KR101578355B1 - Air-conditioner and method - Google Patents

Abstract

The present invention relates to an air-conditioner and a control method thereof. The air-conditioner comprises: a power part, a voltage detection part, a driving part, and a control part. The power part receives power from a connected power generator and rectifies and levels the power to supply direct current power. The voltage detection part measures the voltage of the direct current power of the power part. The driving part controls the drive of a compressor and an outdoor fan. The control part recognizes a drive mode with respect to the power of the generator to set a mode of the generator, determines the load state of the power of the generator corresponding to the voltage measured by the voltage detection part, and controls the outdoor fan to be operated when the power of the generator is in a non-load state. The load state of the provided power is determined such that the drive is controlled. Therefore, when the supplied input power is in the non-load state, an inflow of high voltage is prevented such that damage to a product due to an inflow of high voltage can be prevented, thereby improving reliability and stability of the product.

Description

[0001] Air conditioner and method [0002]

The present invention relates to an air conditioner and a control method thereof, and more particularly, to an air conditioner and a control method thereof for detecting a load state of a power source supplied to an air conditioner to prevent a high voltage from flowing into the air conditioner.

The air conditioner is installed to provide a comfortable indoor environment for humans by discharging cold air to the room to adjust the room temperature and purify the room air to create a pleasant indoor environment. Generally, the air conditioner includes an indoor unit which is constituted by a heat exchanger and installed in a room, and an outdoor unit which is constituted by a compressor, a heat exchanger and the like and supplies the refrigerant to the indoor unit.

Such an air conditioner is controlled by being separated and controlled by an indoor unit constituted by a heat exchanger, an outdoor unit constituted by a compressor, a heat exchanger and the like, and operated by controlling a power source supplied to a compressor or a heat exchanger. Also, at least one indoor unit may be connected to the outdoor unit, and the air conditioner is operated in the cooling or heating mode by supplying the refrigerant to the indoor unit according to the requested operation state.

When the liquid refrigerant of high temperature and high pressure is supplied from the compressor of the outdoor unit to the indoor unit through the heat exchanger of the outdoor unit during the cooling operation, the refrigerant expands and vaporizes in the heat exchanger of the indoor unit, When the temperature of the air is lowered and the indoor fan is rotated, the cool air is discharged into the room. When the gas refrigerant of high temperature and high pressure is supplied to the indoor unit from the compressor of the outdoor unit during the heating operation, the gas refrigerant of high temperature and high pressure is liquefied in the heat exchanger of the indoor unit The air warmed by the released energy is discharged to the room according to the operation of the indoor fan.

In such an air conditioner, since the refrigerant is circulated by driving the compressor and the cold air is discharged through heat exchange of the refrigerant, stable driving of the compressor can be an important issue.

In an environment where the commercial power is not stably supplied, the air conditioner is continuously operated even if the voltage of the supplied power source is low, or when a power source having a large voltage fluctuation is supplied due to irregular waveform of the power source such as a generator, There is a difficult problem. Generally used generators are low capacity generators, and the supplied power supply is also unstable operating power with severe voltage fluctuation.

Particularly, in order to start the compressor, a high starting current is required. However, when the supplied power is low voltage or power is supplied from a small capacity generator, even if the compressor starts normally, And there is a problem that the cooling and heating efficiency is also lowered.

On the other hand, when such a generator, which is a problem of a low voltage and an unstable power source, is in a no-load state, there is a problem that a high voltage is introduced into the air conditioner due to the excitation of the generator, thereby damaging the components of the air conditioner.

An object of the present invention is to provide an air conditioner and a control method thereof that can prevent a component from being damaged due to a high voltage by controlling operation even when a high voltage flows in a no-load state by sensing a load state of an input power source.

An air conditioner according to the present invention includes: a power unit for supplying power to a connected generator, rectifying and smoothing the supplied power to supply DC power; A voltage sensing unit for measuring a voltage of the DC power supply of the power supply unit; A driving unit for controlling driving of the compressor and the outdoor fan; And a control unit for setting a generator mode by recognizing an operation mode of the generator power source and determining a load state of the generator power source in accordance with the voltage measured by the voltage sensing unit, And a control unit for controlling the fan to operate. The control unit receives the voltage periodically from the voltage sensing unit, and controls the outdoor fan to stop after the operation according to the magnitude of the voltage. The control unit may determine that the generator power is in a no-load state when the voltage is equal to or greater than a set value that is set within a range of an allowable input voltage of the power source unit. After the outdoor fan operation, Wherein the control unit controls the outdoor fan to stop operating when the voltage falls below a second set value lower than the set value, and the set value corresponds to the capacity of the capacitor provided in the DC link of the power unit, Capacity, the second set value is set to be lower than the set value, and the air conditioner is set to a minimum voltage capable of maintaining the operation state.

According to another aspect of the present invention, there is provided a control method for an air conditioner, comprising: setting a generator mode by recognizing an operation mode of an input power source; Measuring a voltage periodically from the power source to determine a load state of the generator power source; Determining that the generator power is in a no-load state when the voltage is greater than or equal to a set value that is set within an acceptable input voltage range when the load state is determined; Operating an outdoor fan serving as a load to the generator power when the generator power is in a no-load state; Stopping the outdoor fan when the measured voltage is less than a second set value lower than the set value before the set time elapses after the outdoor fan operation; Stopping the operation when the outdoor fan operates for a predetermined time; Remeasuring the voltage; And operating the outdoor fan again when the generator power is no-load corresponding to the re-measured voltage. The method of claim 1, further comprising: operating the outdoor fan in response to a voltage of the capacitor And the second set value is set to a minimum voltage which is lower than the set value and which allows the air conditioner to maintain the operation state.

