KR20110015957A - Air conditioner - Google Patents

Abstract

PURPOSE: An air-conditioner, which easily can control a switch element of a converter, is provided to reduce power loss by switching the switch elements by reducing the switching frequency of the switch element using an inductor for low frequency. CONSTITUTION: An air-conditioner comprises a rectifier(110), a converter(120), and a controller(140). The rectifier rectifies the inputted AC voltage to the rectifying voltage. The converter comprises an inductor and a switch element. The inductor abandons the input voltage according to the rectifying voltage. The switch element outputs the DC link voltage about the input current.

Description

Air Conditioner

The present invention relates to an air conditioner, and more particularly, to an air conditioner that is easy to control a switch element of a converter with on and off signals by using hysteresis control so that a phase of an input current is followed by a phase of an input AC voltage. It is about.

An air conditioner is a device that keeps indoor air in a state most suitable for use and purpose. For example, it is controlled to cool in summer, heated in winter, and also to control the humidity of the room, and to adjust the air in the room to a comfortable clean state. like this

With the increasing use of convenience products such as air conditioners, many countries and organizations have standardized the use of products in various ways. This is to minimize the energy consumption due to the convenience product, to increase the energy use efficiency, to minimize the occurrence of environmental pollution due to the use of the product.

In this way, the inverter air conditioner improves cooling / heating ability while increasing energy use efficiency. The inverter air conditioner drives a compressor which is a driving force of the air conditioner by a frequency control method. In particular, recently installed windows

Various types of air conditioners such as type, slim type, and separate type divided into indoor unit and outdoor unit are realized, and convenience of use and installation are being met to meet the requirements of consumers.

An object of the present invention is to provide an air conditioner that is easy to control a switch element of a converter with on and off signals by using hysteresis control so that the phase of the input current is followed by the phase of the input AC voltage.

The air conditioner of the present invention includes a rectifier for rectifying the input AC voltage into a rectified voltage, an inductor for inducing an input current according to the rectified voltage, and a switching device for switching a DC link voltage to the input current. The hysteresis voltage of the first level is varied by comparing the converter and the dc link voltage with the set dc reference link voltage, and the hysteresis voltage of the second level is varied by comparing the previous power factor and the reference power factor, and the first and second levels are changed. And a control unit for controlling the switch element such that the phase of the input current is located therebetween.

The air conditioner of the present invention uses a low frequency inductor to lower the switching frequency of the switch element, thereby reducing the power loss caused by the switching of the switch element and thus the EMI.

In addition, the air conditioner of the present invention has the advantage that the power factor is increased by allowing the phase of the input current to follow the phase of the AC voltage.

The configuration and operation of the air conditioner of the present invention will be described in more detail with reference to the accompanying drawings.

1 is a schematic view showing an air conditioner according to the present invention.

Referring to FIG. 1, the air conditioner 50 is largely divided into an indoor unit I and an outdoor unit O.

The outdoor unit O includes a compressor 2 serving to compress the refrigerant, a compressor electric motor 2b for driving the compressor, an outdoor side heat exchanger 4 serving to radiate the compressed refrigerant, and an outdoor unit. An outdoor blower 5 disposed on one side of the heat exchanger 4 and including an outdoor fan 5a for promoting heat dissipation of the refrigerant and an electric motor 5b for rotating the outdoor fan 5a, and an expansion for expanding the condensed refrigerant; The mechanism 6, the cooling / heating switching valve 10 for changing the flow path of the compressed refrigerant, and the accumulator 3 for temporarily storing the gasified refrigerant to remove moisture and foreign matter and then supplying a refrigerant of a constant pressure to the compressor. And the like.

The indoor unit (I) is disposed in the room to perform a cooling / heating function of the indoor side heat exchanger (9), and the indoor fan (9a) and the room disposed on one side of the indoor side heat exchanger (9) to promote heat dissipation of the refrigerant. And an indoor blower 9 made of an electric motor 9b for rotating the fan 9a.

At least one indoor side heat exchanger (9) may be installed. The compressor 2 may be at least one of an inverter compressor and a constant speed compressor.

In addition, the air conditioner 50 may be configured as a cooler for cooling the room, or may be configured as a heat pump for cooling or heating the room.

On the other hand, the motor in the motor drive device of the air conditioner according to an embodiment of the present invention can be each of the motor (2b, 5b, 9b) to operate the outdoor fan, compressor or indoor fan of the air conditioner, shown in the figure have.

Meanwhile, although FIG. 1 illustrates one indoor unit (I) and one outdoor unit (O), the driving device of the air conditioner according to the embodiment of the present invention is not limited thereto, and includes a plurality of indoor units and outdoor units. Applicable to the air conditioner, an air conditioner having a single indoor unit and a plurality of outdoor units, of course.

2 is a circuit diagram illustrating a control device of an air conditioner according to a first embodiment of the present invention.

2, the control device includes a rectifier 110, a converter 120, a booster 130, and a controller 140.

The rectifier 110 includes a bridge diode for rectifying the AC voltage Vac supplied from the power supply unit AC to the rectified voltage Vdc.

In this case, the converter 120 is connected to the output terminal of the rectifying unit 110, the inductor (L) for inducing the input current (Idc) according to the rectified voltage (Vdc), the input current (Idc) induced in the inductor (L) And a diode (D) for preventing a reverse voltage from being supplied to the switching element (Q) and the inductor (L) which are switched to output a dc link voltage (Vdc_link).

Here, the converter 120 is a PFC converter for power factor correction.

The inductor L preferably has a capacitance of 5 mH to 100 mH, because the switching frequency of the switch element Q can be lowered.

Here, the switch element Q is switched on and off according to the on (S_on) and the off signal (S_off) of the controller 140 so that the phase of the input current (Idc) is followed by the phase of the AC voltage (Vac). .

