KR102662160B1 - Apparatus and method for smoke detection by fire element detection and carbon monoxide cross-detection - Google Patents

Abstract

The present invention relates to a fire detection device and method, and more specifically, to a carbon monoxide (CO) sensor module that can be detached from a smoke detector installed in an existing building, so that smoke and carbon monoxide are removed when the CO sensor module is installed. It relates to a fire detection device and method by cross-detection of smoke and carbon monoxide that accurately detects fire through cross-detection and identifies and alerts non-fire reports.

Description

Fire detection device and method by smoke and carbon monoxide cross-detection {Apparatus and method for smoke detection by fire element detection and carbon monoxide cross-detection}

The present invention relates to a fire detection device and method. More specifically, the present invention relates to a fire detection device and method. More specifically, the carbon monoxide (CO) sensor module is configured to be detachable from a detector installed in an existing building, and when the CO sensor module is installed, smoke and carbon monoxide are transmitted. It relates to a fire detection device and method by cross-detection of smoke and carbon monoxide that accurately detects fire and identifies and warns of non-fire reports.

Typically, firefighting equipment is installed inside buildings in accordance with firefighting laws and regulations, and fire detectors are installed to prevent fires.

These fire detectors include a smoke detector that detects a fire by detecting smoke, a smoke detector that detects a fire by detecting a flame, a temperature detector that detects a fire by detecting temperature, and a smoke detector that detects a fire by detecting smoke and temperature. There are complex sensors that make judgments.

As such, the type of fire detector installed must be determined depending on the characteristics of the installation site. However, when the characteristics of the fire detector installation site change, the fire detector installed at the installation site must be changed to a type of fire detector that corresponds to the changed characteristics of the site, which is cumbersome and costs a lot of money from the manager's perspective.

In addition, since fire is conventionally detected only by a single fire element (smoke, flame, temperature) or temperature and smoke, there is a problem in detecting fire by reflecting the characteristics of the installation site with only one fire detector. To this end, there are two types. There is a problem in that installing the above fire detectors requires a large amount of cost.

In addition, existing fire detectors (devices) cause frequent non-fire alarms, causing panic to people living in the building, loss of reliability of fire alarms, and significant loss of firefighting power, such as unnecessary dispatch of firefighters. .

Therefore, by adding other elements that can distinguish fires in addition to elements that detect conventional fires, various characteristics of the scene can be comprehensively reflected through cross-detection that integrates two types of fire elements, and the accuracy of fire detection can be increased. There is a need for the development of a fire detection device that can be linked with existing fire detectors.

Therefore, the present invention describes the configuration and operation of a fire detection device that applies cross-detection technology of a smoke detector and a carbon monoxide sensor among fire detectors.

Republic of Korea Patent No. 10-2473381 (announced on December 2, 2022)

Therefore, the purpose of the present invention is to configure the carbon monoxide (CO) sensor module to be attachable and detachable to the detector, so that when the CO sensor module is installed, it detects fire by cross-sensing smoke and carbon monoxide, and detects and alarms non-fire reports. , to provide a fire detection device and method by cross-detection of smoke and carbon monoxide that can operate in conjunction with existing smoke detectors.

The fire detection device by cross-detection of smoke and carbon monoxide according to the present invention to achieve the above object is: connected to a repeater through a ground line and a signal line, and transmits a fire signal according to detection of the first fire element through the signal line. A fire element detector transmitting to; A second sensor module including a connection part where one side of the cable is detachable, and outputting a second fire element amount according to the detection of the second fire element through a cable connected through the connection part; and the ground line and the signal line pass through the interior, the fire element detector is connected to the ground line and the signal line, and the fire element detector is connected to the repeater and other external detectors connected to the signal line and the ground line through the signal line and the ground line, and is connected to the fire element detector. When no occurrence occurs, the signal received from the other detector is bypassed by a repeater, and when a fire is detected by the first fire element of the fire element detector, it is determined whether there is a fire by the second fire element of the second sensor module, It is determined whether a fire has occurred by cross-detection of the first fire element and the second fire element, and a fire signal generated by the fire element detector when a fire is detected by cross-detection of the first fire element and the second fire element. It is characterized in that it includes an adapter module that transmits to the repeater through the signal line.