According to the air conditioner and the control method of the present invention configured as described above, by controlling the operation state of the supplied power source by determining the load state of the supplied power source, a high voltage is input when the input power source to be supplied is a no- Thereby preventing the damage of the product and improving the reliability and stability of the product.

1 is a view showing a configuration of an air conditioner according to the present invention.
2 is a view showing an air conditioner and a power supply according to the present invention.
3 is a block diagram showing the control arrangement of the air conditioner unit according to the present invention.
4 is a block diagram showing a configuration according to the operation control of the air conditioner of the present invention.
5 is a diagram for describing an operation frequency control for power consumption control of the air conditioner according to the present invention.
FIG. 6 is a diagram illustrating a change in power consumption according to the mode setting of the air conditioner according to the present invention.
FIG. 7 is a graph illustrating power consumption and operating frequency according to the mode setting of the air conditioner according to the present invention.
FIG. 8 is a view illustrating a voltage change of the air conditioner in a no-load state according to the present invention.
9 is a flowchart showing a control method of the air conditioner according to the present invention.
10 is a graph showing changes in voltage of the air conditioner according to the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention, and the manner of achieving them, will be apparent from and elucidated with reference to the embodiments described hereinafter in conjunction with the accompanying drawings. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art. To fully disclose the scope of the invention to those skilled in the art, and the invention is only defined by the scope of the claims. Like reference numerals refer to like elements throughout the specification.

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

1 is a view showing a configuration of an air conditioner according to the present invention. Referring to FIG. 1, the air conditioner includes an indoor unit 1 and an outdoor unit 2. It also includes a remote control 3 for inputting a control command to the indoor unit 1.

In addition, in the room where the air conditioner is installed, other home appliances other than the air conditioner are provided. For example, in the case of a home, a washing machine, a lamp, a refrigerator, and a television. And a household electric appliance such as a fan.

At this time, the household appliances and the air conditioner operate by receiving either the power generated from the power generation units 21, 22, or 23, that is, the power from the commercial power source 20 and the power generated from the generator 10.

In addition, when a plurality of home appliances are provided and connected to a power source, particularly, when a plurality of home appliances are connected to the generator 10, a switch (for example, 30 may be further provided. In this case, since the capacity of the generator is limited, when the connected load, that is, the number of household appliances, is plural, it can not supply power to all household appliances. In some cases, the switch 30 may select one of the commercial power supply and the generator power to be supplied to the household appliance as well as select the load.

At this time, the type of household appliance or the number of household appliances that can be connected to the generator varies depending on the capacity of the generator. For example, generators for household use have a small capacity of about 600 to 1 Kwh. The generator may be overloaded when the air conditioner is connected or a plurality of household appliances are connected and operated at the same time.

Accordingly, when the air conditioner is connected to the generator 10, the air conditioner reduces the power consumption of the generator by reducing the power consumption corresponding to the voltage of the power supplied from the generator. At this time, the air conditioner sets the operation mode to the generator mode, and controls the operation of the air conditioner according to the power consumption to be calculated. The generator mode can be automatically set by recognizing the generator power from the input power source, or can be set corresponding to the data input through the remote control 3 or the input means.

Further, the air conditioner operates in the generator mode to control the operation according to the power consumption, and controls the operation by determining whether the generator is overloaded in accordance with the voltage of the power source input from the generator. That is, the air conditioner controls the operation in accordance with whether or not the generator is overloaded within the range of the set power consumption.

2 is a view showing an air conditioner and a power supply according to the present invention.

2, the air conditioner includes an indoor unit 1 for discharging air into the room and an outdoor unit 2 for supplying the refrigerant, and includes a remote controller 3 for transmitting a control command to the indoor unit 1 do. At this time, not only the indoor unit and the outdoor unit are connected by the refrigerant piping but also by the communication line and the power line.

The air conditioner can be connected to the commercial power supply 20 (A) or connected to the generator 10 (B). When the switch 30 is provided, it can be connected to either the commercial power supply 20 or the power supply of the generator 10 through a switch operation, and the connected power supply can be switched. When the indoor unit or the outdoor unit is connected to the power source, the air conditioner is supplied power to the other unit through the connected power source line.

At this time, the air conditioner is explained as an example in which one indoor unit 1 is connected to the outdoor unit 2 and the indoor unit is a wall-mounted type or frame type. However, the indoor units can be connected to the outdoor unit in plural, Stand type, wall type, and the like. In addition, the outdoor unit and the indoor unit may be combined to form a single body. The figure shows that the air conditioner is not limited to the form of the air conditioner.

The indoor unit 1 includes an expansion valve (not shown) for expanding the refrigerant supplied from the outdoor unit 2, an indoor heat exchanger (not shown), indoor air introduced into the indoor heat exchanger, (Not shown), a plurality of sensors (not shown), and control means (not shown) for controlling the operation of the indoor unit. The indoor unit 1 includes a discharge port (not shown) for discharging the heat-exchanged air, and the discharge port is provided with a wind direction adjusting unit (not shown) for opening and closing the discharge port and controlling the direction of the discharged air. The indoor unit 1 controls the intake air and the discharged air by controlling the rotation speed of the indoor fan, and adjusts the air flow rate. In addition, the indoor unit 1 may further include human body sensing means for sensing a human body present in the indoor space.

