KR100686515B1 - Ventilation system and method of controlling the same - Google Patents

Abstract

The present invention relates to a ventilation system and a control method thereof, and more particularly, to a ventilation system for sucking contaminated room air by rotation of a ventilation fan and discharging the ventilation fan to the outside, comprising: a user selection unit for selecting an automatic operation mode; A sensor unit for receiving a rated power and sensing a gas concentration of the indoor air and outputting a sensing signal having a voltage value according to the gas concentration; A fan driving unit for varying the rotational speed of the ventilation fan; A display unit for displaying an abnormality of the sensor unit; The control unit checks the voltage value of the sensing signal inputted from the sensor unit and warns an abnormality of the sensor unit through the display unit when the voltage value is determined to be out of the normal range, And a control unit for periodically calculating an average voltage value of the signal and comparing the difference between the average voltage value and the voltage value of the sensing signal with a contamination degree judgment reference value, And a control unit for applying a signal. Accordingly, the convenience of use of the ventilation system can be increased, and the state of the sensor, which is a core component of the ventilation system, can be constantly checked and managed in an optimal state.

Description

TECHNICAL FIELD [0001] The present invention relates to a ventilation system and a control method thereof.             

1 is a schematic view of a ventilation system according to the invention,

2 is a control block diagram of a ventilation system according to the present invention;

Fig. 3 is a circuit diagram of the ventilation system of Fig. 2,

4 is a flowchart of a self-diagnosis process of the ventilation system according to the present invention,

5 is a control flow chart of the ventilation system according to the present invention.

DESCRIPTION OF THE REFERENCE SYMBOLS

 1: Kitchen 10: Ventilation system

12: Suction part 14: Ventilation fan

16: exhaust duct 18: operation panel

20: control unit 22:

24: power supply unit 26: fan drive unit

28: timer 30: user selector

32: driving time selector 34: driving condition selector

36:

The present invention relates to a ventilation system and a control method thereof. More particularly, the present invention relates to a ventilation system and a method of controlling the ventilation system, and more particularly, To a ventilation system and a method of controlling the ventilation system.

Generally, a kitchen hood is an apparatus for discharging various odors and polluted air generated in the course of cooking food in a kitchen to the outside, and it is installed on a gas range, an electric heater, etc. mainly used as a heater in a kitchen.

In a kitchen of a domestic kitchen or a commercial kitchen, contaminants such as smoke, odor, and oil vapor are generated as well as heat as food is cooked. The contaminants float by heat and spread throughout the kitchen or the entire room.

Therefore, generally, an exhaust hood having a fan is installed on the upper side of the above-mentioned countertop, and an exhaust duct is connected to the outside of the countertop so that the pollutant generated by the cooking is discharged by operating the fan. Especially, recently constructed buildings are airtightly constructed so that there is no gap in the windows for insulation and noise prevention, so that the problem of ventilation in the room becomes more significant.

Therefore, the recent ventilation system has a function of checking the indoor air condition through a plurality of sensors, providing a variety of additional functions in addition to the simple exhaust function, and the parts used for supporting the advanced functions are also complicated It is becoming. The basic function of this ventilation system is to maintain indoor air cleanliness and it should be checked at all times and managed in optimum condition.

However, in the case of the conventional ventilation system, it is possible to check whether the ventilation system is malfunctioning unless the user directly selects the driving mode, and it is possible to check whether or not the ventilation system can be operated normally There is a problem.

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made in an effort to solve the above problems, and it is an object of the present invention to provide a method and apparatus for controlling a ventilation fan at an optimum speed, The present invention provides a ventilation system and a control method thereof that can increase convenience in use and management.

According to an aspect of the present invention, there is provided a ventilation system for sucking polluted room air through rotation of a ventilation fan and discharging the ventilated room air to the outside, comprising: a user selection unit for selecting an automatic operation mode; A sensor unit for receiving a rated power and sensing a gas concentration of the indoor air and outputting a sensing signal having a voltage value according to the gas concentration; A fan driving unit for varying the rotational speed of the ventilation fan; A display unit for displaying an abnormality of the sensor unit; The control unit checks the voltage value of the sensing signal inputted from the sensor unit and warns an abnormality of the sensor unit through the display unit when the voltage value is determined to be out of the normal range, And a control unit for periodically calculating an average voltage value of the signal and comparing the difference between the average voltage value and the voltage value of the sensing signal with a contamination degree judgment reference value, And a control unit for applying a signal.