The adapter module includes: a first switch configured between the signal lines such that a first contact point is connected to the repeater and a second contact point is connected to the other sensors, and blocks or supplies a signal supplied to the repeater through the signal line; a second switch where a first contact point is connected to a second contact point of the first switch, a second contact point is connected to a sensor, and a third contact point receives driving power to be supplied to the sensor; A power supply unit connected to the third contact point and supplying the driving power to the third contact point to supply the driving power to the fire element detector when the second switch is turned off (connection of the second contact point and the third contact point); And when a fire does not occur, turn on the first switch, turn off the second switch to bypass the signal from the other detector, and turn on the second sensor module when a fire is detected by the first fire element of the fire element detector. Determine whether a fire is caused by a second fire element, determine whether a fire has occurred by cross-detection of the first fire element and the second fire element, and determine whether a fire has occurred by cross-detection of the first fire element and the second fire element. It is characterized by including a control unit that controls the fire signal generated by the fire element detector when a fire is detected to be transmitted to a repeater through the signal line.

The first fire element is smoke, and the second fire element is carbon monoxide.

When determining whether a fire has occurred by the second fire element, if it is determined that it is not a fire, the control unit initializes the second switch by turning it off and on, and then crosses the measured values of the first fire element and the second fire element. It is characterized by comparing and re-judging whether a fire has occurred.

The control unit counts the number of non-fire determinations when the non-fire determination is made by the re-judgment, repeats the re-determination until the counted number of non-fire determinations exceeds a preset standard non-fire number, and performs the re-determination. When the number of non-fire determinations exceeds the standard non-fire number, the occurrence of a non-fire is determined, and the first switch is continuously turned off to control a line disconnection in the receiver connected to the repeater.

The fire detection method by cross-detection of smoke and carbon monoxide according to the present invention to achieve the above object is: a ground line and a signal line pass and a fire element detector is directly connected, and connected to a repeater through the signal line and the ground line, An initialization process in which other detectors connected to signal lines and ground lines and an adapter module connected to the fire element detector bypass signals received from the other detectors to a repeater when a fire does not occur; And when the adapter module detects a fire by the first fire element of the fire element detector, it determines whether there is a fire by the second fire element of the second sensor module, and detects the intersection of the first fire element and the second fire element. A fire cross-detection process that determines whether a fire has occurred and transmits a fire signal generated by the fire element detector to a repeater through the signal line when a fire is detected by cross-detection of the first fire element and the second fire element. It is characterized by including.

In the initialization process, the control unit of the adapter module is configured between the signal lines so that when a fire does not occur, the first contact point is connected to the repeater and the second contact point is connected to the other detectors, and the signal line is supplied to the repeater through the signal line. A signal line blocking step of turning on a first switch that blocks or supplies a signal; And the control unit turns off the second switch whose first contact point is connected to the second contact point of the first switch, the second contact point is connected to the sensor, and the third contact point receives the driving power to be supplied to the sensor. It is characterized by comprising an initialization step of bypassing the signal of the detector and supplying the driving power input from the power supply to the fire element detector.

The fire intersection detection process is where the control unit turns off the first switch and turns on the second switch when detecting a fire by the fire element detector, thereby causing a fire caused by the second fire element through the second sensor module for a preset time. A fire cross-detection step to determine whether an occurrence has occurred; And when the control unit determines that a fire has occurred by the second fire element, it includes a fire notification step of turning on the first switch and transmitting a fire signal output from the fire element detector to a repeater through the signal line. Do it as

The first fire element is smoke, and the second fire element is carbon monoxide.

The method is: When the control unit determines whether a fire has occurred by the second fire element and it is determined that it is not a fire, the control unit initializes the second switch by turning it off and on, and then measures the first fire element and the second fire element. It is characterized in that it further includes a fire re-judgment process in which the values are cross-compared to re-determine whether a fire has occurred.