The outdoor unit (2) operates in a cooling mode or a heating mode according to the demand of the connected indoor unit (1) to supply the refrigerant to the indoor unit.

The outdoor unit 2 includes at least one compressor (not shown) for compressing the refrigerant introduced therein and discharging the gas refrigerant at a high pressure, a gas cooler for separating the gas refrigerant and the liquid refrigerant from the refrigerant, An oil separator (not shown) for recovering oil from the refrigerant discharged from the compressor, an outdoor heat exchanger (not shown) for condensing or evaporating the refrigerant by heat exchange with the outside air, an outdoor heat exchanger An outdoor fan (not shown) for introducing air into the outdoor heat exchanger and discharging the heat-exchanged air to the outside, a four-way valve (not shown) for changing the flow path of the refrigerant according to the operation mode of the outdoor unit, At least one pressure sensor (not shown), and at least one temperature sensor (not shown) for measuring the temperature. The outdoor unit further includes a plurality of sensors, valves, supercooling units and the like, and a description thereof will be omitted below.

The remote controller 3 includes input means such as at least one button, a switch, and a touch pad, and transmits data on the operation settings of the air conditioner to the indoor unit 1. [ At this time, the remote controller 3 transmits data through a wireless communication system. And may be wired through a communication line in some cases.

As the input means is operated, the remote controller 3 transmits the input data to the indoor unit, and displays the operation information set in the indoor unit. Further, the remote controller 3 can measure and display the room temperature.

The remote controller 3 may be provided with a plurality of buttons or switches as input means, and may be equipped with a touch input means such as a touch pad as the case may be. At this time, the remote controller 3 is provided with a key for the operation mode setting and a generator mode key during the operation setting of the air conditioner so that data corresponding to the generator mode key is transmitted to the indoor unit 1 so that the indoor unit is set to the generator mode do.

3 is a block diagram showing the control arrangement of the air conditioner unit according to the present invention.

3, the air conditioner includes a power unit 120, a driving unit 130, a voltage sensing unit 140, a sensing unit 150, a data unit 160, an input unit 170, a display unit 180, And a controller 110 for controlling overall operations.

The control arrangement of the air conditioner can be applied to both the indoor unit and the outdoor unit. However, in the case of the outdoor unit, the compressor and the outdoor fan are driven by the driving unit, and the indoor fan is operated by the driving unit of the indoor unit. In some cases, the operating power may be supplied to either the outdoor unit or the indoor unit, converted from the power unit, and then supplied through the power line. The indoor unit may further include a communication unit for receiving data from the remote control 3. [

The communication unit receives data on the operation setting from the remote controller 3 and applies it to the control unit 110. [ At this time, depending on the type or the communication method of the remote control 3, the communication unit not only receives the data of the remote control 3, but also can transmit the data to the remote control 3 in accordance with the control command of the control unit 110. [

The power supply unit 120 rectifies the power supplied to the air conditioner and supplies operating power to the respective units. The power supply unit 120 rectifies the three-phase AC power, smoothes it, and converts it into DC power.

The voltage sensing unit 140 measures a voltage supplied from the power supply unit 120 and inputs the measured voltage to the control unit 110. At this time, the voltage sensing unit 140 measures the magnitude of the smoothed DC voltage of the power supply unit 120.

The driving unit 130 reconverts the DC power of the power supply unit 120 and supplies the DC power to the compressor motor or the fan motor to operate the compressor and the fan. The driving unit 130 may include a compressor driving unit and an outdoor fan driving unit of an outdoor unit, and an indoor fan driving unit of an indoor unit.

The sensing unit 150 includes a plurality of sensors installed inside or outside the air conditioner. The sensing unit 150 includes a sensor for measuring temperature, pressure, voltage, current, and rotation speed, and inputs measured data to the control unit 110.

The input unit 170 includes at least one predetermined input means such as a button, a switch, and a touch pad. When the input unit 170 has a mutual layer structure with the display unit of the display unit 180, which will be described later, it may be referred to as a touch screen.

The input unit 170 inputs a predetermined signal to the control unit 110 as the input means is operated. The control unit 110 allows the input unit 170 to set the operation of the air conditioner according to the operation of the input means, and allows the air conditioner to start or end the operation. In some cases, the input unit 170 is provided with an operation mode setting key to input data according to the generator mode setting.

The display unit 180 includes display means for outputting numbers, characters, special characters or images. The display unit 180 outputs the operation setting for the operation mode, the temperature, the air volume, and the like of the air conditioner, and outputs the operation state of the air conditioner. Also, the display unit 180 displays the current temperature measured through the sensing unit 150.

In addition, the air conditioner may include a speaker or a buzzer for outputting a predetermined sound effect or a warning sound in addition to the display unit, and may include at least one lamp that indicates various status states according to whether the light is emitted, color, or blinking.

