KR102328394B1 - Control system of inverter exhaust fan for firefighting - Google Patents

Abstract

Provided is a control system for a firefighting inverter exhaust fan. The control system comprises: a firefighting inverter exhaust fan (110) which is installed in a parking lot and discharges air inside the parking lot to the outside while rotating an impeller (111) in accordance with applied driving power; a control panel (120) including a housing part (121) having an internal space, a power supply part (122) disposed inside the housing part (121), and receiving commercial power and converting the same into a form of driving power for driving the firefighting inverter exhaust fan (110), and a control part (123) controlling a rotation speed of the firefighting inverter exhaust fan (110) in an inverter control manner while applying the converted driving power to the firefighting inverter exhaust fan (110); and a CO sensor (130) which is integrally provided in the housing part (121) of the control panel (120) to measure the amount of carbon monoxide inside the parking lot. The control panel (120) controls the rotation speed of the firefighting inverter exhaust fan (110) in accordance with the measured amount of carbon monoxide received from the CO sensor (130).

Description

Inverter exhaust fan control system for firefighting

The present invention relates to a fire-fighting inverter exhaust fan control system, and more particularly, to a fire-fighting inverter exhaust fan control system that is installed in a parking lot and controls the rotation speed of the fire-fighting inverter exhaust fan to be adjusted according to the measured amount of carbon monoxide.

In general, exhaust gas of a vehicle contains a large amount of gases harmful to the human body, such as carbon monoxide, carbon dioxide, hydrocarbons and nitrogen oxides. In particular, carbon monoxide is a colorless, odorless, non-irritating gas that cannot be consciously recognized and causes hypoxia when inhaled with the respiratory system. is installed

In addition, a CO sensor for detecting carbon monoxide contained in the exhaust gas is disposed in the parking lot, and when a carbon monoxide concentration higher than the standard value is detected, it is displayed to the outside so that the manager can recognize it. However, the conventional CO sensor is installed in the form of a separate device that is separate from the control panel that drives and controls the inverter exhaust fan for firefighting. Because it had to be additionally installed, there was a problem in that product cost and installation cost were excessively required.

Registered Patent Publication No. 10-1585567 (Jan. 8, 2016), a ventilation fan for an indoor parking lot and a ventilation system using the same.

The present invention was created to solve the above problems, and an object of the present invention is to significantly reduce product cost and installation cost by integrating a CO sensor that measures carbon monoxide in a control panel that drives and controls an inverter exhaust fan for firefighting. Inverter exhaust fan control system for firefighting, which displays the correlation between the amount of carbon monoxide and the rotation speed of the inverter exhaust fan for firefighting in the form of a primary function graph so that the administrator can intuitively check the amount of carbon monoxide and the operation status of the inverter exhaust fan for firefighting is to provide

According to a feature of the present invention, it is installed in the parking lot and rotates the impeller 111 according to the applied driving power, and the inverter exhaust fan 110 for fire fighting to discharge the air inside the parking lot to the outside; The housing unit 121 having an internal space, and a power supply unit 122 disposed inside the housing unit 121 and converting into a form of driving power for driving the inverter exhaust fan 110 for fire fighting by receiving commercial power ) and a control panel 120 including a control unit 123 for controlling the rotation speed of the inverter exhaust fan 110 for firefighting in an inverter control manner while applying the converted driving power to the inverter exhaust fan 110 for firefighting; and a CO sensor 130 integrally provided in the enclosure 121 of the control panel 120 to measure the amount of carbon monoxide inside the parking lot; the control panel 120 is received from the CO sensor 130 There is provided a fire fighting inverter exhaust fan control system, characterized in that the rotation speed of the fire fighting inverter exhaust fan 110 is adjusted according to the measured amount of carbon monoxide.

According to another feature of the present invention, the control panel 120 further includes a display unit 125 for displaying the operating state and setting state of the fire-fighting inverter exhaust fan control system according to the control signal of the control unit 123 on the screen, , The control unit 123 further includes a rotation speed measurement unit 126 for measuring the rotation speed of the inverter exhaust fan 110 for fire fighting, and the current amount of carbon monoxide received from the CO sensor 130 and the rotation speed measurement The driving control is performed so that the current rotation speed value received from the unit 126 is displayed on the display unit 125, but the inclination angle and length of the inclination line L change according to the change in the amount of carbon monoxide and the rotation speed value. There is provided an inverter exhaust fan control system for fire fighting, characterized in that the control to be displayed on the display unit 125 in the form of a function graph.

