KR20060018071A - Method for controlling cool operation of air-conditioner - Google Patents

Abstract

The present invention relates to a cooling operation control method of an air conditioner, in particular, in order to eliminate the unbalanced heat exchange between the indoor and outdoor air in the cooling operation of the outdoor low temperature conditions compared with the discharge temperature of the preset temperature and the outdoor heat exchanger according to the temperature difference By varying the number of rotation of the outdoor fan there is an advantage that the cooling operation can be more efficiently controlled by adjusting the heat exchange capacity between the indoor and outdoor air.

Air Conditioner, Outdoor Heat Exchanger, Cooling Operation, Outdoor Fan, RPM

Description

Air Conditioning Control Method of Air Conditioning {METHOD FOR CONTROLLING COOL OPERATION OF AIR-CONDITIONER}             

1 is a block diagram for explaining a cooling operation control method of an air conditioner according to the present invention.

2 is a flowchart illustrating a cooling operation control method for an air conditioner according to the present invention.

<Description of the symbols for the main parts of the drawings>

10: discharge temperature sensor 20: preset switch

30: tilt switch 40: main control part

50: outdoor fan motor control unit 60: zero crossing input unit

70: power voltage frequency switch 80: AC power input unit

81: noise filter 82: transformer

83: DC output unit

The present invention relates to a cooling operation control method of an air conditioner, and more particularly, in order to solve the unbalanced heat exchange between indoor and outdoor air in the cooling operation under outdoor low temperature conditions, comparing the preset temperature with the discharge temperature of the outdoor heat exchanger. The present invention relates to a cooling operation control method of an air conditioner capable of controlling the cooling operation more efficiently by adjusting the heat exchange capacity between indoor and outdoor air by varying the rotation speed of the outdoor fan according to the temperature difference.

In the air conditioner cooling operation, outdoor fan control is performed by determining whether the outdoor temperature reaches the set temperature by the indoor / outdoor microcomputer by using a constant temperature of rotation of the outdoor fan in the outdoor unit or by using the coil tap of the outdoor fan motor and the thermistor in the outdoor fan. To control 1 stage 2 stage 3 stage.

The cooling operation of the air conditioner is such that the coolant is condensed inside the outdoor heat exchanger when the temperature of the outdoor unit becomes low due to the low temperature of the outdoor unit. Phases are formed in the heat exchanger so that normal heat exchange does not occur.

This is to adjust the rotation speed of the outdoor fan in the cooling operation under low temperature condition to adjust the heat exchange capacity of the indoor and outdoor air.In the low temperature condition, because the variable speed of the outdoor fan controls two speeds and three speeds depending on the intermittent or coil inside the motor. There is a problem that there is a limit in the cooling operation capability in the.

The present invention has been made to solve the problems of the prior art as described above, by comparing the discharge temperature of the pre-set temperature and the outdoor heat exchanger to solve the unbalanced heat exchange between the indoor and outdoor air in the cooling operation of the outdoor low temperature conditions It is an object of the present invention to provide a cooling operation control method of an air conditioner that can more efficiently control the cooling operation by adjusting the heat exchange capacity between indoor and outdoor air by varying the rotation speed of the outdoor fan according to the temperature difference.

The present invention for achieving the above object comprises the steps of receiving the set temperature and the slope and the setting state of the power supply voltage frequency of the outdoor heat exchanger; Detecting a refrigerant temperature of the outdoor heat exchanger; Comparing a refrigerant temperature and a set temperature of the detected outdoor heat exchanger; If the refrigerant temperature of the outdoor heat exchanger is greater than a predetermined temperature, rotating the rotation speed of the outdoor fan at a maximum duty percentage; Calculating a duty cycle percentage of the outdoor fan according to the temperature difference when the refrigerant temperature of the outdoor heat exchanger is smaller than a set temperature; Rotating the outdoor fan by the calculated duty cycle percentage of the outdoor fan; Comparing the rotational speed of the outdoor fan to be less than a minimum duty percentage; Stopping the outdoor fan if the rotation speed of the outdoor fan is less than a minimum duty percentage; And returning to detecting the coolant temperature of the outdoor heat exchanger when the rotation speed of the outdoor fan is greater than the minimum duty percentage.

Preferably, the step of calculating the rotational duty ratio of the outdoor fan includes calculating a slope with respect to a slope switch input; Calculating a rotational duty percentage of the outdoor fan output by the mathematical linear function according to the gradient value and the difference between the refrigerant temperature and the set temperature of the outdoor heat exchanger; And calculating a turn-on time of the outdoor fan driver by calculating the duty cycle percentage of the outdoor fan in a time domain according to an input value of a power supply voltage frequency.

In addition, the mathematical linear function is characterized in that Y = ax + b. Where Y is the duty cycle percentage of the outdoor fan, x is the slope, a is the difference between the refrigerant temperature and the set temperature of the outdoor heat exchanger, and b is the constant.

In addition, the power supply voltage frequency may be set to distinguish 50Hz and 60Hz.

The maximum duty percentage of the outdoor fan is 100% and the minimum duty percentage is 40%.

In addition, the present invention includes a preset switch for setting the set temperature of the outdoor heat exchanger; A tilt switch for setting a tilt; A power supply voltage frequency switch for setting the power supply voltage frequency; A discharge temperature sensor for detecting a refrigerant temperature of the outdoor heat exchanger; An outdoor fan driver for driving the outdoor fan; A zero crossing input unit configured to give an external interrupt to phase control the outdoor fan; The main controller controls the outdoor fan drive unit by comparing the preset temperature by the input of the preset switch, the slope switch, and the power voltage switch with the refrigerant temperature of the outdoor heat exchanger, and calculating the rotation duty ratio of the outdoor fan according to the value. part; And a power supply unit filtering AC power to the main control unit and converting the AC power into a DC power supply to supply a voltage source.

Preferably, the main control unit rotates the outdoor fan at a maximum duty percentage when the refrigerant temperature of the outdoor heat exchanger is higher than the preset temperature, and reduces the outdoor fan rotation speed by the temperature difference when the refrigerant temperature is lower than the preset temperature. Is less than the minimum duty percent, characterized in that the outdoor fan is stopped.

The present invention compares the preset temperature by the preset switch input with the discharge temperature of the current outdoor heat exchanger. If the outdoor heat exchanger discharge temperature is high, the outdoor fan is driven at 100% duty percent and vice versa. If the temperature is lower than the set temperature, reduce the outdoor fan speed by the temperature difference. When the temperature difference becomes greater and the duty percentage becomes 40% or less, the operation of the outdoor fan is stopped.

As described above, the present invention compares the preset temperature with the discharge temperature of the outdoor heat exchanger in the cooling operation under the outdoor low temperature condition, and varies the rotation speed of the outdoor fan according to the temperature difference to match the heat exchange ability between the indoor and outdoor air to make the cooling operation more efficient. To control.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention will be described in detail.

1 is a block diagram for explaining a cooling operation control method of an air conditioner according to the present invention.

As shown in FIG. 1, the present invention provides a preset switch 20 for setting a set temperature of an outdoor heat exchanger, a tilt switch 30 for setting a slope, and a power voltage frequency switch for setting a power supply voltage frequency. 70 is provided.

A discharge temperature sensor 10 for detecting a refrigerant temperature of the outdoor heat exchanger, an outdoor fan driver 50 for driving an outdoor fan, and a zero crossing input unit 60 for providing an external interrupt to phase control the outdoor fan. ).

In addition, the preset temperature by the input of the preset switch 20, the slope switch 30 and the power supply voltage frequency switch 70 is compared with the refrigerant temperature of the outdoor heat exchanger, and the rotational duty of the outdoor fan according to the value thereof. Comprising a main controller 40 for controlling the outdoor fan drive unit 50 by calculating the percentage.

In addition, the main control unit 40 is provided with a power supply unit 80 for supplying a voltage source. The power supply unit 80 includes a noise filter 81, a power transformer 82 for converting AC to DC, and a DC output unit 83 for generating a DC voltage by a smoothing capacitor through a bridge circuit.

In particular, the zero crossing input unit 60 is a part necessary for phase control of the outdoor fan motor. When zero crossing is input, the zero crossing input unit 60 is inputted as an external interrupt, which is a function of the microcomputer, and calculated by the microcomputer according to the discharge temperature of the outdoor heat exchanger lower than the preset temperature. The duty percentage of the rotational speed of the outdoor fan is calculated as the slope value, and the calculated duty percentage is calculated by dividing 60 Hz and 50 Hz into the time domain to calculate the turn on time of the triac.