The data unit 160 stores control data for controlling the operation of the air conditioner and data for operating the air conditioner, and data measured through the operation sensing unit 150 is stored. The data unit 160 stores not only the operation setting but also the power consumption data calculated according to the operation mode data, the reference value set in the generator mode, the measured voltage, and the voltage.

The control unit 110 sets and controls the operation so that the air conditioner operates according to the data input through the remote controller 3 or the input unit 170 and outputs the operation status through the display unit 180. [ The control unit 110 controls the transmission and reception of mutual data in the outdoor unit and the indoor unit to operate according to the operation setting and controls the power consumption of the air conditioner to exceed the predetermined reference value in the generator mode setting according to the operation mode .

The control unit 110 determines the load state of the power supply corresponding to the voltage value detected and inputted from the voltage sensing unit 140. The supplied power source is a power source connected to the air conditioner to supply power to the air conditioner, and may be a commercial power source or a generator that is supplied from a power station and supplied. In particular, when the air conditioner is connected to the generator, the controller 110 determines the load state of the generator in response to the sensed voltage value and controls the operation.

In particular, the control unit 110 determines whether the generator is in a no-load state with respect to the supplied power source, that is, the power source input from the generator. When the load of the input power source is unloaded, the control unit 110 may apply a high voltage to the power source unit 120, thereby controlling the operation to generate a load to the input power source.

The control unit 110 compares the sensed voltage with a set value and applies a control command to the driving unit 130. The driving unit operates the outdoor fan 190 in response to the control command.

When the generator mode is set, the controller 110 controls the power consumption calculated according to the voltage not to exceed the reference value, and also controls the operation of the air conditioner by determining the load state of the power supplied according to the voltage.

The generator mode is a mode in which the air conditioner can be continuously operated even when the power supplied to the air conditioner is low voltage, the voltage fluctuation is large, or the capacity of the generator is low, even with an unstable input power source. For example, when the air conditioner is connected to a small-capacity generator, it can be set when the power supplied is low voltage.

When the generator mode is set through the remote controller 3 or the input unit 170, the control unit 110 sets a reference value of the power consumption at about 60% to 80% based on the maximum power consumption value of the air conditioner, Control is performed so that the power consumption of the tuner is not exceeded by the reference value of the power consumption set. At this time, the reference value can be changed according to the capacity of the air conditioner and the maximum power consumption value.

In addition, the controller 110 can automatically set the generator mode by recognizing the generator power when the generator 110 is connected to the generator according to the characteristics of the input power source. For example, by analyzing the waveform of the electric field, it is possible to judge whether or not the generator is connected according to the total harmonic distortion (THD).

When the generator mode is set, the control unit 110 calculates the amount of power consumed by the air conditioner according to the capacity and load of the air conditioner corresponding to the voltage input through the voltage sensing unit 140, And controls so that the power consumption of the air conditioner does not exceed a predetermined reference value.

When the calculated power consumption rises, the controller 110 controls the driving unit 130 so as to reduce the operating frequency of the compressor to limit the increase of the power consumption. If the power consumption decreases, the operation frequency of the compressor increases, .

The controller 110 changes the maximum value of the operation frequency of the compressor, that is, the maximum operable frequency so that the compressor is prevented from operating at a frequency higher than the maximum operation frequency.

The control unit 110 controls the operation frequency of the compressor according to the power consumption as described above and determines the load state of the power source, that is, the generator power, corresponding to the measured voltage, So that the load acts when the power source is in a no-load state.

In this case, when the power source is unloaded, the fan 110 is driven to allow the new load to act on the power source, so that even if the power consumption due to fan driving increases, the power consumption calculated according to the voltage does not exceed the reference value , The operation is controlled so that a new load is applied to the power source.

4 is a block diagram showing a configuration according to the operation control of the air conditioner of the present invention. 4, the power supply unit 120 includes a power input unit 121, a rectifying unit 122, and a DC link unit 123.

The power source of the commercial power source 20 or the generator 10 is connected to the air conditioner and the power is supplied to the power input unit 121. The rectifying unit 122 rectifies the input power, the rectified power is smoothed by the DC link unit 123, and the input AC power is converted into DC power.

The driving unit 130 includes an inverter 131 for driving the compressor 191. And a first fan driving unit (not shown) for driving the outdoor fan 192 or the indoor fan 193. At this time, the compressor 191, the outdoor fan 192, and the indoor fan 193 act as a load to the power source.

The inverter 131 converts the rectified and smoothed DC power of the power supply unit 120 into AC power and supplies the AC power to the motor of the compressor 191 to operate the compressor.

The outdoor fan 192 is connected to the driving unit 130 and rotates as the motor is operated by the first fan driving unit. The outdoor fan (192) discharges the heat-exchanged air to the outside through the outdoor heat exchanger (194). In addition, the indoor fan 193 rotates as the motor is operated by the second fan driving unit, and the heat-exchanged air in the indoor heat exchanger 195 is discharged to the room.

The voltage sensing unit 140 measures the voltage of the DC link unit 123 and inputs the voltage to the control unit 110 (202).

The control unit 110 controls the driving unit 130 in accordance with the voltage of the DC link unit 123 since the voltage of the DC link unit 123 varies according to the load state of the power source.

The control unit 110 automatically recognizes the generator power or sets the generator mode in response to the data 206 received from the input unit or the remote control 3.