According to another feature of the present invention, the control panel 120 further includes a manipulation unit 124 for changing the operating state and setting state of the fire-fighting inverter exhaust fan control system according to user manipulation, and the control unit 123 ) by changing the inclination angle and length of the inclination line (L) based on the current amount of carbon monoxide according to the operation signal of the operation unit 124 to increase or decrease the rotation speed of the inverter exhaust fan 110 for firefighting. There is provided an inverter exhaust fan control system for fire fighting, characterized in that.

According to another feature of the present invention, the control panel 120 is configured to measure any one or more electrical characteristic values of a current value, a voltage value, a harmonic value, or an wattage value that change when the inverter exhaust fan 110 for firefighting is driven. Electrical characteristic measuring unit 128 and, based on the measured value of the electrical characteristic measuring unit 128, further comprising a failure determination unit 129 for determining the inspection required state and the failure state of the inverter exhaust fan 110 for firefighting, and , the control unit 123 turns on the display lamp 160 mounted on the outer surface of the inverter exhaust fan 110 for firefighting according to the determination result of the failure determination unit 129 to distinguish between an inspection required state and a failure state to be lit. There is provided an inverter exhaust fan control system for fire fighting, characterized in that the control.

According to another feature of the present invention, the control unit 123 controls the display unit 125 according to the determination result of the failure determination unit 129 so that the check-required state and the failure state are divided and displayed. An exhaust fan control system is provided.

According to another feature of the present invention, the control panel 120, the communication unit 127 for outputting the carbon monoxide amount, the rotational speed value, the inspection required state and the failure state determination data according to the control signal of the control unit 123 Further comprising, the main server 140 for collecting data received from each control panel 120; And, the manager terminal 150 that connects to the main server 140 and receives the collected data and displays the carbon monoxide amount, the rotational speed value, the inspection required state, and the failure state determination data for each control panel 120 on the screen window. ); There is provided an inverter exhaust fan control system for fire fighting, characterized in that it further comprises.

As described above, according to the present invention,

First, the inverter exhaust fan 110 for firefighting is installed in the parking lot and rotates the impeller 111 according to the applied driving power to discharge the air inside the parking lot to the outside, and the control panel 120 is a housing unit 121 with an internal space. ) and a power supply unit 122 disposed inside the housing unit 121 and receiving commercial power and converting it into a form of driving power for driving the fire-fighting inverter exhaust fan 110, and the converted driving power. and a control unit 123 for controlling the rotation speed of the inverter exhaust fan 110 for firefighting by an inverter control method while being applied to the inverter exhaust fan 110 for firefighting, and the CO sensor 130 is integrally provided with the housing unit 121 to measure the amount of carbon monoxide inside the parking lot, and the control panel 120 controls the rotation speed of the inverter exhaust fan 110 for firefighting according to the measured amount of carbon monoxide received from the CO sensor 130. Inverter exhaust for firefighting Compared with the conventional case in which the CO sensor 130 is integrally mounted on the control panel 120 for driving and controlling the fan 110, the CO sensor is installed as a separate device, the product cost and installation cost are greatly reduced can do.

Second, the control panel 120 further includes a display unit 125 for displaying the operation state and setting state of the inverter exhaust fan control system for firefighting on the screen according to the control signal of the control unit 123, and the control panel 120 ) further includes a rotation speed measurement unit 126 for measuring the rotation speed of the inverter exhaust fan 110 for fire fighting, and the control unit 123 measures the current amount of carbon monoxide and the rotation speed received from the CO sensor 130 . The driving control is performed so that the current rotation speed value received from the unit 126 is displayed on the display unit 125, but the inclination angle and length of the inclination line L change according to the change in the amount of carbon monoxide and the rotation speed value. By controlling to be displayed on the display unit 125 in the form of a function graph, the manager can intuitively check the amount of carbon monoxide and the operating state of the inverter exhaust fan for fire fighting by looking at the graph.

Third, the control panel 120 further includes a manipulation unit 124 for changing the operating state and setting state of the inverter exhaust fan control system for firefighting according to user manipulation, and the control unit 123 includes the manipulation unit 124 . By changing the inclination angle and length of the inclination line (L) based on the current amount of carbon monoxide according to the operation signal of ), the manager can easily understand the operation state and easily manipulate the rotation speed of the inverter exhaust fan 110 for fire fighting.