Here, the controller may determine that the sensor unit is in an abnormal state when the voltage value of the sensing signal input from the sensor unit is greater than the rated voltage input to the sensor unit.

The control unit may determine that the sensor unit is in an abnormal state when the voltage value of the sensing signal input from the sensor unit is less than a predetermined minimum voltage.

The user selection unit may further include a driving condition selection unit for setting the pollution degree judgment reference value by the user.

The control unit sets the reference value of pollution degree of the room air and the rotation speed of the ventilation fan according to the pollution degree determination reference value set through the driving condition selection unit, It is most preferable that the rotational speed of the ventilation fan is variably controlled according to the pollution degree judgment reference value corresponding to the difference of the voltage value of the sensing signal.

The display unit may further include a rotation speed display unit for displaying a rotation speed of the ventilation fan.

It is also possible to further include a timer for limiting the driving time of the fan driving unit.

According to another aspect of the present invention, there is provided a control method of a ventilation system for sucking polluted indoor air by rotation of a ventilating fan and discharging the ventilated indoor air to the outside, Receiving a sensing signal having a voltage value corresponding to the concentration of the indoor air gas; Determining whether a voltage value of the sensing signal is within a normal range between a predetermined lowest voltage value and a rated voltage value input to the sensor unit; And warning the abnormal state of the sensor unit when the voltage value of the sensing signal is out of the normal range.

Reporting a normal operation of the system when the voltage value of the sensing signal is within the normal range; Periodically calculating an average voltage value of a sensing signal input from the sensor unit when the automatic operation mode is switched according to a user's selection; Comparing the difference between the average voltage value and the voltage value of the sensing signal with a contamination degree determination reference value to determine a contamination degree; And controlling the rotation speed of the ventilation fan according to the determined degree of contamination.

And setting the reference value of pollution degree of the indoor air and the rotational speed of the ventilation fan according to the reference value, which are different from each other; Checking the pollution degree judgment reference value corresponding to the difference between the average voltage value of the sensed signal periodically calculated and the voltage value of the sensed signal; And controlling the rotation speed of the ventilation fan based on the rotation speed of the ventilation fan corresponding to the pollution degree determination reference value.

It is also possible to further include a step of limiting the rotation time of the ventilation fan according to a preset maximum driving time.

Hereinafter, a ventilation system and a control method thereof according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a schematic view of a ventilation system according to the invention; 1, the ventilation system 10 includes a suction portion 12 having an internal hollow shape so that various odors and water vapor generated in the cooking chamber 1 for cooking food are directed upward, A ventilation fan 14 for sucking / exhausting the odor and steam introduced into the indoor unit 12, and a ventilation fan 14 connected to the suction unit 12 at one end and to the outdoor side at the other end to discharge the inhaled odor and steam to the outside And an exhaust duct (16). An operation panel 18 for selecting the operation of the ventilation fan 14 and confirming the driving state is provided in the kitchen provided with the ventilation system 10, (22) is provided to provide data for driving the ventilation fan (14).

According to this configuration, after the ventilation system 10 is connected to the power supply unit 24, the switch is turned on via the operation panel 18 so that contaminated air such as odor or water vapor generated in the cooking chamber 1 is discharged outdoors (ON), the ventilation fan (14) rotates and a suction force is generated inside the suction portion (12). Accordingly, the odor and steam generated in the process of cooking the food are sucked into the suction unit 12 and discharged to the outside through the exhaust duct 16. [ When the ventilation system 10 is operated in the automatic operation mode, the pollution degree of the air is sensed through the sensor unit 22, and the ventilation fan 14 is appropriately driven according to the degree of pollution to keep the room air clean.

Here, the present ventilation system 10 self-diagnoses the operation of the sensor unit 22 when the power is applied and the system is turned on, and reports the result to the user so that the user can recognize the system status.