The outdoor fan driving unit includes a triac and a peripheral passive element, and the calculated data sets the triac turn-on time after the zero crossing in the microcomputer to turn on the triac to drive the outdoor unit motor in phase control.

In addition, the switch input unit may be divided into a switch indicating a preset temperature and a slope indicating an outdoor fan control. For example, a combination of four switches represents 16 preset temperature switches and 16 gradients, respectively. These switch conditions can be expanded or reduced.

The present invention configured as described above increases the outdoor fan speed when the discharge temperature is higher than the set temperature according to the discharge temperature of the outdoor heat exchanger, and conversely, when the temperature of the outdoor heat exchanger is lower than the set temperature, the outdoor fan speed is lowered or the outdoor temperature is increased. Has logic to turn off fan operation. For example, the logic of the present invention will be described.

2 is a flowchart illustrating a cooling operation control method for an air conditioner according to the present invention.

As shown in FIG. 2, the present invention receives a set temperature and a slope and a power supply voltage frequency of an outdoor heat exchanger and detects a refrigerant temperature of the outdoor heat exchanger (S10).

Then, the refrigerant temperature and the set temperature of the detected outdoor heat exchanger are compared (S20).

At this time, if the refrigerant temperature of the outdoor heat exchanger is greater than the set temperature, the rotation speed of the outdoor fan is rotated to 100%, which is the maximum duty percentage (S30), and if the refrigerant temperature of the outdoor heat exchanger is smaller than the set temperature, according to the temperature difference The outdoor fan is rotated by calculating the duty cycle percentage of the outdoor fan (S40).

Subsequently, it is compared whether the rotation speed of the outdoor fan is smaller than the minimum duty percentage (S50).

Here, if the rotation speed of the outdoor fan is less than the minimum duty percentage, the outdoor fan is stopped (S60). When the rotation speed of the outdoor fan is greater than the minimum duty percentage, the method returns to detecting the refrigerant temperature of the outdoor heat exchanger.

In particular, the calculation of the duty cycle percentage of the outdoor fan first calculates the slope with respect to the slope switch input, and according to the gradient value and the refrigerant temperature and the set temperature difference of the outdoor heat exchanger, The rotational duty percentage is calculated, and the rotational duty percentage of the outdoor fan is calculated in the time domain according to the input value of the power voltage frequency to calculate the turn-on time of the outdoor fan driver. Here, the mathematical linear function is Y = ax + b, Y is the rotational duty percentage of the outdoor fan, x is the slope, a is the refrigerant temperature and set temperature difference of the outdoor heat exchanger, b is a constant.

For example, when the present invention is described in more detail, if the preset switch is 31 ° C., the inclination switch is located at 8, and the temperature of the outdoor heat exchanger is 24 ° C., the slope of zero of the inclination switch is first obtained. As an example of setting the slope, if the outdoor fan speed is 100% maximum, 40% minimum, and the horizontal temperature of the outdoor heat exchanger is -0.5 ° C step and the maximum -17 ° C, the slope is (100% -40%) / ((- 0.5 ° C.) − (− 17.5 ° C.)) = 3.52.

This slope 3.52 is obtained from the function of Y = ax + b, and the value of b is the Y-intercept, and the value of b is the Y-intercept by multiplying the horizontal temperature step -0.5 ° C and the slope 3.52. Y intercept (b) is b = Y-ax, where 101.76 = 100%-(-0.5 x 3.52).

Next, if the duty percentage representing the rotational speed of the outdoor fan motor is obtained, and the preset temperature is 31 ° C and the discharge temperature of the outdoor heat exchanger currently input to the microcomputer is 24 ° C, the temperature difference is -7 ° C = 24 ° C-31 ° C and 3.52 ×- 7 ° C. + b (101.76) = 77.12%. That is, the outdoor fan rotates at a speed duty percentage of 77.12%.

To apply 77.12% of the result to the actual outdoor fan motor, use the microcomputer timer count. In the present invention, 50 Hz is used. If the half cycle of 50Hz is expressed as time, it is 10mSec and multiplies by 10 to remove the decimal point. For reference, the half cycle of 60Hz is 8.33mSec, and multiply by 10 to eliminate the decimal point.

The timer is calculated as (100% -77.12%) x 100 (half cycle of 50Hz) = 2288. This 2288 value becomes the outdoor fan control value. After receiving zero crossing as an external interrupt, the timer is used to turn on the triac after 2288uSec.