The method is: the control unit counts the number of non-fire judgments when a non-fire judgment is made by the judgment, and repeats the fire judgment process until the counted number of non-fire judgments exceeds a preset standard non-fire count. A repeater that determines the occurrence of a non-fire when the counted number of non-fire determinations exceeds the reference number of non-fires, and controls the first switch to continuously turn off to cause a line disconnection in the receiver connected to the repeater. It is characterized by further including a notification process.

The present invention detects fire by alternating the first fire element such as smoke and the second fire element such as carbon monoxide, so it has the effect of improving fire detection accuracy by distinguishing between non-fire reports regardless of the characteristics of the installation location. .

In addition, the present invention can be operated by selectively mounting a second sensor module in response to the characteristics of the location where the fire detection device is installed, so it is possible to install a system that can distinguish between non-fire reports at optimal cost according to the characteristics of the installation location. In addition, when the characteristics of the installation location change, only a second sensor module needs to be added in response to the changed characteristics, so it is possible to build a fire detection system that is superior to previous technologies at minimal cost.

In addition, the present invention has excellent compatibility because it can be operated in conjunction with detectors of existing fire surveillance systems, and has the effect of allowing the performance of existing fire alarm systems to be upgraded more easily.

Figure 1 is a diagram showing the configuration of a fire detection device by cross-sensing smoke and carbon monoxide according to the present invention.
Figure 2 is a diagram schematically showing the mechanical configuration of a fire detection device by cross-sensing smoke and carbon monoxide according to the present invention.
Figure 3 is a diagram showing an adapter module and a carbon monoxide (CO) sensor module of a fire detection device by cross-sensing smoke and carbon monoxide according to an embodiment of the present invention.
Figure 4 is a flowchart showing a fire detection method by cross-detection of smoke and carbon monoxide according to the present invention.

Hereinafter, with reference to the attached drawings, the configuration and operation of the fire detection device by cross-sensing carbon monoxide, which is the first fire element and the second fire element according to the present invention, will be described in detail, and the fire detection method of the device will be explained.

Figure 1 is a diagram showing the configuration of a fire detection device by cross-detection of fire elements and carbon monoxide according to the present invention, and Figure 2 schematically shows the mechanical configuration of a fire detection device by cross-detection of fire elements and carbon monoxide according to the present invention. 3 is a diagram showing an adapter module and a carbon monoxide (CO) sensor module of a fire detection device by cross-detection of fire elements and carbon monoxide according to an embodiment of the present invention. Hereinafter, it will be described with reference to FIGS. 1 and 3.

The fire detection device 20 by cross-sensing fire elements and carbon monoxide of the present invention includes an adapter module 30, a fire element detector 40, and a second sensor module 50.

The fire element detector 40 is configured to be connected to a line (or “line”) 11 including a ground line and a signal line through the adapter module 30.

The fire element detector 40 is configured in the same way as the other detectors 1, and is controlled by the adapter module 30 to provide a signal (detector voltage, a detector voltage that satisfies the fire occurrence conditions) according to the measured amount of the fire element. The corresponding current (referred to as a “fire signal”) is transmitted to the repeater 10 through the signal line of the line 11.

The fire element is smoke, and the fire element detector 40 outputs a fire signal of the detector voltage value (unit: V) measured in response to the fire element to the adapter module 30 through the line. The current supplied to the repeater 10 through the line 11 is normally 1.2 mA to 3.5 mA, and the current in case of fire will exceed 3.5 mA.

The fire element detector 40 may also be preferably configured to be mechanically mounted and detached from the adapter module 30.

The second sensor module 50 includes a second sensor 52 and a second connection portion 51, and is preferably a carbon monoxide (CO) sensor module, but is not limited thereto.

When the second sensor module 50 is a carbon monoxide sensor module, the second sensor module 50 transmits the CO concentration value measured through the second sensor 52 to the second connection unit 51. ), output to the control unit 34 of the adapter module 30 through the connected cable and the first connection unit 35.

As shown in FIG. 2, the adapter module 30 is combined with the fire element detector 40 and the second sensor module 50, and the second sensor module 50 can be mechanically detached from the adapter module 30. It is configured to be fixed when mounted, and as shown in FIG. 1, through a cable connecting the first connection part 35 of the adapter module 30 and the second connection part 51 of the second sensor module 50. are electrically connected.