2 is a control block diagram of a ventilation system according to the present invention. 2, the present ventilation system includes a power supply unit 24 for supplying power, a fan driving unit 26 for driving the ventilation fan 14, and a fan driving unit 26 for limiting the operation time of the fan driving unit 26 A sensor 28 provided on the ceiling of the cooking chamber 1 for sensing the degree of contamination of the air and a sensor unit 22 provided on the operation panel 18 for displaying the operation status of the ventilation fan 14 and the self- A user selecting section 30 provided on the operation panel 18 together with the display section 36 so that the user can set the driving of the ventilation system, The ventilation fan 14 is operated by controlling the fan driving unit 26 based on the air pollution degree sensed through the sensor unit 22 according to the operation selection and the state of the sensor unit 22 is checked, 36 to the user.

The fan driving unit 26 operates according to the driving control signal of the control unit 20 to variably adjust the rotational speed of the ventilation fan 14 according to the detection result of the sensor unit 22. [

The timer 28 limits the driving time of the fan driving unit 26 in order to prevent the fan driving unit 26 from overheating according to the self-setting of the control unit 20 or the setting of the user.

The sensor unit 22 is installed on the ceiling adjacent to the cooking zone 1 to detect the degree of air pollution and senses the degree of air pollution caused by pollutants generated in the cooking zone 1, ). As the sensor unit 22, a gas sensor for measuring the degree of air pollution is the most preferable. However, a humidity sensor for measuring humidity or a temperature sensor for predicting the degree of contamination through heat generated in the cooking chamber 1 Or a plurality of sensors of various types may be provided. The sensor unit 22 senses the pollutants contained in the air in the installation area and outputs a sensing value having a voltage value according to the concentration of pollutants to the control unit 20. [

The user selection unit 30 provided on the operation panel 18 includes a power selection unit for system on / off, an automatic operation selection unit for selecting an automatic operation mode, a switch for manual operation of the ventilation fan 14 A driving time selector 32 for limiting the driving time of the ventilation fan 14 when the automatic operation mode is selected, and a selection unit for basic operation control, A drive condition selection unit 34 for setting a determination reference value is provided. In FIG. 2, the driving time selector 32 and the driving condition selector 34, which are the main selection unit for explanation, are exemplified.

The display unit 36 is provided with an on / off LED for indicating the on / off state of the power source, an 'automatic' LED for indicating the automatic operation mode, LEDs 1 for displaying the operation speed of the sensor unit 22 and displaying the result of the diagnosis of the sensor unit 22 in accordance with the state of the sensor unit 22, while displaying the operating speeds of L, L, M, H, LED2 and LED3 are provided. 2, LEDs 1, 2 and 3 and power ON / OFF LEDs which are turned on in accordance with the operating speed of the ventilating fan 14 are exemplarily shown.

The control unit 20 controls the operation of the various devices according to the input through the operation panel 18 and periodically calculates the average voltage value by receiving the pollution degree detection signal outputted from the sensor unit 22 in the automatic operation mode . The control unit 20 compares the difference between the calculated average voltage value and the voltage value of the sensing signal from the sensor unit 22 with the contamination degree judgment reference value and variably controls the driving speed of the ventilation fan 14 according to the degree of contamination On the other hand, the LED of the display unit 36 is lit to display the operation state.

The control unit 20 checks the state of the sensor unit 22 and when the sensor unit 22 is determined that an abnormality has occurred, the LED unit 1, the LED 2, and the LED unit 3 are turned on to alert the sensor unit 22.

The ventilation system according to the present invention having such a configuration can be constituted by a circuit as shown in Fig. The circuit diagram of FIG. 3 shows the operation of the fan driving unit 26 for varying the driving of the ventilation fan 14 according to the control signal of the control unit 20, the timer 28 and the gas sensor SEN, A driving condition selection unit 34 for setting a pollution degree judgment reference value for driving the ventilation fan 14 and a driving condition selection unit 34 for driving the ventilation fan 14, Calculates the average of the voltage values input through the sensor unit 22 according to the pollution degree judgment reference value setting and applies the control signal to the fan driving unit 26 according to the difference between the average value and the input value, (OP-AMP) IC as the control unit 20 for blinking the LEDs 2 and LED3.

