KR102545061B1 - remote control check support system of fire dector - Google Patents

Abstract

The present invention relates to a fire detector remote inspection support device, which includes a fire detector installed on the ceiling of a building to detect a fire, and a remote inspection signal transmitter for transmitting a check signal to the fire detector to check the normal operation of the fire detector. The fire detector includes an inspection signal receiver for receiving an inspection signal from a remote inspection signal transmitter, and a fire detection sensor capable of detecting whether or not a fire occurs by using at least one of heat, smoke, flame, and gas as a sensing target source. , a sensing source generating unit for generating a sensing target source detected by the fire detection sensor for inspection, and a terminal control unit for controlling generation of the sensing target source from the sensing source generating unit when an inspection signal is received from the inspection signal receiving unit. According to such a fire detector remote inspection support device, it provides the advantage of improving the inspection work efficiency as well as solving the inspection restriction on the installation height of the inspection target fire detector.

Description

Fire detector remote check support system {remote control check support system of fire detector}

The present invention relates to a remote inspection support device for a fire detector, and more particularly, to a fire detector remote inspection support device capable of resolving inspection restrictions on the installation height of a fire detector to be inspected.

Due to the recent high-rise and large-scale buildings, fire can lead to enormous loss of life. Certain firefighting objects are required to undergo operational function checks and comprehensive precision checks at least once a year.

As a firefighting facility, a fire detection system that detects a fire and issues an alarm is built. In order to prevent large damage from fire that may occur unexpectedly inside various buildings such as business and residential, a fire detector is installed on the ceiling to detect whether a fire has occurred, and a fire detection signal from the fire detector is received and A fire receiver is provided to issue an alarm.

In general, fire detectors that detect fire include a smoke detector that detects smoke generated by a fire, a heat detector that detects heat, a flame detector that detects flame, and a gas that is generated in the event of a fire. gas detectors, etc. These fire detectors are usually located on the ceiling of a living room/room or office at home. In order to check whether the fire detector works properly, an individual inspection is performed by applying heat or smoke directly to each detector using an inspection tool. . This inspection mechanism is disclosed in Korean Patent Registration No. 10-0676129.

However, the measurable height of the inspection mechanism is limited by the extended length of the foldable pipe, and in order to check a fire detector installed in a place where the height is higher than 10 m, such as a parking lot, an indoor stadium, or a factory facility, It has a disadvantage that it is difficult to apply because it is difficult to measure accurately. In this case, since a special vehicle equipped with a lifter capable of lifting an inspection worker must be used, there is a problem in that a lot of time and resources required for the inspection work are wasted.

The present invention has been devised to improve the above problems, and an object of the present invention is to provide a fire detector remote inspection support device that remotely supports inspection so as to solve the inspection restriction on the installation height of the inspection target fire detector. .

In order to achieve the above object, a fire detector remote inspection support device according to the present invention includes a fire detector installed on a ceiling surface of a building to detect a fire; and a remote inspection signal transmitter for transmitting an inspection signal to the fire detector to check normal operation of the fire detector, wherein the fire detector includes an inspection signal receiver for receiving an inspection signal from the remote inspection signal transmitter; a fire detection sensor capable of detecting whether a fire occurs by using at least one of heat, smoke, flame, and gas as a source to be sensed; a detection source generating unit for checking the sensing target source detected by the fire detection sensor; and a terminal control unit for controlling generation of a source to be sensed from the sensing source generating unit when the inspection signal is received from the inspection signal receiving unit.

According to one aspect of the present invention, a reaction result signal detection unit for detecting a reaction result signal for a sensing target source of the fire monitoring sensor and providing it to the terminal control unit; wherein the terminal control unit is provided with the reaction result signal detection unit The received reaction result signal is transmitted to the remote test signal transmitter through the terminal communication unit.

In addition, the reaction result signal detection unit may be constructed to detect a current generated in a signal transmission line leading to a fire receiving panel when a fire is detected from the fire detection sensor and transmit the current to the terminal control unit.

Preferably, the remote inspection signal transmitter includes a laser generator for sending out laser light as a inspection signal; a control unit capable of instructing the generation of a check signal; and an inspection control unit for controlling transmission of a laser inspection signal from the laser generating unit when an inspection signal generating instruction signal is received from the operation unit, and the inspection signal receiving unit is configured to receive the laser light transmitted from the laser generating unit. is built

The check signal generated by the laser generating unit is applied to a pulse code signal generated by turning on/off the laser light.

More preferably, the inspection signal receiving unit is applied with a solar cell that converts the incident laser light into an electrical signal, and a charging unit that charges the power generated from the solar cell and uses it as driving power for the fire detector.