Fourth, the control panel 120 is an electrical characteristic measuring unit 128 that measures any one or more electrical characteristic values of a current value, a voltage value, a harmonic value, or an wattage value that change when the inverter exhaust fan 110 for firefighting is driven. and a failure determination unit 129 for determining a check-required state and a failure state of the inverter exhaust fan 110 for firefighting based on the measured value of the electrical characteristic measurement unit 128, wherein the control unit 123 includes In accordance with the determination result of the failure determination unit 129, the display lamp 160 mounted on the outer surface of the inverter exhaust fan for firefighting is controlled to turn on by distinguishing between the inspection required state and the failure state. The manager located at the site where the 110 is installed can immediately check the condition requiring inspection and the state of failure with the naked eye, so that appropriate measures can be taken in a timely manner. In addition, the control unit 123 controls the display unit 125 so that the inspection required state and the failure state are displayed separately according to the determination result of the failure determination unit 129 , so that the display lamp 160 is not checked. Through the display unit of the panel 120, it is possible to check the inspection required state and the failure state in a timely manner.

Fifth, the control panel 120 further includes a communication unit 127 for outputting the carbon monoxide amount, the rotational speed value, the inspection required state and the failure state determination data according to the control signal of the control unit 123, and the main server ( 140) collects data received from each control panel 120, the manager terminal 150 connects to the main server 140 to receive the collected data, and the amount of carbon monoxide and rotation speed for each control panel 120 By displaying the value, the inspection required state, and the failure state determination data on the screen window, the administrator can timely check the inspection necessary state and the failure state from a remote location even if the administrator is not located at the site where the fire inverter exhaust fan 110 is installed.

1 and 2 are schematic and side views showing the configuration of an inverter exhaust fan control system for fire fighting according to a preferred embodiment of the present invention;
3 is a block diagram showing the functional configuration of an inverter exhaust fan control system for fire fighting according to a preferred embodiment of the present invention;
4 is a block diagram showing the functional configuration of a control panel according to a preferred embodiment of the present invention;
5 is a schematic view showing a state in which the operating state of the inverter exhaust fan for fire fighting is displayed on the display unit according to a preferred embodiment of the present invention;
6 is a schematic diagram for explaining the operating principle of displaying the correlation between the amount of carbon monoxide and the operating speed in the form of a linear function graph through the display unit according to a preferred embodiment of the present invention;
7 and 8 are schematic diagrams showing the form of slope lines of various linear function graphs for each driving speed for each amount of carbon monoxide through a display unit according to a preferred embodiment of the present invention;
9 to 11 are schematic diagrams for explaining the operating principle of controlling the rotation speed of the inverter exhaust fan for fire fighting by adjusting the inclination line of the primary function graph displayed on the display unit according to a preferred embodiment of the present invention.

The objects, features and advantages of the present invention described above will become more apparent through the following detailed description. Hereinafter, preferred embodiments of the present invention will be described based on the accompanying drawings.

Inverter exhaust fan control system for firefighting according to a preferred embodiment of the present invention is a system that can greatly reduce product cost and installation cost, and allows an administrator to intuitively check the amount of carbon monoxide and the operating state of the inverter exhaust fan for firefighting, 1 to 3, it includes an inverter exhaust fan 110, a control panel 120, and a CO sensor 130 for fire fighting.

First, the inverter exhaust fan 110 for fire fighting is installed in the parking lot and rotates the impeller 111 according to the driving power supplied from the control panel 120 to discharge the air inside the parking lot to the outside. Here, although two fire-fighting inverter exhaust fans 110 are exemplified in the drawing, one fire-fighting inverter exhaust fan 110 may be provided or three or more fire-fighting inverter exhaust fans 110 may be provided.

The control panel 120 is a device for driving and controlling the inverter exhaust fan 110 for firefighting. As shown in FIGS. 1 and 4 , the control panel 120 includes an enclosure 121 provided with an internal space, and the interior of the enclosure 121 . A power supply unit 122 disposed in the and receiving commercial power and converting it into a form of driving power for driving the inverter exhaust fan 110 for firefighting, and a power supply unit 122 disposed inside the housing unit 121 and converting the converted driving power for firefighting A control unit 123 for controlling the rotational speed of the inverter exhaust fan 110 for firefighting, that is, the rotational speed of the driving motor 112 condensed to the impeller 111 by an inverter control method while being applied to the inverter exhaust fan 110. .