The adapter module 30 is configured to pass a line 11 including a ground wire and a signal line connecting a repeater 10 connected to a receiver (not shown) of a fire alarm system and other detectors 1. .

To describe the configuration and operation of the adapter module 30 in more detail, the adapter module 30 includes a first switch 31, a second switch 32, a power supply unit 33, a control unit 34, and a first switch 31. It includes a connecting portion (35).

The first switch 31 is configured between the signal lines of the line 11 introduced into the adapter module 30, and has a first contact point and a second contact point, and the first contact point is connected to the signal line connected to the repeater 10. It is connected, and the second contact point is configured to be connected to a signal line connected to other sensors (1).

The second switch 32 has a first contact point, a second contact point, and a third contact point, and the first contact point is connected to a signal line connected to the second contact point of the first switch 31, and the second contact point is It is connected to the signal line of the fire element detector 40, and the third contact point is connected to the driving power line of the power supply unit 33.

When the second switch 32 is turned on, the first contact point and the second contact point are connected, and when the second switch 32 is turned off, the third contact point and the second contact point are connected. When the fire element detector 40 is activated, the on/off state is determined by the control unit 34 depending on whether the second sensor module 50 is detected before turning on the contact point of the second switch 32.

The power unit 33 includes a battery, generates the driving power needed by the adapter module 30 and the driving power needed by the fire element detector 40 using the source power supplied from the battery, and supplies them to the corresponding components. . The driving power supplied from the power unit 33 to the fire element detector 40 is 24V, and will be supplied to the fire element detector 40 when the second switch 32 is turned off.

The control unit 34 controls the overall operation of the fire detection device by cross-sensing fire elements and carbon monoxide according to the present invention.

The control unit 34 turns on the first switch 31 and turns off the second switch 32 (connects the third contact point and the second contact point) when normal (fire is not detected through the fire element detector 40). connection) to bypass the signal from the other detector (1), and supply the driving power output from the power supply unit (33) to the fire element detector (40) to operate the fire element detector (40).

When a fire is detected by the fire element detector 40, the control unit 34 turns off the first switch 31 and turns on the second switch 32 (connecting the first contact point and the second contact point) for a preset time. During this time, it is determined whether a fire has occurred due to the second fire element through the second sensor module 50. When the second sensor module 50 is a carbon monoxide sensor module, the time is preferably 12 to 15 seconds.

If it is determined that a fire has occurred due to the second fire element, the control unit 34 turns on the first switch 31 to transmit the fire signal output from the fire element detector 40 to the repeater 10 through the signal line. Control to transmit to .

The control operation of the control unit 34 will be described in more detail with reference to FIG. 4 below.

Figure 4 is a flowchart showing a fire detection method by cross-detection of fire elements and carbon monoxide according to the present invention.

Referring to FIG. 4, when the fire branch device 20 is connected and driven to the line 11 of the fire alarm system, the control unit 34 turns on the first switch 31 and turns off the second switch to activate another detector. An initialization operation is performed to bypass the signal from (1) to the repeater (S111).

After initialization, the control unit 34 monitors the detector voltage output from the fire element detector 40 (S113) and begins to monitor whether a fire has occurred by checking whether the detector voltage exceeds a preset first standard value (S115). . The first reference value may be 350 ADC value. The 350 ADC value may be a current or voltage value.

When a fire is detected by the fire element detector 40 while monitoring whether a fire has occurred, the control unit 34 turns off the first switch 31 and turns on the second switch 32 to detect the fire of the fire element detector 40. A fire signal, which is the detector voltage according to detection, is raised to the signal line, but transmission to the repeater 10 is blocked (S117).

When the first switch 31 is turned off and the second switch 32 is turned on, the control unit 34 waits for a first time (S121) and then obtains the carbon monoxide concentration from the second sensor module 50 (S123). . The first time may be 12 seconds.

When the carbon monoxide concentration is obtained, the control unit 34 determines whether the obtained CO concentration exceeds the CO standard value (S125). The CO standard value may be 3 ppm, for example.

