KR0135136B1 - Method of gas sensing - Google Patents

Abstract

The present invention relates to a gas sensing method of an air purifier, comprising: a first step of reading and temporarily storing a gas sensor output value according to an external air pollution state during an initial time after an operation key signal is input by a user, in the first step Reading and temporarily storing the gas sensor output value when reaching up to a certain time, calculating and outputting the gas sensor output change over time, and outputting the gas sensor output change value of the second step and the standard data stored in the internal memory Comprising a third step of comparing, determining and outputting the value, and the fourth step of sensing the outside air pollution by selectively operating the blower motor according to the value output in the third step.

Description

Gas Sensing Method of Air Purifier

1 is a circuit diagram of a conventional air purifier.

2 is a circuit diagram of an air purifier of the present invention.

3 is a flow chart of the operation of the air purifier of the present invention.

Figure 4a is a graph of the output of the gas sensor according to the present invention.

Figure 4b is a graph of the response characteristics of the gas sensor according to the present invention.

* Explanation of symbols for main parts of the drawings

21: gas sensor unit 22: gas sensor output change comparison unit

23: load driver 24: switch

27-a, 27-b: inverter section 28-a, 28-b: relay section

The present invention relates to an air purifier, and more particularly, to a gas sensing method of an air purifier that is suitable for detecting an external air pollution state and controlling a blower motor. This will be described with reference to the accompanying drawings for the gas sensing method of the conventional air cleaner as follows.

FIG. 1 is a circuit diagram of a conventional air cleaner. The configuration of a conventional air cleaner includes a gas sensor unit 1 for detecting an external air pollution state when power is applied by a user as shown in FIG. And a load driver 3 for selectively driving in accordance with the output signal of the controller.

In addition, the gas sensor unit 1 is connected to the heater 4 which is always preheated when the power is applied by the user, and is connected in parallel with the heater 4 to adjust (change) the resistance according to the degree of external air pollution (R ₂ ). It is configured to apply the divided voltage by the resistor (R ₁ ) and the resistor (R ₂ ) to the microcomputer (5), the control unit (2) as the input of the output signal of the gas sensor unit 1 to the external air pollution The microcomputer 5 selectively outputting a control signal of a specific level according to the degree, the inverter 6 outputting the phase signal by inverting the output signal of the microcomputer 5, and the output signal of the microcomputer 5, that is, external air. The first relay unit 7 is driven in accordance with the degree of contamination, and the load driving unit 3 is composed of a blower motor 8 to selectively drive according to the output signal of the control unit (2).

On the other hand, a transformer 9 and a constant voltage unit 10 are provided to match the input and output impedances between the gas sensor unit 1 and the load driving unit 3.

The sensing method of the conventional air cleaner configured as described above preheats the heater 4 of the gas sensor unit 1 through the transformer 9 and the constant voltage unit 10 when power is applied by the user. At this time, by controlling the preheating degree of the heater 4 by varying the bonsai voltage of the resistance (R ₂ ) and the resistance (R ₁ ) that changes according to the external air pollution degree by preheating of the heater 4, the external air pollution state is detected and the control unit It is applied to the microcomputer 5 of (2).

Subsequently, the microcomputer 5 outputs a control signal of a specific level according to the external air pollution state in order to selectively control the blowing motor 8 of the load driving unit 3 in three stages of strong, medium, and weak. Then, the phase inverted signal is output through the inverter 6 to selectively drive the first relay 7.

Subsequently, the blower motor 8 of the load driver 3 is selectively driven in accordance with the output signal of the first relay 7 to purify the external air pollution.

The gas sensing method of the conventional air cleaner includes the transient response characteristic of the gas sensor 1, that is, when the initial power is applied to the gas sensor 1, it takes more than a predetermined time (2 minutes) until the output voltage level is stabilized. In order to immediately respond during the operation, the power is always applied to the heater 4 to be preheated. Therefore, there is a problem of shortening the life of the heater 4 and causing unnecessary power consumption.

Accordingly, the present invention has been made in order to solve the above problems, the object of the present invention is to automatically control the blower motor by detecting external air pollution even if the heater is not always on.

In order to achieve the above object, a gas sensing method of an air cleaner according to the present invention includes a first step of reading and temporarily storing a gas sensor output value according to an external air pollution state during an initial time after an operation key signal is input by a user, and The second step of reading and temporarily storing the gas sensor output value when the first stage reaches a predetermined time, and calculates and outputs the gas sensor output change over time, and the second gas sensor output change value and the internal memory And a fourth step of comparing, determining, and outputting the standard data values stored therein, and a fourth step of sensing external air pollution by selectively operating a blower motor according to the value output in the third step. .

Such a gas sensing method of the air purifier of the present invention will be described in more detail with reference to the accompanying drawings.

2 is a circuit diagram of the air purifier of the present invention, FIG. 3 is an operation flowchart of the air purifier of the present invention, and FIG. 4 (a) is a graph showing the output characteristics of the gas sensor according to the present invention, and FIG. As the response characteristic graph of the gas sensor according to the present invention, the configuration of the air purifier of the present invention is selectively driven when power is applied by the user as shown in FIG. 2 to detect and output an external air pollution state over time. The gas sensor unit 21 and the output signal of the gas sensor unit 21 over time are sequentially read and stored, and the signals for controlling the internal system are selectively output by comparing and determining the internal standard data signal. The gas sensor output change comparison unit 22 and the load driving unit 23 is driven to purify the external air pollution according to the output signal of the gas sensor output change comparison unit 22.

In addition, the gas sensor unit 21 is a switch (24) for switching the power on (on), off (off) operation in accordance with the degree of external pollution and the heater 25 selectively preheated by the operation of the switch 24 ), And connected in parallel with the heater 25 is composed of a resistance (R ₂ ) and a resistance (R ₁ ) that is adjusted (varied) according to the external air pollution state, the gas sensor output change comparison unit 22 is The microcomputer 26 sequentially reads, stores, compares and judges output signals of the gas sensor unit 21 over time, and a plurality of inverters for outputting the phase inverted output signals of the microcomputer 26. 27 and a plurality of relays 28 for transmitting a signal to operate the load driver 23 according to output signals of the plurality of inverters 27.

In the gas sensing method of the air cleaner according to the present invention configured as described above, when the start key input signal of the air cleaner is applied by the user as shown in FIGS. 3 and 4 (a) to (b), the gas sensor unit 1 At the same time as turning on the heater (4) (S ₁ ) of the microcomputer 5, the timer (T ₁ , T ₂ ) of the microcomputer 5 is operated (S ₂ ). At this time, 1 is substituted into the operation number n of the microcomputer 5. Subsequently, the microcomputer 4 compares whether the reference time T is larger than the initial time T ₁ after a predetermined time as shown in FIG. 4A (S ₃ ), and the reference time T is the initial time T If less than ₁ ) (No), the previous step (S ₂ ) is operated again. If the reference time (T) is greater than the initial time (T ₁ ) (Yes), the output voltage value of the gas sensor at this time is read and the microcomputer ( It is inputted into the memory Mn of 5) and stored (S ₄ ).

If the timer operation count n of the microcomputer 5 is greater than 3 (n3), the comparison is made (S ₅ ). If the number of times of operation of the timer is less than 3 (No), it is again compared whether the reference time T coincides with a predetermined time T ₂ (T = T ₂ ) as shown in FIG. ₆ ).

If the reference time (T) does not coincide with the predetermined time (T ₂ ) (No), the feedback feeds back to the step (S ₅ ) comparing the number of operations of the timer, the reference time (T) at a certain time (T ₂ ) If yes, the output voltage value of the gas sensor is read and input into the memory (M _{n + 1} ) of the microcomputer 5 and stored (S ₇ ) and at the same time (T ₂ -T ₁ ). Calculate the gas sensor output voltage change (S ₈ ).

That is, the calculated value of the gas sensor output voltage change with respect to the elapsed time is calculated as follows.

That is, as shown in FIG. 4 (a), the gas sensor output voltage value corresponds to the output change R ₂ and R ₃ in the normal state built in the microcomputer 26 according to the external air pollution state. Compare the difference with the output variation according to the output. Therefore, the value of the gas sensor output voltage change with respect to the elapsed time is determined when the external air pollution degree is normal.

To about the outside air pollution jungoh salt is _{△ V 2 R 2, △ V} 3 R 3 when, the degree of the external air pollution when the river contamination is calculated by _{△ V 2 «R 2, △ V} 3 «R 3.

Subsequently, the calculated value (ΔV _{n + 1} ) and the standard data value (R _{n + 1} ) stored in the internal memory are compared (S ₉ ), and the gas sensor output change value (ΔV _{n + 1} ) and the standard are compared. If the data values match (yes), the blower motor is weakly driven (S ₁₄ ), the timer operation count of the microcomputer 26 is compared with 2, and the timer operation count n and the counter of the microcomputer 26 are increased. (N ← n + 1) to feed back to step S ₅ of comparing whether the timer operation count of the microcomputer 26 is greater than 3 (S ₅ ) to perform the above operation, and the gas sensor output change value (ΔV _n). If the _{+ 1)} and the standard data do not match (no), once again the gas sensor output variation value (△ V _{n + 1)} the standard data value (R _{n + 1)} extremely large if (△ V _{n + 1} «R than compares _{n + 1) (S 10)} .

Then the gas sensor output variation value (△ V _{n + 1)} by driving a steel the blower motor (8) of a standard data value if considerably less than the (R _{n + 1)} (yes), the load drive unit (3) (S ₁₁₎ purifying the outside air pollution and gas sensor output variation value (△ V _{n + 1)} the standard data value (R _{n + 1)} is greater than (No), back to the gas sensor output variation value (△ V _{n + 1)} the standard It is compared whether the data value R _{n + 1} is slightly smaller than (ΔV _{n + 1} R _{n + 1} ) (S ₁₂ ).

And the gas sensor output variation value (△ V _{n + 1)} the standard data value if the bit is less than the _{(R n + 1) (yes} ), and driving of the blower motor of the load drive section (3) (S _13), the gas If the sensor output change value (ΔV _{n + 1} ) is greater than or equal to the standard data value (R _{n + 1} ) (No), the blower motor 8 of the load driver 3 is weakly operated (S ₁₄ ). After the contamination has been purified, it is compared whether the timer operation count of the microcomputer 26 matches 2 (n = 2).

At this time, if the timer number in the microcomputer 26 does not match the 2 (No), the timer increases the operation number (n) of the count by (n + 1) (S ₁₅₎ that feedback to the S ₅ Step Next, the back S ₅ to S ₁₄ repeats the operation sequence and operates the air cleaner, and if the timer operation count n of the microcomputer 26 is equal to 2 (yes), the air purifier is maintained and operated until the stop key is input.

Such a gas sensing method of the air cleaner of the present invention has the following effects.

First, due to the transient response characteristics of the gas sensor, the power is always supplied to the heater of the gas sensor. The clean state and pollution state are judged according to the output voltage state change of the gas sensor. The output response of the purifier can be made immediately.

Second, since the heater of the gas sensor is not always turned on, the lifespan and unnecessary power consumption can be reduced.

Claims (4)

A first step of reading and temporarily storing a gas sensor output value according to an external air pollution state during an initial time T ₁ after an operation key signal is input by a user (Mn). T ₂₎ read the gas sensor output at the time it reaches the temporarily stored up to (M _{n + 1)} the time that elapses minute output by calculating the gas sensor output changes to the (△ V _{n + 1)} a second step, the second A third step of comparing, determining and outputting the gas sensor output change value ΔV _{n + 1} of the step and the standard data value R _{n + 1} stored in the internal memory, and selectively according to the value output in the third step And a fourth step of sensing the outside air pollution by operating the blower motor to the gas purifier of the air purifier. According to claim 1, wherein the blower motor drive of the fourth stage is an external air pollution if the difference between the standard data value of the third stage and the gas sensor output change value is considerably small (ΔV _{n + 1} ) _< (R _{n + 1} ). It is determined that there are a large number of driving the blower motor, if the difference is small (△ V _{n + 1} R _{n + 1} ) to operate during the gas sensing method of the air cleaner, characterized in that the operation is weak. According to claim 1, The gas sensor output voltage value according to the external air pollution state compares the difference between the output change (R ₂ , R ₃ ) of the steady state stored in the internal system and the output change according to each external air pollution state Gas sensing method of an air cleaner, characterized in that the output. According to claim 1, wherein the value of the gas sensor output voltage change with respect to the elapsed time according to the external air pollution degree is the external air pollution degree is normal If the external air pollution degree is heavy pollution, △ V ₂ R ₂ , △ V ₃ R ₃ , and if the external air pollution degree is strong pollution, it is calculated as △ V ₂ ≪R ₂ , △ V ₃ ≪R ₃ Gas sensing method of an air cleaner.