The control unit 110 controls the compressor 191 by applying a control command to the inverter 131 of the driving unit 130 corresponding to the amount of power calculated according to the voltage when the generator mode is set, Increase. The driving unit 130 changes the operating frequency of the compressor 191 in response to a control command of the controller 110 and causes the compressor to operate at a set operating frequency.

At this time, the inverter 131 controls the compressor 191 to operate at the initial operating frequency during the operation of the air conditioner, and controls the operation frequency to rise as the load increases. When the generator mode is set, the inverter 131 controls the operation frequency of the compressor not to increase further according to the control command of the controller 110, even if the load of the air conditioner increases. The control unit 110 controls the operation frequency of the compressor to be changed according to the amount of power to be calculated and applies the control command to the driving unit 130 so that the operation frequency of the compressor is maintained when the amount of power is within the predetermined value range.

The control unit 110 determines the load state of the power supply 10 or 20 corresponding to the voltage 202 of the DC link unit 123 while controlling the power consumption to not exceed the reference value as described above, The compressor 191, the outdoor fan 192, or the indoor fan 193 acting as a load is controlled (204) (205) to adjust the load on the power source.

The control unit 110 determines that the power supply is in a no-load state when the voltage of the DC link unit 123 rises above the set value because the voltage 202 of the DC link unit 123 varies depending on the load state of the power supply And controls the driving unit 130 to generate a load on the power source.

Accordingly, the driving unit 130 operates the outdoor fan 192, and a load is applied to the power source of the generator due to the outdoor fan operation. The indoor fan 193 can be operated in some cases. Therefore, the voltage of the DC link unit 123 is reduced.

At this time, the control unit 110 controls the operation frequency of the compressor 191 according to the load state of the power supply, and controls the operation frequency of the compressor within the range where the power consumption calculated according to the voltage does not exceed the reference value.

In addition, when the voltage of the DC link unit is not decreased even after the outdoor fan is operated, the controller 110 determines that the power supply unit 120 is damaged or the outdoor fan is abnormal, so that an error is output through the display unit 180 do.

5 is a diagram for describing an operation frequency control for power consumption control of the air conditioner according to the present invention.

Referring to FIG. 5, when setting the generator mode, the controller 110 sets a reference value for the power consumption based on the maximum power consumption of the air conditioner. For example, in the case of an air conditioner of 1 KW, the controller 110 can set 600 W to the reference value TG1.

The control unit 110 compares the set reference value with the calculated amount of power so as to control the amount of power not to exceed the reference value of 600 W. At this time, the controller 110 separately sets the second reference value TG2 so that the amount of power does not exceed the reference value. When the reference value (hereinafter referred to as the first reference value TG1) described above is 600W, the second reference value TG2 can be set to about 500W.

When the power consumption to be calculated is included in the first region A having the second reference value TG2 or less, the controller 110 increases the operation frequency of the compressor 191 without any limitation. When the operating frequency of the compressor 191 increases, the power consumption of the air conditioner is also increased (S11).

The control unit 110 calculates power consumption corresponding to the measured voltage and applies a control command to the driving unit so that the compressor is controlled when the calculated power consumption reaches the second reference value TG2. At this time, the driving unit 130 limits the operation frequency of the compressor to no longer increase according to the control command of the control unit 110. [

When the power consumption is included in the second region B between the first reference value TG1 and the second reference value TG2, the driving unit 130 maintains the operating frequency of the compressor 191.

On the other hand, when the power consumption is the first reference value TG1 or more, the operation frequency of the compressor is decreased so that the amount of power consumed is reduced (S12).

In the case where the operating frequency of the compressor 191 is reduced to reduce the power consumption, the cooling capacity also decreases, so that the controller 110 controls the operation frequency of the compressor to increase again when the power consumption falls within the first area A .

At this time, the control unit 110 changes the maximum value of the operation frequency of the compressor, that is, the maximum operation frequency that can be operated, in accordance with the power consumption so that the compressor is prevented from operating beyond the maximum operation frequency. Accordingly, the control unit 110 ensures that the power consumption of the air conditioning does not exceed the reference value.

On the other hand, when the operation frequency of the compressor decreases, the control unit 110 changes the input power, that is, the load state of the generator power. When the compressor is stopped and the air conditioner stops operating, the generator may become unloaded if no other equipment is connected to the generator or all other equipment connected is stopped.

When the generator is in a no-load state, an overvoltage is applied to the power supply unit 120 as described above. Therefore, when the generator mode is set, the controller 110 controls the load state of the generator And controls the operation of the air conditioner according to the load condition.

If it is determined that the input power source is a no-load state, the controller 110 applies a new load to the generator power source. At this time, since the operation of the compressor 191, the outdoor fan 192, and the indoor fan 193 acts as a load to the generator, the controller 110 controls the compressor 191, the outdoor fan 192, the indoor fan 193, At least one of them is operated to eliminate the no-load state of the power source. At this time, if the compressor 191 or the indoor fan 193 operates in the stopped air conditioner, the user can determine that the operation is abnormal. Therefore, the outdoor fan 192 is operated to control the load on the generator. The indoor fan 193 may be further operated. However, since the power consumption of the air conditioner is increased by the operation of the outdoor fan, the operation of the air conditioner is controlled within a range where the power consumption does not exceed the reference value according to the generator mode.

FIG. 6 is a diagram illustrating a change in power consumption according to the mode setting of the air conditioner according to the present invention.