According to the fire detector remote inspection support apparatus according to the present invention, the inspection restriction on the installation height of the fire detector to be inspected is eliminated and the inspection work efficiency can be improved.

1 is a diagram for explaining an inspection process through a fire detector remote inspection support device according to the present invention;
2 is a block diagram showing an example of a networking structure of the fire detector of FIG. 1;
3 is a detailed block diagram of the fire detector of FIG. 1;
4 is a detailed block diagram of the remote test signal transmitter of FIG. 1;

Hereinafter, a fire detector remote inspection support apparatus according to a preferred embodiment of the present invention will be described in more detail with reference to the accompanying drawings.

1 is a diagram for explaining an inspection process through a fire detector remote inspection support device according to the present invention.

Referring to FIG. 1 , a fire detector remote inspection support apparatus 100 according to the present invention includes a fire detector 110 and a remote inspection signal transmitter 150 .

The fire detector 110 is installed on the ceiling surface 10 of the building to detect fire. The fire detector 110 is provided with an inspection signal receiving unit 120 for receiving an inspection signal to check normal operation. As shown in FIG. 2 , the fire detector 110 is installed at each installation location and is constructed to transmit a fire detection signal to the fire receiving panel 80 through the communication network 50 . Here, the communication network 50 may be wired or wireless.

A detailed structure of the fire detector 110 in this structure will be described with reference to FIG. 3 .

The fire detector 110 includes a check signal receiver 120, a charger 125, a fire detection sensor 130, a detection source generator 132, a reaction result signal detector 140, a terminal communication unit 142, a terminal control unit ( 145) is provided.

The inspection signal receiving unit 120 receives the inspection signal transmitted from the remote inspection signal transmitter 150 and provides it to the terminal control unit 145 .

The inspection signal receiver 120 may be configured to receive laser light transmitted from the remote inspection signal transmitter 150 . In this case, the inspection signal receiving unit 120 may be constructed to receive the laser light and provide an electrical signal corresponding to the received laser light to the terminal control unit 145.

Preferably, the inspection signal receiving unit 120 is applied with a solar cell that converts the incident laser light transmitted from the remote inspection signal transmitter 150 into an electrical signal, and the charging unit 125 charges the power generated from the solar cell. It can be built to be used as driving power for the fire detector 110. In this case, the inspection signal receiving unit 120 may be constructed to provide a waveform signal or a voltage signal for an output signal to the charging unit 125 of the solar cell corresponding to the incident laser light to the terminal control unit 145 as a inspection signal.

The fire detection sensor 130 is configured to detect whether a fire occurs by using at least one of heat, smoke, flame, and gas as a source to be sensed. The fire detection sensor 130 may be configured to output a fire detection signal to the terminal control unit 145 when detecting whether a fire has occurred. Unlike this, the fire detection sensor 130 transmits a fire detection signal through the signal transmission line 82 leading to the fire receiving panel 80 when detecting whether a fire occurs, and the fire detection sensor in the reaction result signal detection unit 140 described later ( 130) can be constructed to detect whether or not the fire detection signal is generated.

The fire detection sensor 130 may be applied to those normally applied to detect a fire.

The detection source generating unit 140 generates a sensing target source detected by the fire detection sensor 130 for inspection. That is, the detection source generator 130 is built to generate heat when the fire detection sensor 130 is built to detect heat. In this case, the detection source generator 130 may be constructed as a heater that generates heat by being controlled by the terminal control unit 145 . Similarly, the detection source generator 130 is built to generate smoke when the fire detection sensor 130 is built to detect smoke, is built to generate flame when built to detect a flame, and detects gas. It is constructed to generate gas if so intended.

The reaction result signal detection unit 140 detects the reaction result signal for the sensing target source of the fire monitoring sensor 130 and provides it to the terminal control unit 145 .

The reaction result signal detector 140 is an electrical signal generated in response to a signal transmitted through the signal transmission line 82 leading to the fire receiving panel 80 from the fire detection sensor 130 when a fire is detected, for example, a switch-on when a fire is detected. It can be built to detect the current generated through the signal transmission line 82 and transmit it to the terminal control unit 145 as a reaction result signal.

If the fire detection signal generated by the fire detection sensor 130 is provided to the terminal control unit 145 and the fire detection sensor and the fire receiving panel 80 are constructed to communicate wirelessly, the reaction result signal detection unit 140 can be omitted. .

When a check signal is received from the check signal receiver 120, the terminal control unit 145 controls the sensing target source to be generated from the detection source generator 140.

In addition, the terminal controller 145 transmits the reaction result signal received from the reaction result signal detector 140 to the remote test signal transmitter 150 through the terminal communication unit 142 .

Alternatively, the terminal control unit 145 transmits the reaction result signal received from the reaction result signal detector 140 to the fire receiving panel 80 through the terminal communication unit 142.

