect a gas concentration of organic matter generated by heat generation through an electrochemical method. Here, the organic material generated by the heat generation may be any one of carbon monoxide, carbon dioxide, hydrogen chloride, BHT gas, chlorine and ethylene.

The fine dust detection sensor may detect an atmospheric state in the measurement area through a light scattering method. Here, the light scattering method refers to a method of measuring the amount of scattered light by using the principle that when light is irradiated on a material, the colliding light is scattered in various directions, and the concentration of fine dust is obtained from the value. In addition, fine dust is soil dust, pollen of plants, soot generated when burning fossil fuels, carbon compounds such as methane, alcohol, benzene and phenol generated when organic substances are burned, nitrogen oxide, and, It may be any one of sulfur oxides or any one or more of dust.

The particulate matter (PM) is classified into fine dust (PM10), ultrafine dust (PM2.5), and ultrafine dust (PM1.0) according to the particle size. The PM10 has a particle size of 10 μm or less, the PM2.5 has a particle size of 2.5 μm or less, and the PM1.0 has a particle size of 1.0 μm or less.

The wired/wireless communication module 120 constituting the fire detector 100 according to the present invention is connected to the fire receiver 200 through wired communication, and is connected to the remote control 300 for fire inspection through short-range wireless communication. It transmits to the receiver 200 or receives the fire signal for inspection from the remote control 300 for fire inspection and transmits it to the fire receiver 200 and the remote control 300 for fire inspection. Here, as short-range wireless communication, infrared (IR) communication, high frequency (RF) communication, or the like can be used.

In the inspection module 130 constituting the fire detector 100 according to the present invention, even if heat or smoke is not directly provided to the fire detection module 110, the inspection fire signal provided from the fire inspection remote control 300 is replaced with the fire signal. It is transmitted to the fire receiver 200, and the fire signal for inspection provided by the fire detector 100 to the fire receiver 200 is sent to the fire receiver 200 so that an inspector in possession of the remote control for fire inspection 300 can check. The transmitted fire signal for inspection is also transmitted to the remote control 300 for fire inspection.

In this way, when the fire signal for inspection from the outside is input through short-range wireless communication through the wired/wireless communication module 120, the inspection module 130 uses the fire signal for inspection to the fire detector 100 and the fire receiver 200. The fire signal for inspection is transmitted to the fire receiver 200 and the remote control for fire inspection 300 so that the connection status can be checked.

As a result, even if the fire detection module 110 does not generate a fire signal, the fire detector 100 communicates with the fire receiver 200 by using the fire signal for inspection provided from the remote control 300 for the fire inspection. You can check the connection.

Meanwhile, the fire detector 100 may further include a management module 140 in which a reference value of the fire detection module 110 is set. The management module 140 resets a real-time detection value in a state in which heat or smoke is not separately supplied to a reference value at the request of the readjustment module 350 to be described later. If necessary, the management module 140 may set an identification number, and may provide a function of adding the identification number to the fire signal transmitted to the fire receiver 200.

On the other hand, when a plurality of fire detectors 100 are used in the fire detection inspection system, the plurality of fire detectors 100 may be connected through a two-wire line (power line), and the two-wire line is used as the fire detector 100. While supplying power, it also serves as a communication line between the fire detector 100 and the fire receiver 200.

Communication through these two-wire lines can be used as a half-duplex communication method. And since a plurality of fire detectors 100 may be connected to the two-wire line, the fire detectors 100 each have their own address or identification information (ID).

2 and 3, the fire detection inspection system according to the present invention includes a fire receiver 200.

The fire receiver 200 is connected to the wired/wireless communication module 120 of the fire detector 100 through wired communication to receive a fire signal transmitted from the fire detector 100 and a fire signal for inspection, and the fire signal Through continuous monitoring of the fire occurrence in the space where the fire detector 100 is installed.

In other words, the fire receiver 200 analyzes the occurrence of fire by analyzing the temperature and smoke concentration of the space in which the fire detector 100 is installed through a real-time fire signal transmitted from the fire detector 100.

As a specific aspect, the fire receiver 200 according to the present invention may include a determination unit, a communication unit, and a notification unit.