When the obtained CO concentration exceeds the CO standard value, the control unit 34 turns on the first switch 31 (S137) to transmit the fire signal output from the fire element detector 40 to the repeater 10 to prevent the fire. Notify of occurrence (S139).

On the other hand, if the CO concentration obtained through the second sensor module 50 is below the CO standard value, the control unit 34 turns off the second switch 32 and turns it on after a second time to reset the fire element detector 40. (S127).

After resetting the fire element detector 40, the control unit 34 measures the detector voltage again through the fire element detector 40 (S129) and checks whether the measured detector voltage exceeds the second standard value (S131). . The second reference value may be a value of 400 ADC.

If the detector voltage does not exceed the second standard value, the control unit 34 proceeds to step S113 and returns to the normal state, and if it exceeds it, obtains the CO concentration through the second sensor module 50 ((S133), Check whether the CO concentration exceeds the CO standard value (S135).

When the measured CO concentration exceeds the CO standard value, the control unit 34 turns on the first switch (S137) and outputs a fire signal, which is the detector voltage output from the fire element detector 40, to the repeater 10, causing a fire. Notifies (S139).

However, if the CO concentration does not exceed the CO standard value, the control unit 34 proceeds to S141, counts the number of non-fires, and then determines whether the counted number of non-fires exceeds the preset standard number (S143).

If the counted number of non-fires does not exceed the standard number, the control unit 34 repeats the operation after the reset process of the fire element detector 40 in S127, and the ratio counted by the repetition process after S127 is If the number of fires exceeds the standard number, it is judged as a non-fire and the first switch 31 is turned off to disconnect the wire (S145). If the disconnection continues, the manager will check the disconnection through a receiver (not shown) connected to the repeater 10 and take immediate action regarding abnormalities in the corresponding fire element detector 40.

Meanwhile, it is common knowledge in the technical field that the present invention is not limited to the above-described typical preferred embodiments, but can be implemented by various improvements, changes, substitutions, or additions without departing from the gist of the present invention. Anyone who has will be able to understand it easily. If the implementation by such improvement, change, substitution or addition falls within the scope of the appended patent claims below, the technical idea thereof should also be regarded as belonging to the present invention.

10: Repeater 11: Line (track)
20: Fire detection device 30: Adapter module
31: first switch 32: second switch
33: power unit 34: control unit
35: first connection part 40: fire element detector
50: 2nd sensor module 51: 2nd connection part
52: Second sensor

Claims (11)