6 (a) is a view showing a change in power consumption when the air conditioner is connected to a generator and performing a normal operation, and Fig. 6 (b) is a diagram showing a change in power consumption when the generator mode is set.

6A, since the capacity of the generator is limited when the air conditioner connected to the generator starts to operate, the generator is overloaded as the power consumption of the air conditioner increases, The harmonizer stops operating.

The air conditioner starts operation again after waiting for a predetermined time according to the protection circuit logic. However, since the capacity of the generator is still limited, the air conditioner is repeatedly started and then restarted. This phenomenon may cause the user to feel uneasy, cause the generator to fail, and possibly damage the air conditioner.

6B, when the generator mode is set as described above in the air conditioner connected to the generator, the controller 110 controls the operation frequency of the compressor of the air conditioner at the start of operation, The power consumption of the air conditioner is increased to a predetermined value according to the set reference value and then maintained at about 60% of the maximum power consumption (S2).

At this time, when the air conditioner is connected to a general commercial power source, when the air conditioner starts to operate, the compressor operates according to the operation setting and the power consumption increases with time. When the compressor is operated at maximum, the air conditioner maintains the maximum power consumption as shown (S1).

In the present invention, the power consumption of the air conditioner is limited to 60 to 80% of the maximum power consumption when the generator mode is set based on the maximum power consumption of the air conditioner in the normal operation.

FIG. 7 is a graph illustrating power consumption and operating frequency according to the mode setting of the air conditioner according to the present invention. FIG. 7 shows changes in the operating frequency and power consumption of the compressor according to the passage of time when the air conditioner is connected to the generator of 1 KWVA and the generator mode is set.

As shown in FIG. 7, when the air conditioner is connected to the generator and starts operation, the operation frequency S21 of the compressor rises. Accordingly, the power consumption S22 of the air conditioner also increases.

The control unit 110 sets a reference value (first reference value) 23 for power consumption as the generator mode is set. At this time, the reference value may be set at about 60 to 80% based on the maximum power consumption of the air conditioner.

At this time, the controller 110 sets the generator mode corresponding to the data of the remote controller 3 or the input unit. The control unit 110 may determine whether the power supplied to the air conditioner is a generator power or a commercial power through a separate sensing unit. When the generator power is supplied, the controller 110 can automatically set the generator mode in response to the sensing signal of the sensing means.

The controller 110 calculates the power consumption of the air conditioner corresponding to the voltage measured during operation and controls the calculated power consumption so as not to exceed the reference value.

As described above, when the power consumption calculated by setting the second reference value lower than the reference value exceeds the second reference value, the control unit 110 controls the operation frequency of the compressor 191 by applying a control command to the driving unit 130 .

When the power consumption is equal to or greater than the second reference value and less than the reference value S23 (the first reference value), the driving unit 130 maintains the current operating frequency of the compressor since it belongs to the second region B in FIG.

Accordingly, the operating frequency of the compressor is maintained at a constant value, and the power consumption does not exceed the set reference value although the value of the compressor is fluctuated due to the variation of the input voltage or the load.

Therefore, the air conditioner can be operated for a long time without stopping the operation, and the constant cooling ability can be maintained.

When the air conditioner is stopped in the standby state and the generator is in a no-load state, an overvoltage is applied to the air conditioner. Therefore, even if no operation command is input, the compressor 191, the outdoor fan 192, One is operated to act as a load to the generator. However, the new load is operated within a range in which the power consumption of the air conditioner does not exceed the reference value according to the generator mode described above.

FIG. 8 is a diagram illustrating a voltage change of the air conditioner in a no-load state according to the present invention. FIG.

As shown in Fig. 8, the voltage S61 and the input voltage S62 of the DC link portion 123 change with the lapse of time and the load state of the power source.

When the air conditioner is not operated while the air conditioner is connected to the power source, or when there is no other home appliance connected or does not operate, the power source is in a no-load state. In particular, in the case of a generator, since the supplied voltage is not constant, and the fluctuation is large and the distortion is large, when the voltage suddenly rises as shown in the no-load state, the air conditioner may be damaged.

The voltage suddenly rises due to no-load of the power source at the DC link part 123 in the air conditioner (T1). The input voltage S62 also rises. The voltage rises sharply and becomes the maximum voltage at the second time T2. At this time, the maximum voltage is about 520V, and the capacitor of the DC link part 123 may be overcharged and damaged.

The voltage of the DC link portion 123 which has been raised is lowered and the voltage of the outdoor fan is lowered in accordance with the operation of the compressor (S63). When the outdoor fan is operated (T3) and the compressor is driven (T4) And the voltage of the DC link portion change.

The voltage of the DC link unit 123 changes as the outdoor fan 192 and the compressor 191 act as a load to the generator that supplies power to the air conditioner.

The control unit 110 senses the voltage of the DC link unit 123 through the voltage sensing unit 140 and outputs a control command to the driving unit 130 when the voltage of the DC link unit 123 reaches a predetermined set value or more So that a new load is generated.

The driving unit 130 operates the outdoor fan 192 according to a control command. At this time, the driving unit 130 may operate the compressor 191 or the indoor fan 193. However, since the outdoor fan 192 operates in a state in which no separate operation command is inputted, the outdoor fan 192 is operated. The indoor fan 193 may be operated to operate in the air blowing mode.