The determination unit may mutually analyze the fire signals transmitted from the fire detector 100 to determine whether a fire has occurred. That is, the determination unit may output a fire signal when determining that at least one of the fire elements is a fire.

The determination unit may extract a heat (temperature) measurement value included in the fire signal, and determine whether a fire has occurred by comparing and analyzing the heat measurement value and an outside temperature reference value when a fire occurs.

The determination unit may analyze the smoke detected from the smoke signal included in the fire signal for each type and determine whether a fire has occurred. Here, the types of smoke may be classified into tobacco smoke, combustible gas, toxic gas smoke, smoke from fire, and the like.

The determination unit may extract a smoke concentration measurement value from the smoke signal included in the fire signal, and compare and analyze the smoke concentration measurement value and a preset reference value based on a difference in concentration for each type of smoke to determine whether a fire has occurred.

The determination unit may extract a gas concentration measurement value from a gas signal included in the fire signal, and compare and analyze the gas concentration measurement value and a preset gas concentration reference value to determine whether a fire has occurred.

The determination unit may determine a standby state by extracting the fine dust concentration measurement value from the fine dust signal included in the fire signal, and comparing and analyzing the fine dust concentration measurement value and the fine dust threshold value. At this time, the determination unit controls to notify the determined waiting state information through the notification unit.

The determination unit may mutually analyze the detected heat, smoke, gas, and fine dust to control fire alarm and evacuation notification through the notification unit when it is determined that a fire occurs.

As described above, when the fire detection and inspection system of the present invention is used, fire information can be transmitted to the fire department server or the control center at the same time as the fire occurs to notify the fact of the fire, so that measures according to the fire can be quickly taken.

The communication unit is connected to the wired/wireless communication module 120 of the fire detector 100 by wire to receive the fire signal transmitted from the fire detector 100, and for inspection received from the fire detector 100 It may include a wireless communication module for transmitting the fire signal to the remote control 300 for fire inspection through a communication network. To this end, the wireless communication module is connected to the remote control 300 for fire inspection through a communication network.

If necessary, a wired/wireless communication module 120 integrated with a wired communication module and a wireless communication module may be used as the communication unit.

These communication networks include closed networks such as LAN (Local Area Network) and WAN (Wide Area Network), open networks such as Internet, as well as Code Division Multiple Access (CDMA) and Wideband Code Division Multiple Access (WCDMA). ), GSM (Global System For Mobile Communication), LTE (Long Term Evolution), EPC (Evolved Packet Core), Wi-Fi (Wireless Fidelity, Wireless Lan (WLAN)), etc. can be used.

The notification unit may be configured in the form of a speaker. The notification unit may be configured to collect the fire occurrence signal and output a warning sound when the determination unit determines that a fire has occurred and generates a fire occurrence signal. In addition, the notification unit may output a guide sound for quick evacuation due to fire. Here, the warning sound and the evacuation route guidance sound may be output as a voice output after voice recording by the voice chip.

If necessary, the fire receiver 200 may further include a storage unit. This storage unit stores the fire signal transmitted from the fire detector 100 and the fire signal for inspection.

2 and 3, the fire detection inspection system according to the present invention includes a fire inspection remote control 300.

The fire inspection remote control 300 generates a fire signal for inspection according to the user's input signal, transmits the fire signal for inspection to the fire detector 100, and the fire for inspection transmitted from the fire detector 100 By receiving and outputting a signal, instead of directly providing heat or smoke to the fire detector 100, a fire signal for inspection that can be replaced is provided to the fire detector 100.

This fire inspection remote control 300 is a fire signal for inspection replacing the fire signal so that even if the fire detector 100 does not generate a fire signal by detecting heat, smoke, etc., the fire signal can be transmitted to the fire receiver 200 Is transmitted to the fire detector 100 through short-range wireless communication such as infrared communication.

In addition, the fire inspection remote control 300 receives and outputs an inspection fire signal provided from the fire detector 100. This provides an environment in which the inspector can compare the inspection fire signal input to the fire inspection remote control 300 and the inspection fire signal received through the fire detector 100 with each other.