Unlike this, when the fire detection sensor 130 is constructed to provide a fire detection signal to the terminal control unit 145, the terminal control unit 145 transmits the terminal communication unit 142 when the fire detection signal is received from the fire detection sensor 130. Through this, the remote inspection signal transmitter 150 transmits response information about the reaction result of the fire detection sensor 130 to the inspection signal to the remote inspection signal transmitter 9150.

Meanwhile, the remote inspection signal transmitter 150 transmits an inspection signal to check the normal operation of the fire detector 110 to the inspection signal receiver 120 of the fire detector 110 and will be described with reference to FIG. 4 .

Referring to FIG. 4 , the remote inspection signal transmitter 150 includes a laser generator 160, a control unit 170, a display unit 175, an inspection communication unit 180, an inspection control unit 190, and a storage unit 195. do.

The laser generator 160 is controlled by the inspection control unit 190 to transmit laser light as an inspection signal.

The control unit 170 is capable of setting supported functions including generation of a check signal.

The display unit 175 is controlled by the inspection control unit 190 to display display information.

The inspection communication unit 180 receives a signal transmitted from the terminal communication unit 142 and provides it to the terminal control unit 145 .

The storage unit 195 is controlled by the inspection control unit 190 to record the recording target information.

When the inspection signal generation instruction signal is received from the control unit 170, the inspection control unit 190 controls the laser light corresponding to the laser inspection signal to be transmitted from the laser generator 160. Preferably, the check signal generated by the laser generator 160 is a pulse code signal generated while turning on/off the laser light. In this case, the fire detector 110 can clearly distinguish external noise light or unintended laser light and inspection signal, thereby preventing malfunction.

In this structure, when the inspection signal is received from the inspection signal receiver 120, the terminal control unit 145 of the fire detector 110 provides a normal fire detection response signal from the fire detection sensor 130 and/or the reaction result signal detection unit 140. If so, response information including unique identification information and normal response information is transmitted to the remote inspection signal transmitter 150 through the terminal communication unit 142, and the inspection control unit 190 of the remote inspection signal transmitter 150 transmits the inspection communication unit 180 The response information received through is recorded in the storage unit 195 as inspection result information together with the inspection date and time. The inspection result record information recorded in the storage unit 195 may be configured to support transmission to a management target terminal or server through a communication interface (not shown) of the remote inspection signal transmitter 150 or the inspection communication unit 180.

According to the fire detector remote inspection support device described above, the inspection restriction on the installation height of the fire detector to be inspected is eliminated and the inspection work efficiency can be improved.

110: fire detector 120: inspection signal receiver
125: charging unit 130: fire detection sensor
132: detection source generator 140: reaction result signal detection unit
142: terminal communication unit 145: terminal control unit
150: remote inspection signal transmitter 160: laser generator
170: control unit 175: display unit
180: inspection communication unit 190: inspection control unit
195: storage unit

Claims (6)

A fire detector installed on the ceiling of a building to detect a fire;
A remote inspection signal transmitter for transmitting a check signal to the fire detector to check the normal operation of the fire detector;
The fire detector includes an inspection signal receiving unit receiving an inspection signal from the remote inspection signal transmitter;
a fire detection sensor capable of detecting whether a fire occurs by using at least one of heat, smoke, flame, and gas as a source to be sensed;
a detection source generating unit for checking the sensing target source detected by the fire detection sensor;
A terminal control unit for controlling generation of a source to be sensed from the sensing source generating unit when the inspection signal is received from the inspection signal receiving unit;
The remote inspection signal transmitter
a laser generating unit that transmits laser light as an inspection signal;
a control unit capable of instructing the generation of a check signal;
An inspection control unit controlling the laser inspection signal to be transmitted from the laser generator when an inspection signal generating instruction signal is received from the operation unit;
The inspection signal receiving unit is capable of receiving the laser light transmitted from the laser generating unit,
The inspection signal generated by the laser generator is a pulse code signal generated by turning on/off the laser light,
The inspection signal receiving unit is applied with a solar cell that converts the incident laser light into an electrical signal, and a charging unit that charges the power generated from the solar cell and uses it as driving power of the fire detector. Remote inspection support device. The method of claim 1, further comprising a reaction result signal detector detecting a reaction result signal for the sensing target source of the fire detection sensor and providing it to the terminal controller,
The fire detector remote inspection support device, characterized in that the terminal control unit transmits the reaction result signal received from the reaction result signal detection unit to the remote inspection signal transmitter through a terminal communication unit. The method of claim 2, wherein the reaction result signal detector
When a fire is detected from the fire detection sensor, a current generated in a signal transmission line leading to a fire receiving panel is detected and transmitted to the terminal control unit. delete delete delete

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