A fire element detector connected to the repeater through a ground line and a signal line, and transmitting a fire signal according to detection of a first fire element to the repeater through the signal line;
A second sensor module including a connection part where one side of the cable is detachable, and outputting a second fire element amount according to the detection of the second fire element through a cable connected through the connection part; and
The ground line and signal line pass through the interior, the fire element detector is connected to the ground line and signal line, and the signal line and ground line are connected to the repeater and other external detectors connected to the signal line and ground line. When a fire occurs, the signal received from the other detector is bypassed by a repeater, and when a fire is detected by the first fire element of the fire element detector, it is determined whether there is a fire by the second fire element of the second sensor module, and the Determines whether a fire has occurred by cross-detection of the first fire element and the second fire element, and detects a fire signal by the fire element detector when a fire is detected by cross-detection of the first fire element and the second fire element. Includes an adapter module that transmits to a repeater through the signal line,
The adapter module is,
A first switch configured between the signal lines such that a first contact point is connected to the repeater and a second contact point is connected to the other sensors, and blocks or supplies a signal supplied to the repeater through the signal line;
a second switch where a first contact point is connected to a second contact point of the first switch, a second contact point is connected to a sensor, and a third contact point receives driving power to be supplied to the sensor;
A power supply unit connected to the third contact point and supplying the driving power to the third contact point to supply the driving power to the fire element detector when the second switch is turned off (connection of the second contact point and the third contact point); and
When a fire does not occur, the first switch is turned on, the second switch is turned off to bypass the signal from the other detector, and when a fire is detected by the first fire element of the fire element detector, the second sensor module is turned on. 2 Determine whether a fire is caused by a fire element, determine whether a fire occurs by cross-detection of the first fire element and the second fire element, and determine whether a fire occurs by cross-detection of the first fire element and the second fire element. A fire detection device by cross-detection of smoke and carbon monoxide, comprising a control unit that controls a fire signal generated by the fire element detector upon detection to be transmitted to a repeater through the signal line.
delete According to paragraph 1,
The first fire element is,
It's smoke,
The second fire element is,
A fire detection device by cross-detection of smoke and carbon monoxide, characterized in that it is carbon monoxide.
According to paragraph 3,
The control unit,
When determining whether or not a fire has occurred due to the second fire element, if it is determined that it is not a fire, the second switch is reset by turning off and on, and then the measured values of the first fire element and the second fire element are cross-compared to determine the extent of the fire. A fire detection device that re-determines the occurrence of a fire by cross-detecting smoke and carbon monoxide.
According to clause 4,
The control unit,
When a non-fire judgment is made by the judgment, the number of non-fire judgments is counted, the judgment is repeatedly performed until the counted number of non-fire judgments exceeds a preset standard non-fire count, and the counted number of non-fire judgments is performed. determines the occurrence of a non-fire when the standard non-fire count is exceeded, and continuously turns off the first switch to control a line disconnection in the receiver connected to the repeater by detecting the intersection of smoke and carbon monoxide. Fire detection device.
A ground line and a signal line pass through and a fire element detector is directly connected, connected to a repeater through the signal line and ground line, and other detectors connected to the signal line and ground line and an adapter module connected to the fire element detector are connected to the fire element detector when a fire does not occur. An initialization process that bypasses signals received from other detectors to a repeater; and
When the adapter module detects a fire by the first fire element of the fire element detector, it determines whether there is a fire by the second fire element of the second sensor module, and detects the intersection of the first fire element and the second fire element. A fire cross-detection process of determining whether a fire has occurred and transmitting a fire signal generated by the fire element detector to a repeater through the signal line when a fire is detected by cross-detection of the first fire element and the second fire element. Including,
The initialization process is,
The control unit of the adapter module is configured between the signal lines so that when a fire does not occur, the first contact point is connected to the repeater and the second contact point is connected to the other detectors, so as to block or supply the signal supplied to the repeater through the signal line. A signal line blocking step of turning on the first switch; and
The control unit turns off the second switch, the first contact point of which is connected to the second contact point of the first switch, the second contact point is connected to the sensor, and the third contact point receives the driving power to be supplied to the sensor, thereby turning off the other sensor. A fire detection method by cross-detection of smoke and carbon monoxide, comprising an initialization step of bypassing the signal and supplying driving power input from the power supply to the fire element detector.
delete According to clause 6,
The fire cross detection process is,
When a fire is detected by the fire element detector, the control unit turns off the first switch and turns on the second switch to determine whether or not a fire occurs by the second fire element through the second sensor module for a preset time. detection step; and
When the control unit determines that a fire has occurred due to the second fire element, it includes a fire notification step of turning on the first switch and transmitting a fire signal output from the fire element detector to a repeater through the signal line. Fire detection method by cross-detection of smoke and carbon monoxide.
According to clause 8,
The first fire element is,
It's smoke,
The second fire element is,
A method of detecting a fire by cross-detecting smoke and carbon monoxide, characterized in that it is carbon monoxide.
According to clause 9,
When the control unit determines whether a fire has occurred due to the second fire element, if it is determined that it is not a fire, the control unit initializes the second switch by turning it off and on, and then cross-compares the measured values of the first fire element and the second fire element. A fire detection method by cross-detection of smoke and carbon monoxide, further comprising a fire re-determination process to re-determine whether a fire has occurred.
According to clause 10,
The control unit counts the number of non-fire judgments when a non-fire judgment is made by the judgment, repeats the fire judgment process until the counted number of non-fire judgments exceeds a preset standard non-fire count, and performs the count. When the number of non-fire judgments exceeds the standard non-fire count, a repeater abnormality notification process is further performed to determine the occurrence of a non-fire and to continuously turn off the first switch to control a line disconnection in the receiver connected to the repeater. A fire detection method by cross-detection of smoke and carbon monoxide, comprising: