KR930002444Y1 - Air cleaner controlling circuit - Google Patents

Abstract

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Description

Air flow control circuit of air cleaner

1 is a functional configuration diagram of a conventional air cleaner.

2 is a circuit diagram of a conventional air cleaning.

3 is a diagram showing the relationship between the air flow rate according to the pollution degree.

4 is a relationship between pollution and time changed under the control of FIG.

5 is a functional configuration of the air flow control circuit of the present invention, an air purifier.

6 is a detailed circuit diagram of FIG.

7 is a control flow diagram executed by FIG.

8 is a relationship between pollution and time changed under the control of FIG.

* Explanation of symbols for main parts of the drawings

1: Gas detection element 2: Pollution detection unit

3: comparison unit 4: microcomputer

5: timer OPI: comparator

SWI-SW4: Control Switch

The present invention relates to the air volume control of the air cleaner, and more particularly, to the air volume control circuit of the air cleaner to control the air volume according to the rate of reduction of the pollution with respect to the time of the indoor air.

The functional configuration of the conventional air flow control is generally used, as shown in FIG. 1, when the sensor detects contamination of indoor air and sends an electrical signal to the microcomputer, the microcomputer determines this and displays the pollution level through an external display circuit. In addition, the air volume generation circuit is controlled to produce the air volume according to the degree of contamination.

On the other hand, as shown in FIG. 2, the circuit for performing the above functions has a common connection point between the gas sensor 1 for dividing the power supply V ⁺ and the ground resistor Rl, and the inverting terminal of the comparator OP1. And a non-inverting terminal (+) of the comparator (OP1) to the power supply (V ⁺ ) through the resistor (R6). In addition, the comparator 3 is configured by common connection to the terminals R2-R5 respectively connected to the control switches SW1-SW4 to apply the reference voltage Vref, and the output of the comparator 3 is converted into a microcomputer ( The output of 3) is reddened on the microcomputer 4 to recognize the pollution degree by the microcomputer 4, and to control the air volume control and the control switches SW1-SW4 accordingly.

The operation of the configuration as described above will be described first, when the pollution level in the room changes, the resistance value of the gas sensor 1 changes to change the voltage of the inverting terminal (-) of the comparator PO1, which is the comparator OP1. Is compared with the reference voltage (Vref) of the non-inverting terminal (+) of the (), when the output according to the comparison with the inverting (-) voltage for the reference voltage (Vref) is output to the microcomputer (4) The pollution level is recognized by the input. On the other hand, the microcomputer 4 operates the air volume driving circuit (not shown) according to the recognized pollution degree to control the air volume, and accordingly, if the pollution poisoning of the room is reduced, the specific control to change the reference voltage Vref of the comparator OP1. Open or short the switches SW1-SW4. At this time, when the pollution degree increases, the air volume for removing it gradually increases as shown in FIG. 3, and once the increased air volume decreases and is lowered again, a lower value than when increasing the air volume By lowering the number of stages in the pollution level, the indoor pollution is gradually reduced.

However, if the indoor pollution is lowered by controlling the wind direction in the same manner as usual, since the airflow is fixed according to the indoor pollution degree, the change in pollution degree with respect to time as shown in the graph of FIG. 4 occurs. In other words, if the air cleaner is operated when the pollution is no longer occurring, the pollution level of the room decreases by the air volume according to the pollution level of the room (straight line C). Does not decrease and remains constant (straight line A). In addition, since the rate of pollution is smaller than the rate of decrease of pollution by the air cleaner, the pollution is gradually reduced, and when the fire is long (straight B), the air cleaner cannot be effectively used.

Therefore, the present invention is designed to control the air volume by calculating the rate of reduction of pollution over time when operating the air cleaner and detecting the change of pollution according to the following.

FIG. 5 is a block diagram of the airflow control process according to the present invention. In FIG. 1, a timer for estimating the time at which the pollution degree changes with respect to the change of the airflow is added. FIG. 6 is a circuit diagram of the present invention. The timer 5 is added to output the measurement time to the microcomputer 4, and the operation thereof will be described with reference to the flow rate control flowchart of FIG.

First, when the gas sensor 1 detects contamination and applies a changed voltage to the inverting (-) of the comparator OP1 due to a change in the resistance value, the comparator OP1 is a specific switch shorted by the microcomputer 4. Compared to the reference voltage (Vref) divided by the resistor (R2-R5) connected to (SW1-SW4) and the resistor (R6) connected to the power supply (V ⁺ ) and apply the corresponding output to the microcomputer (4). The microcomputer 4 determines this and recognizes the pollution level in the room. The microcomputer 4 then displays the pollution level through the display circuit (not shown) and sends a control signal to the air volume driving circuit (not shown) to generate the air volume corresponding to the pollution level. . On the other hand, the timer 4 counts the operation time for the specific air volume and investigates the decrease in pollution degree according to the elapsed time. The reduction rate of the pollution degree ΔV1 with respect to ΔT, that is, Calculate the ratio Compare with the value of. But in the comparison above If this is the case, the pollution level decreases slowly or does not decrease within a certain time interval. Therefore, the control by the microcomputer 4 increases the air volume by one stage to accelerate the reduction of the pollution level, and then again increases the constant time (ΔT). Wait for the pollution rate To increase this airflow by investigating whether Repeat until the relationship is established. This pollution degree is the reference ratio ( At a rate greater than or equal to), the microcomputer 4 displays the reduced pollution level through the display circuit (not shown), and then displays the change in voltage according to the pollution level to recognize the current pollution level from the gas sensor 1 again. By repeating the above process, the indoor pollution will be reduced.

On the other hand, Figure 8 shows the relationship between the rate of pollution reduction and the reference ratio by the present invention over time When we refer to the ratio of the pollution reduction rate with time (straight line B), the straight line (C) is It shows the relationship of this means that the pollution degree is slowed down in a certain time (△ T) period, so the air volume is increased by one more step. And the straight line (A) shows the reduction rate of pollution As the standard ratio ( Since the pollution is decreasing at a faster rate, air volume corresponding to the pollution level is generated at this time without increasing the air volume.

As described above, the present invention generates the air volume corresponding to the indoor pollution level by counting the elapsed time for the specific air flow rate and calculating the reduction rate of the pollution degree in a certain time interval so that the pollution rate decreases within a certain reference ratio. It quickly reduces the pollution within a short time to maintain a comfortable indoor environment, and it is effective to use an air cleaner efficiently.

Claims (1)

In the air purifier, the pollution detection unit 2 converts the pollution degree detected by the gas sensor 1 into a corresponding voltage according to the degree, and the pollution detection unit 2 outputs the voltage according to the pollution degree. When comparing this with a predetermined reference voltage (Vref) to determine the level of pollution degree, and the timer to recognize the pollution level of the room according to the output of the comparison unit 3 and control the amount of air accordingly The air volume control circuit of the air cleaner, characterized in that the microcomputer (4) which reduces the pollution of the room by increasing the air volume by one stage when the reduction rate of the pollution degree is calculated for a predetermined time counted by (5).