Here, in the drawing, a configuration of driving and controlling two fire-fighting inverter exhaust fans 110 with one control panel 120 is exemplified, but the present invention is not limited thereto and one or three or more fire-fighting inverters with one control panel 120 The exhaust fan 110 may be driven and controlled, and two or more control panel 120 may be installed together.

In addition, referring to FIG. 1 , the power supply unit 122 is circuit-connected to a power supply line L1 to which commercial power is supplied to receive commercial power, and a power output line L2 connected to the fire-fighting inverter exhaust fan 110 . ) to output the converted driving power and apply it to the inverter exhaust fan 110 for fire fighting.

In addition, the inverter control method is a method of controlling acceleration/deceleration by changing the inverter output voltage and frequency supplied to the drive motor 112 provided in the inverter exhaust fan 110 for firefighting, thereby increasing the rotation speed of the impeller 111. can be precisely controlled.

In addition, the control panel 120 adjusts the rotation speed of the inverter exhaust fan 110 for fire fighting according to the measured amount of carbon monoxide received from the CO sensor 130 . For example, when the measured amount of carbon monoxide exceeds the threshold, rotational driving of the fire-fighting inverter exhaust fan 110 is started, and when the measured amount of carbon monoxide increases, the rotation speed of the fire-fighting inverter exhaust fan 110 increases. It is possible to control the rotation speed in such a way that the rotation speed of the inverter exhaust fan 110 for fire fighting is slowed down.

The CO sensor 130 is a sensor that detects carbon monoxide emitted from a vehicle running in the parking lot, and is integrally mounted on the enclosure 121 as shown in FIGS. 1 and 2 to measure the amount of carbon monoxide inside the parking lot, , the measured amount of carbon monoxide data is transmitted to the control unit 123 of the control panel 120 through a signal line connected to the control panel 120 .

In this way, compared to the conventional case in which the CO sensor 130 is integrally mounted on the control panel 120 for controlling the drive and control of the inverter exhaust fan 110 for firefighting and the CO sensor is installed in the form of a separate device, the product cost and installation cost can be significantly reduced.

On the other hand, as shown in FIGS. 1 and 3 , the control panel 120 has a display unit 125 for displaying the operating state and setting state of the fire-fighting inverter exhaust fan control system according to the control signal of the control unit 123 on the screen. may further include. In addition, as shown in FIG. 4 , the control panel 120 further includes a rotation speed measuring unit 126 for measuring the rotation speed of the inverter exhaust fan 110 for fire fighting. When the rotational speed measuring unit 126 measures the rotational speed, it is provided as a rotational speed sensing means such as an encoder mounted on the driving motor 112 of the fire-fighting inverter exhaust fan 110 to measure the rotational speed of the impeller 111 . The control unit 123 may receive data about the rotation speed set value for rotating the inverter exhaust fan 110 for fire fighting to indirectly measure the rotation speed of the impeller 111 . In addition, it may be formed in the form of various sensing means for detecting the rotational speed of the impeller 111 .

In addition, as shown in FIG. 5 , the control unit 123 displays the current amount of carbon monoxide received from the CO sensor 130 and the current rotation speed value received from the rotation speed measurement unit 126 on the display unit 125 . It can be controlled to be displayed. And, as shown in the figure, when there are a plurality of inverter exhaust fans 110 for firefighting controlled by the control panel 120, a selection button B is provided on the display unit 125 to select each of the inverter exhaust fans 110 for firefighting. Thus, only the status data of the inverter exhaust fan 110 for firefighting selected according to the user's operation can be selectively displayed, and when necessary, the status data of the inverter exhaust fan 110 for firefighting can also be displayed together.

And, the control unit 123 but driving control so that the current amount of carbon monoxide and the rotation speed value is displayed on the display unit 125, as shown in Figs. It can be controlled to be displayed on the display unit 125 in the form of a linear function graph in which the inclination angle and length of the line L are changed.

In addition, as shown in the figure, the control unit 123 sets the rotation speed of the inverter exhaust fan 110 for fire fighting in a plurality of stages such as low-speed operation (L, Low), medium-speed operation (M, Middle), and high-speed operation (H, High). It is possible to control the driving separately, and it is possible to display a plurality of inclination lines (L) having different inclination angles on the primary function graph for each operation step.

Here, the setting of each driving stage may be specified by a user's manual operation, or it may be programmed and specified so that the setting of the driving stage is automatically changed according to the measured amount of carbon monoxide.

For example, if it is a high-speed operation stage and the measured amount of carbon monoxide is 0.01 ppm, as shown in FIG. In the case of the medium-speed operation stage and the measured amount of carbon monoxide is 0.01 ppm, as shown in FIG. When the low-speed operation stage and the measured amount of carbon monoxide is 0.01 ppm, the inclination line L having the inclination angle of the low-speed operation stage and the length up to the display scale of 0.01 ppm can be displayed as shown in (c) of FIG. 7 . In the same way, as shown in FIGS. 7 (d) to 8 (h), the inclination line L having the inclination angle and the length divided by the amount of carbon monoxide for each operation stage may be displayed.

In this way, the manager can intuitively check the amount of carbon monoxide and the operating state of the fire-fighting inverter exhaust fan by looking at the primary function graph, so that the operating state of the fire-fighting inverter exhaust fan 110 can be easily understood.

In addition, as shown in FIGS. 1 and 4 , the control panel 120 further includes a manipulation unit 124 that allows changing the operating state and setting state of the fire-fighting inverter exhaust fan control system according to user manipulation, and FIG. 9 to 11, the control unit 123 changes the inclination angle and length of the inclination line (L) based on the current amount of carbon monoxide according to the operation signal of the operation unit 124 to change the inclination angle and length of the inverter exhaust fan for fire fighting ( 110) can be driven to increase or decrease the rotational speed.

For example, when the slope line L is displayed in the medium-speed operation stage as shown in FIG. 9 and the measured amount of carbon monoxide is 0.03 ppm, when the operation unit 124 for changing the setting to the high-speed operation stage is selected, the high-speed operation as shown in FIG. As the display is changed to the slope line (L) of the state where the measured amount of carbon monoxide is 0.03 ppm, the inverter exhaust fan 110 for fire fighting is controlled in high-speed operation, and the operation unit 124 for changing the setting to the low-speed operation step in the state as shown in FIG. 9 ) is selected, the display is changed to the slope line (L) of the low-speed operation step and the measured amount of carbon monoxide is 0.03ppm as shown in FIG. In this way, the manager can easily understand the operating state of the inverter exhaust fan 110 for firefighting and can easily manipulate the rotation speed of the inverter exhaust fan 110 for firefighting.

In addition, as shown in FIG. 4, the control panel 120 measures any one or more electrical characteristic values of a current value, a voltage value, a harmonic value, or a wattage value that change when the fire-fighting inverter exhaust fan 110 is driven. Electrical characteristic measurement unit 128 and, based on the measured value of the electrical characteristic measurement unit 128, the fire-fighting inverter exhaust fan 110 to further include a failure determination unit 129 to determine the inspection required state and the failure state can

Here, the control unit 123 controls the display lamp 160 mounted on the outer surface of the fire-fighting inverter exhaust fan 110 according to the determination result of the failure determination unit 129 to distinguish between the inspection required state and the failure state to light and display. It is possible to control the lighting through the signal line (L3). Therefore, the manager located at the site where the inverter exhaust fan 110 for firefighting is installed can immediately check the inspection required state and the failure state with the naked eye, so that appropriate measures can be taken in a timely manner. In addition, the control unit 123 controls the display unit 125 so that the inspection required state and the failure state are displayed separately according to the determination result of the failure determination unit 129 , so that the display lamp 160 is not checked. Through the display unit 125 of the panel 120, it is possible to check the inspection required state and the failure state in a timely manner.

In addition, as shown in FIG. 4, the control panel 120 further includes a communication unit 127 for outputting the carbon monoxide amount, the rotational speed value, the inspection required state and the failure state determination data according to the control signal of the control unit 123. And, as shown in FIG. 3, the inverter exhaust fan control system for fire fighting according to a preferred embodiment of the present invention is connected to the main server 140 and the main server 140 that collects data received from each control panel 120. By further including a manager terminal 150 that receives the collected data and displays the carbon monoxide amount, rotational speed value, inspection required state, and failure state determination data for each control panel 120 on the screen window, the administrator can use the fire-fighting inverter Even if the exhaust fan 110 is not located at the site where it is installed, it is possible to timely check the inspection required state and the failure state from a remote location.