The control unit 20 receives the sensed value input pins AD LEVEL INPUT 1 and AD LEVEL INPUT 2 for inputting sensed values from the sensor unit 22 and the input of the pollution degree determination reference value set through the driving condition selection unit 34 (LED1_OUT, LED2_OUT, LED3_OUT) for LED flashing and a fan control signal output pin (L_OUT (LED1_OUT, LED2_OUT, LED3_OUT) for controlling the speed of the ventilation fan 14) , M_OUT, H_OUT), and calculates an average of the pollution degree detection values inputted through the detection value input pin according to the setting condition inputted through the reference value input pin, and controls the LED output pin and the fan control And applies the output signal through the signal output pin.

The controller 20 automatically detects the state of the sensor unit 22 by checking the voltage value input to the detection value input pins AD LEVEL INPUT 1 and AD LEVEL INPUT 2, LED2_OUT, LED3_OUT), LED1, LED2, LED3 are blinked to report the abnormal state to the user.

The fan driving unit 26 adjusts the power supplied to the ventilation fan 14 according to the driving signal applied by the control unit 20 through the fan control signal output pins L_OUT, M_OUT and H_OUT, Variable speed control. The signal output from the fan control signal output pin L_OUT of the control unit 20 switches the transistor Q3 through the resistor R21 of the fan driving unit 26 to drive the relay K1 to rotate the ventilation fan 14 at low speed. The signal output from the fan control signal output pin M_OUT of the control unit 20 switches the transistor Q4 through the resistor R22 of the fan driving unit 26 to drive the relay K2 to rotate the ventilation fan 14 at a medium speed, The signal output from the fan control signal output pin H_OUT of the fan motor 20 switches the transistor Q5 through the resistor R23 of the fan driving unit 26 to drive the relay K3 to rotate the ventilation fan 14 at high speed.

The timer 28 limits the driving time for preventing the fan driving unit 26 from overheating. The switches TM SW2 and TM SW3 of the timer 28 are turned on / off according to the self-setting of the controller 20 or the user's driving time limit setting. When both of the switches TM SW2 and TM SW3 are turned on, Is 30 minutes and returns to its initial state after 30 minutes. When the switch TM SW2 is turned on and the switch TM SW3 is in the off state, the maximum operation time is limited to 60 minutes, and after 60 minutes, the switch TM SW2 is returned to the initial state. When the switches TM2 and TM3 are both off, The time is limited to 90 minutes and returns to the initial state after 90 minutes.

The gas sensor SEN of the sensor unit 22 is supplied with the rated 5V power supplied from the constant voltage constant current circuit. When the rated voltage of 5V is inputted to the gas sensor SEN, the voltage is distributed by the connected resistors R7 (10K) and R8 (2K), and the divided voltage is transmitted to the control unit 20. [

The driving condition selection unit 34 turns on / off the switches SW1, SW2, and SW3 according to the pollution degree judgment reference value set by the user and sets the reference value input pins (concentration LEVEL1, concentration LEVEL2, LEVEL 3).

According to such a circuit configuration, when the user sets the contamination level determination reference value to "1 ", the switch SW1 of the drive condition selection unit 34 is turned on and the switches SW2 and SW3 are turned off, The reference value is input to LEVEL1. The controller 20 periodically churns analog data input from the sensor unit 22 for 10 seconds in real time and calculates an average value. When the pollution degree judgment reference value is "1 ", the control unit 20 applies a control signal to the fan driving unit 26 through the output pin L_OUT when a voltage of 0.7 V or more is inputted to the control unit 20 so that the ventilation fan 14 rotates at a low speed On the other hand, a signal is output through the output pin LED1_OUT to indicate that the ventilation fan 14 is driven at a low speed by lighting the LED1. Here, when a voltage of 1.4 V or more is input from the average value, a control signal is applied to the fan driving unit 26 through the output pin M_OUT to cause the ventilation fan 14 to rotate at a medium speed while outputting a signal through the output pin LED2_OUT, Thereby indicating that the ventilation fan 14 is driven at a medium speed. When a voltage of 2.0V or more is input from the average value, a control signal is applied to the fan driving unit 26 through the output pin H_OUT to cause the ventilation fan 14 to rotate at a high speed, and outputs a signal through the output pin LED3_OUT, Thereby indicating that the ventilation fan 14 is driven at a high speed.

The switch SW2 of the drive condition selection unit 34 is turned on and the switches SW1 and SW3 are turned off to input the reference value to the reference value input pin concentration LEVEL2 of the control unit 20. [ The controller 20 periodically churns analog data input from the sensor unit 22 for 10 seconds in real time and calculates an average value. When the pollution degree judgment reference value is "2 ", the control unit 20 applies a control signal to the fan driving unit 26 through the output pin L_OUT so that the ventilation fan 14 rotates at low speed While outputting a signal through the output pin LED1_OUT to light up the LED1 to indicate that the ventilation fan 14 is driven at a low speed. When a voltage of 2.0 V or more is input from the average value, a control signal is applied to the fan driving unit 26 through the output pin M_OUT to cause the ventilation fan 14 to rotate at a medium speed while outputting a signal through the output pin LED2_OUT, Thereby indicating that the ventilation fan 14 is driven at a medium speed. When a voltage of 3.0 V or more is input from the average value, a control signal is applied to the fan driving unit 26 through the output pin H_OUT to cause the ventilation fan 14 to rotate at a high speed, while outputting a signal through the output pin LED3_OUT, Thereby indicating that the ventilation fan 14 is driven at a high speed.

 On the other hand, when the user sets the contamination level determination reference value to "3 ", the switch SW3 of the drive condition selection unit 34 is turned on and the switches SW1 and SW2 are turned off, and a reference value is input to the reference value input pin concentration LEVEL3 of the control unit 20 do. The controller 20 periodically churns analog data input from the sensor unit 22 for 10 seconds in real time and calculates an average value. When the pollution degree judgment reference value is "3 ", the control unit 20 applies a control signal to the fan driving unit 26 through the output pin L_OUT to cause the ventilation fan 14 to rotate at a low speed On the other hand, a signal is output through the output pin LED1_OUT to indicate that the ventilation fan 14 is driven at a low speed by lighting the LED1. Here, when a voltage of 2.5 V or more is input from the average value, a control signal is applied to the fan driving unit 26 through the output pin M_OUT to cause the ventilation fan 14 to rotate at a medium speed, and outputs a signal through the output pin LED2_OUT, Thereby indicating that the ventilation fan 14 is driven at a medium speed. When a voltage higher than 3.5V is inputted to the fan motor 14, a control signal is applied to the fan driving unit 26 through the output pin H_OUT to cause the ventilation fan 14 to rotate at a high speed and output a signal through the output pin LED3_OUT, Thereby indicating that the ventilation fan 14 is driven at a high speed.

 The control unit 20 of the present ventilation system performs a self-diagnosis function on the sensor unit 22 to minimize the influence of the ambient environment such as weather, temperature, humidity, wind, etc., ) And check the operation status. For example, assuming that the voltage value input from the sensor unit 22 is 1 V in the air clean state at room temperature, 0 V is input when the sensor unit 22 is disconnected, and 5 V is input when the sensor unit 22 is shorted. If it is determined that a value out of the range of the reference value of the operation result of the input value input from the sensor unit 22 is inputted, the sensor unit 22 is processed as a failure and the LED output pins (LED1_OUT, LED2_OUT, LED3_OUT) The LED 1, the LED 2, and the LED 3 are blinked to report an abnormality of the sensor unit 22 to the user.

When power is supplied, the control unit 20 stabilizes the sensor unit 22 while sequentially flashing the LED1, LED2, and LED3 for three minutes. When the power is normally operated after the power is turned on, the LED unit 2 blinks for one second for 0.2 second It can be displayed that normal operation is being performed.

4 is a flowchart of a self-diagnosis process of the ventilation system according to the present invention.

When the system starts to be driven according to the selection of the user's power supply (S1), the controller 20 initializes each circuit configuration and stabilizes the sensor unit 22 while sequentially flashing the LEDs 1, 2 and 3 for 3 minutes ( S3).

The control unit 20 determines whether a voltage value input from the sensor unit 22 is between 1V and 5V (S5). Here, it is assumed that the sensor unit 22 is driven by a rated 5V power source and outputs a sensing value of 1V in an air clean state. Accordingly, when the sensor unit 22 is disconnected, 0V is input, and when the sensor unit 22 is short, 5V is input.

Accordingly, when the voltage value input from the sensor unit 22 is out of the range of the reference value, it is determined that the sensor unit 22 is abnormal and the LED1, LED2, Thereby reporting an abnormality of the sensor unit 22 to the user (S7).

On the other hand, when the sensor unit 22 normally operates, it goes into a standby state and outputs LED2_OUT to flash the LED 2 for one second for 0.2 second to report the normal operation of the system to the user (S9).

The control process of the ventilation system after the initialization is completed through this process is as shown in FIG.

The LED 2 is turned on in response to the waiting state, and the normal operation state is displayed (S10), and the controller 20 monitors whether or not the user has input (S12).

When the user selects an operation such as driving and stopping of the ventilation fan 14 through the operation panel 18, the control unit 20 causes the fan driving unit 26 to supply the fan control signals L_OUT, M_OUT, H_OUT, (LED1_OUT, LED2_OUT, LED3_OUT) to the LED according to the rotation speed of the fan to turn on the corresponding LED (S18).

When the user selects the automatic operation mode (S14), the control unit 20 inputs the driving reference value (concentration LEVEL1, concentration LEVEL2, and concentration LEVEL3) of the ventilation fan 14 set by the user from the driving condition selection unit 34 Receives the gas concentration signal from the sensor unit 22, and confirms the degree of air pollution (S16).

The control unit 20 periodically churns the analog voltage value input from the sensor unit 22 for 10 seconds in real time and calculates the average value of the contamination degree (S20).

The control unit 20 variably controls the ventilation fan 14 in accordance with the input value from the sensor unit 22 on the basis of the driving reference value (concentration LEVEL1, concentration LEVEL2, concentration LEVEL3) set by the user set by the ventilating fan 14 S22).

For example, when the user sets the contamination level determination reference value to "1 ", the controller 20 outputs L_OUT to the fan driving unit 26 when a voltage of 0.7 V or more higher than the average value is input from the sensor unit 22, The transistor Q3 of the inverter 26 is switched to drive the relay K1 to rotate the ventilation fan 14 at a low speed and output the output pin LED1_OUT to light the LED 1 to indicate that the ventilation fan 14 is driven at a low speed. When a voltage of 1.4 V or more higher than the average value is inputted from the sensor unit 22, M_OUT is outputted to the fan driving unit 26 to switch the transistor Q4 of the fan driving unit 26 to drive the relay K2, And outputs the output pin LED2_OUT to light up the LED 2 to indicate that the ventilation fan 14 is driven at a medium speed. When a voltage of 2.0 V or more higher than the average value is inputted from the sensor unit 22, H_OUT is outputted to the fan driving unit 26 to switch the transistor Q5 of the fan driving unit 26 to drive the relay K3 to rotate the ventilation fan 14 at a high speed On the other hand, the output pin LED3_OUT is outputted and the LED 3 is turned on to indicate that the ventilation fan 14 is driven at a high speed.

The control unit 20 outputs L_OUT to the fan driving unit 26 when a voltage of 1.0 V or more higher than the average value is input from the sensor unit 22 and the transistor Q3 of the fan driving unit 26 To turn the ventilation fan 14 at low speed by driving the relay K1 while outputting the output pin LED1_OUT to light the LED 1 to indicate that the ventilation fan 14 is driven at a low speed. When a voltage of 2.0 V or more higher than the average value is input from the sensor unit 22, M_OUT is outputted to the fan driving unit 26 to switch the transistor Q4 of the fan driving unit 26 to drive the relay K2, And outputs the output pin LED2_OUT to light up the LED 2 to indicate that the ventilation fan 14 is driven at a medium speed. When a voltage of 3.0 V or more than the average value is inputted from the sensor unit 22, H_OUT is outputted to the fan driving unit 26 and the transistor Q5 of the fan driving unit 26 is switched to drive the relay K3 to rotate the ventilation fan 14 at a high speed On the other hand, the output pin LED3_OUT is outputted and the LED 3 is turned on to indicate that the ventilation fan 14 is driven at a high speed.