The switch element Q does not perform a switch operation by a conventional high speed switching method, that is, a PWM method, and switches according to the on signal S_on and the off signal S_off of the controller 140.

The booster 130 includes a capacitor C for boosting the dc link voltage Vdc_link.

Thereafter, the booster 130 supplies the boosted dc link voltage Vdc_link to a load terminal.

The controller further includes an output voltage detector A for detecting the dc link voltage Vdc_link and an input current detector B for detecting the input current Idc.

The controller 140 compares the dc link voltage Vdc_link with the set dc reference link voltage AVdc_link to vary the hysteresis voltage of the first level, and compares the previous power factor with the reference power factor to vary the hysteresis voltage of the second level. The switching operation is controlled by applying the on signal S_on and the off signal S_off to the switch element Q such that the phase of the input current Idc is positioned between the first and second levels.

That is, the controller 140 may include a power factor calculator 142 for calculating a power factor, a voltage variable unit 144 for varying the first and second level hysteresis voltages, and a phase of the input current Idc in the first level hysteresis. The switch control unit 146 outputs the on signal S_on to the switch element Q when the voltage is reached, and outputs the off signal S_off to the switch element Q when the hysteresis voltage of the second level is reached. Include.

The power factor calculation unit 142 calculates a power factor every cycle of the AC voltage Vac, compares the previous power factor with the reference power factor, calculates the number of switching of the switch element Q, and transfers it to the voltage variable unit 144. .

Here, the voltage variable part 144 lowers the hysteresis voltage of the first level when the dc link voltage Vdc_link supplied from the output voltage detector A is less than the dc reference link voltage AVdc_link, and the dc link voltage Vdc_link. If the dc reference link voltage AVdc_link or more, the hysteresis voltage of the first level is increased. If the previous power factor is less than the reference power factor, the hysteresis voltage of the second level is increased. If the previous power factor is equal to or greater than the reference power factor, the first power factor is increased. Lower the hysteresis voltage of two levels.

In this case, the hysteresis voltage of the second level may be lower than or the same as the hysteresis voltage of the first level.

That is, the voltage variable part 144 may increase the power factor according to the number of times of switching on and off of the switch element Q, that is, by changing the hysteresis voltages of the first and second levels.

Thereafter, the switch controller 146 calculates the number of switches based on the hysteresis voltages of the first and second levels to generate and output an on signal S_on and an off signal S_off for the switch element Q.

3 is a timing diagram showing an input current of an air conditioner according to the present invention.

Referring to FIG. 3, the phase of the input current Idc is positioned between the hysteresis voltages level_1 and level_2 of the first and second levels and follows the AC voltage Vac.

That is, the controller 140 transmits the on signal S_on to the switch element Q such that the input current Idc reaches the hysteresis voltage level_1 of the first level.

Subsequently, when the input current Idc reaches the hysteresis voltage level_1 of the first level, the controller 140 turns off the signal S_off to the switch element Q such that the hysteresis voltage level_2 of the second level is reached. To pass.

Referring to FIG. 3, although one period of the AC voltage Vac is shown, the phase of the input current Idc may be controlled only during the half period.

Here, the hysteresis voltages (level_1, level_2) of the first and second levels are varied by the control unit 140 for each set period of the AC voltage (Vac), and the number of switching of the switch element (Q) is reduced according to the power factor and the reference power factor. You can increase me or

While the above has been shown and described with respect to preferred embodiments of the invention, the invention is not limited to the specific embodiments described above, it is usually in the technical field to which the invention belongs without departing from the spirit of the invention claimed in the claims. Various modifications can be made by those skilled in the art, and these modifications should not be individually understood from the technical spirit or prospect of the present invention.

1 is a schematic view showing an air conditioner according to the present invention.

2 is a circuit diagram illustrating a control device of an air conditioner according to a first embodiment of the present invention.

3 is a timing diagram showing an input current of an air conditioner according to the present invention.

Claims (9)

A rectifier for rectifying the input AC voltage into a rectified voltage; A converter including an inductor for inducing an input current according to the rectified voltage and a switching element for switching a dc link voltage for the input current; And The hysteresis voltage of the first level is varied by comparing the dc link voltage and the set dc reference link voltage, and the hysteresis voltage of the second level is varied by comparing the previous power factor and the reference power factor, and the hysteresis voltage is changed between the first and second levels. And a control unit for controlling the switch element so that the phase of the input current is located. The method of claim 1, And an output voltage detector detecting the dc link voltage. The method of claim 1, And an input current detector for detecting the input current. The method of claim 1, wherein the control unit, A power factor calculator for calculating a power factor; A voltage variable unit configured to vary the hysteresis voltages of the first and second levels; And A switch control unit outputting an on signal to the switch element when the phase of the input current reaches the hysteresis voltage of the first level, and outputting an off signal to the switch element when the hysteresis voltage of the second level is reached; Air Conditioner Included. The method of claim 4, wherein the voltage variable portion, An air conditioner increasing the hysteresis voltage of the first level if the dc link voltage is less than the dc reference link voltage, and lowering the hysteresis voltage of the first level if the dc link voltage and the dc reference link voltage are equal to or greater. . The method of claim 4, wherein the voltage variable portion, And if the previous power factor is less than the reference power factor, increase the hysteresis voltage of the second level, and if the previous power factor is greater than or equal to the reference power factor, reduce the hysteresis voltage of the second level. The hysteresis voltage of claim 2, wherein And an air conditioner lower than or equal to the first level of hysteresis voltage. The method of claim 1, wherein the inductor, Air conditioner, characterized in that 5mH to 100mH. The method of claim 1, And a booster configured to boost the dc link voltage and output the boosted voltage to a load.

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