Accordingly, the outdoor fan acts as a load to a power source in a no-load state, so that the voltage of the DC link unit 123 is prevented from rising sharply.

9 is a flowchart showing a control method of the air conditioner according to the present invention.

As shown in FIG. 9, the air conditioner is connected to the generator and is supplied with power, and the air conditioner is in a standby state before the operation setting or the command for starting the operation is inputted (S310).

At this time, the air conditioner is set to the generator mode when power is input from the generator. The control unit 110 can set the generator mode in response to the key input of the remote control 3 or the input unit. In some cases, the controller 110 may automatically recognize the operation mode through the waveform of the input power source and set the generator mode.

In a state where the generator mode is set, the voltage sensing unit 140 measures the voltage of the DC link unit 123 (S320), and inputs the voltage measured by the control unit 110. [

The controller 110 determines the load state of the generator based on the measured voltage. If the measured voltage is greater than a predetermined first set value (S330), the controller 110 determines that the input power source is in a no-load state, and otherwise determines the normal load state.

At this time, when the power source is in a no-load state, since a high voltage is applied to the DC link unit 123 of the power supply unit 120, it is preferable to set the set value in a range of voltages acceptable in the capacitors of the DC link unit. That is, the control unit 110 determines the load state so that the voltage does not rise any more at the time when a voltage that is acceptable to the capacitor of the DC link unit 123 is applied, and controls the operation of the air conditioner .

The control unit 110 applies a control command to the driving unit 130 and the driving unit 130 operates the outdoor fan 190 in response to the control command when it is determined that the input power source (S340). The air conditioner operates only the outdoor fan 192 in a state in which the compressor is not operated and can control the compressor 191 or the indoor fan 193 in some cases. When only the indoor fan 193 is operated, the fan operates in the blowing mode.

At this time, the control unit 110 controls the operation within a range in which the power consumption calculated according to the voltage does not exceed the reference value for the generator mode.

The voltage sensing unit 140 periodically measures the voltage of the DC link unit 123 and inputs the measured voltage to the control unit 110 (S350).

The controller 110 counts the time at which the outdoor fan 190 operates, and determines whether the outdoor fan has operated for more than the set time at step S360.

After the set time has elapsed after the operation of the outdoor fan 190, the controller 110 applies a control command to the driving unit 130 to stop the outdoor fan operation (S380).

If the voltage of the DC link unit 123 does not decrease below the first set value even after the outdoor fan 190 operates, the controller 110 may damage the power supply unit 120 or may damage the outdoor fan 192 It is determined that there is an error and an error is output. At this time, the error may be outputted through the display unit 180 or output as a predetermined warning sound, and the error data may be transmitted to the remote controller 3, and an error may be displayed through the remote controller 3.

If the preset time does not pass after the operation of the outdoor fan 192, the control unit 110 determines whether the voltage input from the voltage sensing unit 140 is less than the second set value (S370). At this time, the second set value is set to be lower than the first set value, and is set to a voltage at which the air conditioner can maintain operation.

If the measured voltage is less than the second set value before the set time has elapsed, the control unit 110 applies a control command to the driving unit 130 to stop the outdoor fan 192 from being operated (S380).

When the voltage of the DC link unit 123 decreases due to the operation of the outdoor fan 192, the voltage of the DC link unit 123 decreases and the air conditioner can not operate. Stop operation even if it has not been operated for the set time. Further, when the power consumption calculated according to the voltage rises, the outdoor fan 192 is controlled so as not to exceed the reference value.

After the outdoor fan 192 is stopped, the control unit 110 periodically receives the voltage from the voltage sensing unit 140. When the voltage becomes equal to or higher than the first set value (setting value), the control unit 110 determines that the power source is no- The fan is operated so that the voltage of the DC link unit 123 is reduced and the outdoor fan is repeatedly stopped after the set time operation.

In this way, the air conditioner measures the voltage of the DC link unit 123, determines the load state of the generator, which is the input power source, and determines whether the voltage is higher than a predetermined set value in order to prevent a high voltage from being applied to the air conditioner The outdoor fan 192 is operated to decrease the voltage of the DC link unit 123. When the outdoor fan 192 is operated for a predetermined time, the operation is stopped, and then the operation is controlled according to the voltage.

10 is a graph showing changes in voltage of the air conditioner according to the present invention.

As shown in FIG. 10, when the power supplied to the air conditioner, for example, the power supplied from the generator is in a no-load state, a high voltage is applied to the power source of the air conditioner as described above.

The control unit 110 sets the generator mode, receives the voltage of the DC link unit 123 from the voltage sensing unit 140, compares the received voltage with the set value, and determines the load state with respect to the input power source.

When the voltage S71 of the DC link unit 123 rises and exceeds the set value (the first set value) (T12), the control unit 110 applies a control command to the driving unit 130, Thereby allowing the fan 192 to operate. For example, the first set value is about 440V.

When the outdoor fan 192 is operated (T12), the voltage S72 of the outdoor fan rises and the input power source maintains a constant voltage. Since the operation of the outdoor fan 192 acts as a load to the input power source, the voltage S71 of the DC link unit 123 decreases. Further, since the outdoor fan 192 acts as a load of a predetermined size, the voltage of the DC link unit 123 is kept constant during the operation of the outdoor fan after the predetermined voltage is reduced.