If the pollution degree judgment reference value is set to "3 ", the control unit 20 outputs L_OUT to the fan driving unit 26 when a voltage of 1.5 V or more higher than the average value is inputted from the sensor unit 22, The transistor Q3 is switched to drive the relay K1 to rotate the ventilation fan 14 at a low speed while outputting the output pin LED1_OUT to light the LED 1 to indicate that the ventilation fan 14 is driven at a low speed. When a voltage of 2.5 V or more higher than the average value is input from the sensor unit 22, M_OUT is outputted to the fan driving unit 26 to switch the transistor Q4 of the fan driving unit 26 to drive the relay K2, And outputs the output pin LED2_OUT to light up the LED 2 to indicate that the ventilation fan 14 is driven at a medium speed. When a voltage of 3.5 V or more higher than the average value is inputted from the sensor unit 22, H_OUT is outputted to the fan driving unit 26 to switch the transistor Q5 of the fan driving unit 26 to drive the relay K3 to rotate the ventilation fan 14 at high speed On the other hand, the output pin LED3_OUT is outputted and the LED 3 is turned on to indicate that the ventilation fan 14 is driven at a high speed.

The driving time of the ventilation fan 14 is limited by the timer 28, and when the operation time is terminated, the driving of the ventilation fan 14 is stopped (S24). Here, the timer 28 turns on / off the switches TMW2 and TMW3 according to the self-setting of the control unit 20 or the user's driving time limit setting, and when the switches TMW2 and TMW3 are both turned on, The maximum operation time of the switch TM SW2 is limited to 30 minutes, the maximum operation time is limited to 60 minutes when the switch TM SW2 is turned on and the switch TM SW3 is in the off state, and when the switches TM SW2 and TM SW3 are both off The maximum operation time is limited to 90 minutes so that the rotation of the ventilation fan 14 is stopped.

When the rotation of the ventilation fan 14 is stopped, the state of the timer 28 is initialized (S26). Then, the control unit 20 performs the control function of the ventilation fan 14 according to the degree of contamination from the step S16.

As described above, according to the present invention, the pollution degree of indoor air is detected, and the ventilation fan is controlled at an optimum speed according to the degree of pollution. In addition, the state of the ventilation system is self-diagnosed and the diagnosis result is reported to the user. Are not limited to those described above, and can be variously modified and carried out within a range that is obvious to a person having ordinary knowledge in the present invention.

As described above, the ventilation system and the control method thereof according to the present invention calculate the pollution degree of the indoor air and control the ventilation fan at an optimum speed according to the degree of pollution. Further, the state of the ventilation system is self- And to report it.

Accordingly, the convenience of use of the ventilation system can be increased, and the state of the sensor, which is a core component of the ventilation system, can be checked at all times and managed in an optimal state.

Claims (11)

1. A ventilation system for sucking polluted indoor air by rotation of a ventilation fan and discharging it to the outside, A user selection unit for selecting an automatic operation mode; A sensor unit for receiving a rated power and sensing a gas concentration of the indoor air and outputting a sensing signal having a voltage value according to the gas concentration; A fan driving unit for varying the rotational speed of the ventilation fan; A display unit for displaying an abnormality of the sensor unit; The control unit checks the voltage value of the sensing signal inputted from the sensor unit and warns an abnormality of the sensor unit through the display unit when the voltage value is determined to be out of the normal range, And a control unit for periodically calculating an average voltage value of the signal and comparing the difference between the average voltage value and the voltage value of the sensing signal with a contamination degree judgment reference value, And a control unit for applying a signal to the ventilation system. The method according to claim 1, Wherein, Wherein when the voltage value of the sensing signal input from the sensor unit is greater than the rated voltage input to the sensor unit, the sensing unit determines that the sensor unit is in an abnormal state. The method according to claim 1, Wherein, Wherein the control unit determines that the sensor unit is in an abnormal state when the voltage value of the sensing signal input from the sensor unit is less than a predetermined minimum voltage. The method according to claim 1, Wherein the user- Further comprising a driving condition selection unit for setting the pollution degree judgment reference value by the user. 5. The method of claim 4, Wherein, The air pollution degree determination reference value and the rotation speed of the ventilation fan are set differently according to the pollution degree judgment reference value set through the driving condition selection unit, and the periodically calculated average voltage value and the voltage value of the sensing signal Wherein the control unit variably controls the rotational speed of the ventilation fan in accordance with the contamination degree judgment reference value corresponding to the difference. The method according to claim 1, Wherein the display unit further comprises a rotation speed display unit for displaying a rotation speed of the ventilation fan. delete delete delete delete delete

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