If the outdoor heat exchanger discharge temperature is equal to or higher than the preset temperature of 31 degrees, the outdoor fan rotates at maximum, and if it is small, the outdoor fan temperature will decrease gradually as calculated by the above formula. If the difference between the temperature and the preset temperature is -19 ℃ or less, the outdoor fan is turned off.

The present invention compares the preset temperature by the preset switch input with the discharge temperature of the current outdoor heat exchanger. If the outdoor heat exchanger discharge temperature is high, the outdoor fan is driven at 100% duty percent and vice versa. If the temperature is lower than the set temperature, reduce the outdoor fan speed by the temperature difference. When the temperature difference becomes greater and the duty percentage becomes 40% or less, the operation of the outdoor fan is stopped.

As described above, the present invention compares the preset temperature with the discharge temperature of the outdoor heat exchanger in the cooling operation under the outdoor low temperature condition of the air conditioner, and adjusts the heat exchange capacity between the indoor and outdoor air by varying the rotation speed of the outdoor fan according to the temperature difference. The cooling operation can be controlled more efficiently.

Claims (7)

Receiving a set state of a set temperature and a slope and a power supply voltage frequency of the outdoor heat exchanger; Detecting a refrigerant temperature of the outdoor heat exchanger; Comparing a refrigerant temperature and a set temperature of the detected outdoor heat exchanger; If the refrigerant temperature of the outdoor heat exchanger is greater than a predetermined temperature, rotating the rotation speed of the outdoor fan at a maximum duty percentage; Calculating a duty cycle percentage of the outdoor fan according to the temperature difference when the refrigerant temperature of the outdoor heat exchanger is smaller than a set temperature; Rotating the outdoor fan by the calculated duty cycle percentage of the outdoor fan; Comparing the rotational speed of the outdoor fan to be less than a minimum duty percentage; Stopping the outdoor fan if the rotation speed of the outdoor fan is less than a minimum duty percentage; Returning to detecting the refrigerant temperature of the outdoor heat exchanger if the rotation speed of the outdoor fan is greater than a minimum duty percentage; Cooling operation control method for an air conditioner characterized in that it comprises a. The method of claim 1, Calculating the rotational duty percentage of the outdoor fan Calculating a slope with respect to the slope switch input; Calculating a rotational duty percentage of the outdoor fan output by the mathematical linear function according to the gradient value and the difference between the refrigerant temperature and the set temperature of the outdoor heat exchanger; Calculating a turn-on time of the outdoor fan driver by calculating a duty cycle percentage of the outdoor fan in a time domain according to an input value of a power voltage frequency; Cooling operation control method for an air conditioner characterized in that it comprises a. The method of claim 2, The mathematical linear function control method of the cooling operation of the air conditioner, characterized in that Y = ax + b. (Where Y is the duty cycle percentage of the outdoor fan,          x: slope,          a is the difference between the refrigerant temperature and the set temperature of the outdoor heat exchanger,          b is a constant.) The method of claim 2, Cooling operation control method of the air conditioner, characterized in that the power voltage frequency can be set to distinguish 50Hz and 60Hz. The method of claim 1, And the maximum duty percentage of the outdoor fan is 100% and the minimum duty percentage is 40%. A preset switch for setting a set temperature of the outdoor heat exchanger; A tilt switch for setting a tilt; A power supply voltage frequency switch for setting the power supply voltage frequency; A discharge temperature sensor for detecting a refrigerant temperature of the outdoor heat exchanger; An outdoor fan driver for driving the outdoor fan; A zero crossing input unit configured to give an external interrupt to phase control the outdoor fan; The main keyword for controlling the outdoor fan driving unit by comparing the preset temperature by the input of the preset switch, the slope switch and the power voltage switch with the refrigerant temperature of the outdoor heat exchanger, and calculating the rotation duty ratio of the outdoor fan according to the value. part; And A power supply unit filtering AC power to the main control unit and converting the AC power into a DC power supply to supply a voltage source; Cooling operation control device of the air conditioner, characterized in that consisting of. The method of claim 6, The main control unit rotates the outdoor fan at the maximum duty percent when the refrigerant temperature of the outdoor heat exchanger is higher than the preset temperature, and decreases the outdoor fan rotation by the temperature difference when the refrigerant temperature is lower than the preset temperature, and the temperature difference is the minimum duty percent. Cooling operation control device for an air conditioner characterized in that the outdoor fan is stopped when the following.

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