The driving unit 130 stops operation after the outdoor fan 192 has been operated for a set time according to a control command of the controller 110 (T13). At this time, when the operation of the outdoor fan 190 is stopped (T13), the voltage applied to the outdoor fan 192 decreases and the input power source is again in a no-load state, and the voltage of the DC link unit 123 rises.

The control unit 110 applies a control command to the driving unit 130 to operate the outdoor fan 190 again when the voltage of the DC link unit 123 rises and reaches a set value (T14).

The control unit 110 determines the load state of the generator, which is the input power source, according to the magnitude of the voltage applied to the DC link unit 123 of the power supply unit 120, and operates the outdoor fan 192 for a predetermined time, So that the voltage of the DC link unit 123 is prevented from rising.

The controller 110 repeats the no-load determination of the input power source and the operation control operation of the outdoor fan according to the determination.

Therefore, the air conditioner determines the load state of the connected generator, and correspondingly, a load of a predetermined size is applied to the generator, thereby preventing damage to the product due to a high voltage unnecessarily applied to the generator.

The present invention is not necessarily limited to these embodiments, as all the constituent elements constituting the embodiment of the present invention are described as being combined and operated in one. Within the scope of the present invention, depending on the embodiment, all of the components may operate selectively in combination with one or more.

The foregoing description is merely illustrative of the technical idea of the present invention, and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention.

1: indoor unit 2: outdoor unit
3: Remote control
110: control unit 120:
123: DC link unit 130:
140: voltage detection unit 190: outdoor fan

Claims (18)

A power supply unit that supplies power to the connected generator and rectifies and smoothens it to supply DC power;
A voltage sensing unit for measuring a voltage of the DC power supply of the power supply unit;
A driving unit for controlling driving of the compressor and the outdoor fan; And
Wherein the control unit recognizes the operation mode of the generator to set the generator mode and determines the load state of the generator power according to the voltage measured by the voltage sensing unit. And a control unit for controlling the fan to operate,
Wherein the controller determines that the generator power is in a no-load state when the voltage is equal to or greater than a set value that is set within an allowable input voltage range of the power source unit,
Wherein the control unit controls the outdoor fan to repeatedly receive the voltage from the voltage sensing unit and to stop the operation of the outdoor fan corresponding to the magnitude of the voltage periodically, Controls the outdoor fan to stop operating when the temperature of the outdoor fan is lowered to a value lower than a second set value set lower than the set value,
The set value is set to be less than the capacity of the capacitor corresponding to the capacity of the capacitor provided in the DC link portion of the power supply unit,
Wherein the second set value is set to be lower than the set value and is set to a minimum voltage at which the air conditioner can maintain the operation state. delete The method according to claim 1,
Wherein the controller controls the compressor or the indoor fan to operate further when it is determined that the generator power is in a no-load state. The method according to claim 1,
Wherein the control unit controls the outdoor fan to stop operation after the outdoor fan operates for a set time. delete delete The method according to claim 1,
Wherein the control unit determines that an abnormality has occurred in the power supply unit and outputs an error when the voltage does not decrease below the set value after the outdoor fan operates for the set time. The method according to claim 1,
Wherein the control unit controls the outdoor fan to stop operation when the power consumption calculated from the voltage reaches a reference value for the generator mode before the set time elapses after the outdoor fan operation. . The method according to claim 1,
Wherein the control unit controls the operation such that the power consumption of the air conditioner calculated from the voltage does not exceed the reference value for the generator mode when the generator mode is set. 10. The method according to claim 8 or 9,
Wherein the control unit sets the reference value corresponding to the maximum power consumption of the air conditioner and calculates the power consumption by multiplying the voltage of the voltage sensing unit by a current and a power factor. The method according to claim 1,
Wherein the power unit comprises: a power input unit connected to the generator power;
A rectifier for rectifying the generator power;
And a DC link portion for smoothing the rectified power supply,
Wherein the voltage sensing unit measures the voltage of the DC link unit and inputs the measured voltage to the control unit. delete Recognizing an operation mode of an input power source and setting a generator mode;
Measuring a voltage periodically from the power source to determine a load state of the generator power source;
Determining that the generator power is in a no-load state when the voltage is greater than or equal to a set value that is set within an acceptable input voltage range when the load state is determined;
Operating an outdoor fan serving as a load to the generator power when the generator power is in a no-load state;
Stopping the outdoor fan when the measured voltage is less than a second set value lower than the set value before the set time elapses after the outdoor fan operation;
Stopping the operation when the outdoor fan operates for a predetermined time;
Remeasuring the voltage; And
And operating the outdoor fan again if the generator power is no-load corresponding to the re-measured voltage,
Setting the set value to less than the capacity of the capacitor corresponding to the capacity of the capacitor provided in the DC link portion of the power supply,
Wherein the control unit sets the second set value to a minimum value that is lower than the set value and allows the air conditioner to maintain the operation state. delete delete delete 14. The method of claim 13,
Further comprising the step of determining that an abnormality has occurred in the power supply unit or the outdoor fan and outputting an error if the voltage does not decrease below the set value after the operation of the outdoor fan. 14. The method of claim 13,
Further comprising the step of stopping the outdoor fan when power consumption calculated from the voltage reaches a reference value for the generator mode before the set time elapses after the outdoor fan operation.

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