KR950011087B1 - Automatic controlled circuit and automatic air purify mehtod - Google Patents

Abstract

a pollution sensor for sensing a surrounding air pollution state by a gas sensor; a high voltage circuit for changing alternating current input power to direct current to apply the direct current to a first side of a flyback transformer and for selecting a second side organic voltage of the flyback transformer to output the voltage to a pollution collector; a motor driver for selectively rotating a fan motor; a relay driver for selecting a resistance value of the high voltage circuit and a rotation velocity of the motor driver in accordance with driving of each relay; and a microcomputer for comparing the air pollution state from the pollution sensor with a standard value and for selectively driving the each relay of the relay driver to automatically adjust pollution collecting performance and an amount of wind.

Description

Air Purification Function Automatic Control Circuit and Air Purification Method of Air Purifier

1 is a block diagram of an air conditioner circuit according to the present invention.

2 is a flow chart of the control operation of the microcomputer according to the present invention.

3 is an output characteristic diagram of a gas sensor used in the present invention,

3 (a) is a change in resistance value (Rs) according to the air pollution degree (PPM).

3 (b) is a change in pollution detection state (R) according to the initial time change (t ₁ ).

* Explanation of symbols for main parts of the drawings

1: pollution detection unit 2: 60 Hz detection unit

3: high voltage circuit section 3a: oscillation circuit

4: motor drive part 5: microcomputer

6: constant voltage unit 7: relay driving unit

SW: Gas Sensor FBT: Flyback Transformer

8: Fan motor RY ₁ -RY ₆ : Relay

Y ₁ -Y ₆ : relay switching terminal

The present invention relates to an air conditioner and a method of an air purifier, and more particularly, to automatically control the on / off of the operating state according to the indoor air pollution degree and the voltage control and the air volume control of the high pressure dust collecting unit to save power and the life of the product. It can be extended.

In the conventional air conditioner products, the high voltage of the high pressure generating part that generates the high pressure is maintained at a constant voltage, and the change in the air volume is also possible to operate by setting the "strong", "medium" and "weak manually", Even if it is not polluted, there is a problem that wastes power and deteriorates the reliability of the product without any ability to cope with it.

Therefore, in order to solve the above problem, the present invention adjusts the operation state according to the degree of air pollution in the room and automatically changes the high pressure generator and the air volume, and when the air pollution is extremely small, the operation is automatically stopped after a certain time and pollution. It is an object of the present invention to provide an air conditioner having a function of automatically adjusting the voltage and air volume of the dust collecting high pressure part according to the degree of pollution of indoor air, which increases when this increases.

The present invention for achieving this purpose is to read the indoor air pollution degree (B) and compare it with a preset standard pollution degree (K), and when the air pollution degree is greater than the standard pollution degree as a result of said comparison the rotational speed of the fan motor ""High", the degree of high pressure generation of the dust collector and the rotational speed of the fan motor to "medium" when the air pollution is the same as the standard pollution degree, and the degree and limit of the high pressure generation of the dust collector if the air pollution is less than the standard pollution If the air pollution level of the dust collector is maintained for the set time (t ₂ ), if it is maintained for the set time, it is judged as comfortable air and stops the high pressure generation of the dust collector and the operation of the fan motor. Characterized in that the step of setting the rotational speed of the fan motor to "about", as described in detail by the accompanying drawings as follows The.

As shown in FIG. 1, the air conditioner circuit configuration according to the present invention detects the pollution detection unit 1 for detecting the pollution state of the surroundings by the gas sensor SN and the frequency of the AC power supply of the secondary transformer. In order to apply a stable power supply to the primary side L ₁ of the flyback transformer FBT by changing the 60Hz detection unit 2 and the AC power supply 120V to the DC power supply 120V, the resistance value R ₃₀ of the oscillation circuit 3a is applied. Motor drive unit 4 for selectively rotating the secondary voltage L ₂ of the flyback transformer (FBT) to "strong", "medium" and "weak" according to (R ₃₁ ) and (R ₃₂ ). And a relay driver 7 for selecting the resistance value of the oscillation circuit and the rotational speed of the motor driving unit 4 as switching terminals Y ₁ -Y ₆ interlocked with each relay RY ₁ -RY ₆ , and Compare the air pollution degree received by the pollution detection unit 1 with the reference value and selectively drive each relay (RY _1- RY ₆ ) of the relay drive unit according to the comparison result. It consists of the microcomputer 5.

Reference numeral 6 denotes a constant voltage section for supplying power to the microcomputer 5.

Referring to the operation and effects of the present invention configured as described above are as follows. First, the gas sensor SW for detecting the air pollution level in the pollution detection unit 1 has a resistance value Rs of the sensor when the property is increased in pollution degree PPM as shown in FIG. When the pollution degree decreases, the resistance value (R ₆ ) increases, and as shown in FIG. 3 (b), the pollution sensor of the gas sensor is stable only after the initial instability time (t ₁ ). 5) the variable resistance VR ₁ and the resistance of the pollution detection unit 1 through the input port INΦ after the initial instability time t ₁ of the gas sensor SW ends in the same order as in FIG. 2. (R ₁ ) (R ₂ ) and the current ambient air pollution degree (B) detected by the sensor resistance value (Rs) is read (steps S1, S2) and compared with the preset standard pollution degree (K) (steps S3, S5, S7) On the other hand, in order to perform the comparison and determination operation of the microcomputer 5 as described above, the AC 12 volt power supply of the secondary side of the transformer is low in the 60 Hz detection unit 2. Is applied to the term R ₁₀ to turn on and off the transistor Q ₅ , and to the input port Io of the microcomputer 5 through the pull-up resistor R ₁₅ . Is input, and at 0.7V or less, the logic values "1" are alternately input to allow time sensing.