The present invention described above is not limited by the above-described embodiments and the accompanying drawings, and it is common in the art to which the present invention pertains that various substitutions, modifications and changes are possible within the scope without departing from the technical spirit of the present invention. It will be clear to those who have knowledge.

110...Inverter exhaust fan for firefighting 120...Control panel
121...Enclosure unit 122...Power supply unit
123...control unit 124...control unit
125...Display section 126..Rotation speed measurement section
130...CO sensor 140...Main server
150...Admin Terminal

Claims (5)

A plurality of inverter exhaust fans installed in the parking lot for discharging the air inside the parking lot to the outside while rotating the impeller 111 according to the applied driving power (110); A housing unit 121 having an internal space, and a power supply unit 122 disposed inside the housing unit 121 and converted into a form of driving power for driving the inverter exhaust fan 110 for fire fighting by receiving commercial power. And, a control unit 123 that adjusts the rotation speed of the inverter exhaust fan 110 for fire fighting while applying the converted driving power to the inverter exhaust fan 110 for firefighting, and an operation state and setting according to the control signal of the control unit 123 A display unit 125 for displaying a state on the screen, a rotation speed measurement unit 126 for measuring the rotation speed of the inverter exhaust fan 110 for firefighting, and a user operation to change the operating state and setting state a control panel 120 including a manipulation unit 124; and a CO sensor 130 integrally provided in the housing unit 121 to measure the amount of carbon monoxide inside the parking lot and transmit the measured carbon monoxide data to the control panel 120;
The control unit 123,
Adjusting the rotation speed of the inverter exhaust fan 110 for firefighting according to the measured amount of carbon monoxide received from the CO sensor 130,
The current amount of carbon monoxide received from the CO sensor 130 and the current rotation speed value received from the rotation speed measurement unit 126 are driven and controlled to be displayed on the display unit 125, but the amount of carbon monoxide and the rotation speed value change Controls to be displayed on the display unit 125 in the form of a linear function graph in which the inclination angle and length of the inclination line L are changed according to the
The rotation speed of the inverter exhaust fan 110 for firefighting is divided into a plurality of stages including low-speed operation (Low), medium-speed operation (Middle) and high-speed operation (High), and the driving is controlled, and the primary function graph for each operation stage Displays a plurality of inclination lines (L) having different inclination angles on the
By changing the inclination angle and length of the inclination line (L) based on the current amount of carbon monoxide according to the operation signal of the operation unit 124, driving control to increase or decrease the rotational speed of the inverter exhaust fan 110 for fire fighting,
The display unit 125 is provided with a selection button (B) for selecting each fire-fighting inverter exhaust fan 110 to selectively display only the status data of the selected fire-fighting inverter exhaust fan 110 according to the user's operation, or for all fire fighting Inverter exhaust fan control system for firefighting, characterized in that it displays the current status data for the inverter exhaust fan (110) together.
delete delete The method according to claim 1,
The control panel 120 includes an electrical characteristic measurement unit 128 that measures any one or more electrical characteristic values of a current value, a voltage value, a harmonic value, or an wattage value that change when the inverter exhaust fan 110 for firefighting is driven; Further comprising a failure determination unit 129 for determining the inspection required state and the failure state of the inverter exhaust fan 110 for fire fighting based on the measured value of the electrical characteristic measuring unit 128,
The control unit 123 controls the lighting so that the display lamp 160 mounted on the outer surface of the inverter exhaust fan 110 for firefighting is displayed separately from the inspection-required state and the failure state according to the determination result of the failure determination unit 129. Inverter exhaust fan control system for firefighting, characterized in that.
5. The method according to claim 4,
The control panel 120 further includes a communication unit 127 for outputting the carbon monoxide amount, the rotational speed value, the inspection required state and the failure state determination data according to the control signal of the control unit 123,
a main server 140 for collecting data received from each control panel 120; and,
a manager terminal 150 that accesses the main server 140 to receive the collected data and displays the carbon monoxide amount, rotation speed value, inspection required state and failure state determination data for each control panel 120 on a screen window; Inverter exhaust fan control system for firefighting, characterized in that it further comprises.

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