In a specific aspect, the remote control 300 for fire inspection according to the present invention includes a fire signal generation module 310 generating a fire signal for inspection according to a user's input signal, and a wired/wireless communication module 120 of the fire detector 100. ) And a short-range communication module 320 connected through short-range wireless communication, and transmits the fire signal for inspection to the wired/wireless communication module 120 through the short-range communication module 320, and for inspection provided from the wired and wireless communication module 120 And a control module 330 for receiving a fire signal, and an output module 340 for outputting a fire signal for inspection under control of the control module 330. To this end, the control module 330 is connected to the fire signal generation module 310, the short-range communication module 320 and the output module 340.

The fire inspection remote control 300 may be configured to further include a readjustment module 350. The readjustment module 350 collects the reference value set in the management module 140 and the real-time detection value of the fire detection module 110 for the fire element according to the user's input signal, and the reference value becomes the real-time detection value. The management module 140 is controlled to be reset.

This readjustment module 350 collects the identification number set in the management module 140 according to the user's input signal and outputs it through the output module 340, and identifies the identification to be modified by the management module 140 according to the user's input signal. You can send the number.

Therefore, the inspector transmits the fire signal for inspection to the fire detector 100 through the remote control 300 for fire inspection, and then the fire detector 100 according to whether or not the fire inspection remote control 300 for the inspection fire signal is received. ) And the fire receiver 200 can be checked.

In other words, after transmitting a fire signal for inspection from the remote control for fire inspection 300 to the fire detector 100 located in a short distance, when the fire signal for inspection is received again by the fire inspection remote control 300, the fire detector 100 ) And the fire receiver 200 are determined to be connected to each other.

And after transmitting the fire signal for inspection from the remote control for fire inspection 300 to the fire detector 100 located in a short distance, when the fire signal for inspection is not received again by the fire inspection remote control 300, the fire detector 100 It is determined that the and the fire receiver 200 are not connected to each other.

To this end, the fire inspection remote control 300 transmits the inspection fire signal to the fire detector 100 through short-range wireless communication, and then the inspection fire signal transmitted from the fire detector 100 is stable through short-range wireless communication. It is desirable to maintain the fire detector 100 and the access state for a certain time so that it can be received.

Although the above has been described with reference to the preferred embodiments of the present invention, those skilled in the art will be able to variously modify and change the present invention without departing from the spirit and scope of the present invention described in the following claims. You will understand that you can.

100: fire detector 110: fire detection module
120: wired/wireless communication module 130: inspection module
140: management module 200: fire receiver
300: remote control for fire inspection 310: fire signal generation module
320: short-range communication module 330: control module
340: output module 350: readjustment module

Claims (6)

A fire detection module that detects one or more fire elements, a wired/wireless communication module that transmits a fire signal detected from the fire detection module to a fire receiver through wired communication, and a fire signal for inspection from the remote control for fire inspection is the wired/wireless communication module. When input through, the inspection module that transmits the fire signal for inspection to the fire receiver through wired communication and transmits the fire signal for inspection to the remote control for fire inspection through short-range wireless communication, and the reference value of the fire detection module are set. A fire detector including a module;
A fire receiver for receiving a fire signal transmitted from the fire detector and a fire signal for inspection; And
A fire signal generation module that generates a fire signal for inspection according to a user's input signal, a short-range communication module connected to the wired/wireless communication module of the fire detector through short-range wireless communication, and the fire signal for inspection through a short-range communication module. A control module that transmits to a communication module and receives a fire signal for inspection transmitted from the wired/wireless communication module, an output module that outputs a fire signal for inspection according to the control of the control module, and the management module according to a user's input signal Fire detection and inspection including a fire control remote control including a readjustment module that controls the management module so that the reference value set in and the real-time detection value of the fire detection module for the fire element is collected, and the reference value is reset to the real-time detection value system. delete delete delete The method of claim 1, wherein the management module
An identification number is set, and the identification number is added to the inspection fire signal transmitted to the fire receiver. The method of claim 5, wherein the readjustment module
A fire detection inspection system, comprising: collecting the identification number set in the management module according to a user's input signal, outputting it through an output module, and transmitting the identification number to be modified to the management module according to the user's input signal.

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