If the result of comparing the pollution degree (B) of the current ambient air is greater than the standard pollution degree (K), the microcomputer 5 turns on the air conditioner operation state and at the same time the relay drive unit (P ₁ -P ₆ ) through the output port (P ₁ -P ₆ ) 7) The first relay RY ₁ and the fourth relay RY ₄ are driven (step S4) so that the air conditioner voltage is "strong", so the fan motor rotation speed is set to "strong" and the standard pollution degree (K). In this case, the air conditioner operation state is turned on and the second relay RY ₂ and the fifth relay RY ₅ are driven (step S6) to set the air conditioner voltage to "medium" so that the fan motor rotation speed is "medium". If it is smaller than the standard pollution degree (K), it is again checked whether the state is maintained for a predetermined time (t ₂ : arbitrarily designated) (step S7). If the operation is stopped (step S9) and, being maintained for a predetermined time (t ₂₎ very enemy While it is determined that the air contamination to be on the air conditioner operating state at the same time a third relay (RY ₃₎ and a sixth relay fan motor speed, so by driving (step S8) the (RY ₆₎ the air conditioner voltage as "about", " About ".

At this time, in the high voltage circuit unit 3, AC 120V is full-wave rectified through the bridge diode (BD), and then smoothed in the capacitor (C ₁ ) and becomes a constant voltage (DC 120V) through the power transistor (Q ₂ ), which is an overcurrent prevention transistor A stable direct current 120V is applied to the primary side of the flyback transformer (FBT) by (Q ₂ ).

Here, the organic high voltage of the secondary side L ₂ of the flyback transformer FBT is determined by turning on / off the transistor Q ₃ as the output of the oscillation circuit 3a is applied to the base terminal of the drive transistor Q ₃ . This is dependent on the resistance value (R _30- R ₃₂ ) of the transistor Q ₃ obtained by the selection state of the relay switch terminals Y _1- Y ₃ of the relay RY _1- RY ₂ operated by the microcomputer 5. When the on / off time is wrong, the high pressure output part of the flyback transformer (FBT) appears differently, and when the output of the high voltage circuit part 3 is high, the dust collection capability of the dust collector becomes large, and when the output is low, the dust collection Since the capacity is small, it is possible to control the pollution collection ability through the high-pressure circuit unit 3 in the microcomputer (5).

On the other hand, the motor driving unit 4 can determine the "strong", "medium", "weak" air volume of the fan motor M in accordance with the control of the relay (RY _4- RY ₆ ) of the microcomputer (5).

As described above, the present invention can automatically adjust the air torch function according to the degree of air pollution in the room, which can reduce power waste and is a useful invention that can extend the life of the product.

Claims (2)

Pollution detection unit 1 for detecting the pollution state of the ambient air with the gas sensor (SW), and AC input power is changed to DC to apply to the primary side (L ₁ ) of the flyback transformer (FBT) and the oscillation circuit ( The high voltage circuit (3) and the fan motor (M) for selecting the _secondary voltage (L ₂ ) of the flyback transformer (FBT) induced voltage of the flyback transformer (FBT) according to the resistance value (R ₃₀ -R ₃₁ ) of 3a) and outputting them to the dust collector. ) And a relay for selecting the resistance of the high-voltage circuit unit 3 and the rotational speed of the motor driving unit 4 according to whether each of the relays RY _{1 to} RY ₆ is driven. Accepts the air high salinity measured by the drive unit 7 and the pollution detection unit 1 and compares the values to standard values, and selectively selects each relay RY ₁ -RY ₆ of the relay drive unit 7 according to the comparison result. It is characterized in that the ball is composed of a microcomputer (5) to automatically adjust the dust collection capacity and air volume by driving Air purification function of the automatic adjustment circuit cleaner. Reading the indoor air pollution degree (B) and comparing it with a preset standard pollution degree (K), and if the air pollution degree is greater than the standard pollution degree as a result of the comparison, setting the rotational speed of the fan motor to "strong" and air pollution degree If the standard pollution degree is the same, the step of setting the high pressure generation degree of the dust collector and the rotational speed of the fan motor to "medium", and if the air pollution degree is smaller than the standard pollution degree, the high pressure generation degree of the dust collector and the air pollution degree of the limit are set time (t ₂ ) Check if it is maintained for a set time, and if it is maintained for the set time, judge it as comfortable air to stop the high pressure generation of the dust collector and the operation of the fan motor, and if it is not maintained, reduce the high pressure generation degree of the dust collector and the rotation speed of the fan motor. Automatic air purifying method of the air purifier, characterized in that the step consisting of setting.