KR100388686B1 - Air conditioner having expansion control unit and its method - Google Patents

Abstract

The present invention relates to an air conditioner having an expansion control unit that can adjust the expansion degree of the refrigerant according to the outside air temperature at the start of the compressor and a control method thereof, and by adjusting the opening degree of the expansion control unit according to the outside temperature, expansion control at low temperature The degree of opening of the part is increased to increase the circulation of refrigerant, and the high and low pressures increase to ensure a stable refrigeration cycle.In the case of overloading, the opening degree of the expansion control part is reduced to make the compressor low initial pressure as low as possible to perform rapid cooling. have.

Description

Air conditioner having expansion control unit and its control method {Air conditioner having expansion control unit and its method}

The present invention relates to an air conditioner, and more particularly, to an air conditioner having an expansion control unit capable of adjusting a degree of expansion of a refrigerant in accordance with an external air temperature when a compressor starts in a multi-type air conditioner and a control method thereof.

The air conditioner is designed to satisfy the human desire to live in a more pleasant indoor environment. Such an air conditioner generates cold air by a refrigeration cycle consisting of a compressor, a condenser, a capillary tube, an evaporator, and supplies the same to a room. The refrigeration cycle is as follows.

The refrigerant gas sucked into the compressor is compressed into a gas of high temperature and high pressure by the rotation of the motor, and flows into the condenser through the discharge pipe, and liquefies into a high-pressure liquid by exchanging heat with external air introduced by the condenser fan. )do. The high-pressure liquid refrigerant liquefied in the condenser passes through the capillary and expands under reduced pressure to the low-pressure liquid refrigerant, and enters the evaporator. The evaporator heat-exchanges with the indoor air introduced by the evaporator fan to vaporize and evaporate the gas refrigerant to heat from the surroundings. After absorbing this, it is sucked into the compressor through the suction pipe of the compressor.

The multi-type air conditioner including a plurality of indoor units in one outdoor unit is provided with an electric valve to adjust the degree of expansion of the refrigerant. The conventional multi-type air conditioner operates as a setting section for fixing the opening degree of the electric valve to a predetermined opening degree and a control section for operating according to each condition after the refrigeration cycle is stabilized. That is, when the compressor starts, the electric valve is operated at a preset opening degree regardless of other conditions, and after a certain time, the opening degree is adjusted and operated according to the load condition.

By the way, in the case of the multi-type air conditioner using the indoor unit, there is no problem in the standard conditions, but the outdoor temperature is low and the indoor temperature is high in the low temperature and overload conditions, which takes a long time to stabilize and due to the formation of a cycle at startup Compressors may overload or fail to start due to the operation of protective devices.

For example, if the indoor temperature is low but the indoor temperature is high (for example, when cooking indoors), and one indoor unit is operated, the high pressure is not formed because the condenser capacity is larger than that of one indoor unit, so the refrigerant circulation amount Extremely reduced. In other words, if the outside air temperature is too low, even if the condenser fan is turned off, condensation pressure is not formed due to excessive condensation by natural convection alone. As a result, the low pressure is out of the operating range there is a fear that the evaporator is frozen. Alternatively, in the overload condition, the initial evaporation temperature of the compressor is too high, which takes a long time for cooling.

The present invention is to solve the above problems, an object of the present invention is to provide an air conditioner and a control method having an expansion control unit that can adjust the degree of expansion of the refrigerant in accordance with the outside temperature when the compressor starts in the air conditioner.

1 is an explanatory diagram for explaining an air conditioner having an expansion control unit according to the present invention.

Figure 2 is a block diagram illustrating an air conditioner having an expansion control unit according to the present invention.

Figure 3 is a graph for explaining the operation of the air conditioner with an expansion control unit according to the present invention.

Figure 4 is a flow chart for explaining the operation of the air conditioning with an expansion control unit according to the invention.

Explanation of symbols on the main parts of the drawings

110: compressor 121: condenser

122: condenser fan 130: outdoor unit control unit

140: outside temperature sensing unit 150: valve drive unit

160: fan drive unit 170: compression mechanism drive unit

200: Indoor 210: Evaporator

220: evaporator fan 230: expansion control unit

240: input unit 250: temperature detection unit

260: indoor control unit

In order to achieve the above object, an air conditioner having an expansion control unit according to the present invention and a control method thereof include an outdoor air temperature sensing unit for sensing an outside air temperature and an external air temperature detected by the air temperature sensing unit when the compressor is started. According to the configuration characterized in that it comprises a control unit for adjusting the opening degree of the expansion control unit. And measuring the temperature of the outside air, calculating the opening degree of the expansion control part according to the outside air temperature, adjusting the opening degree of the expansion control part according to the calculation result, and starting the compressor. This is how.

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

1 is an explanatory diagram for explaining a refrigeration cycle according to the present invention.

In the outdoor unit 100 of the air conditioner according to the present invention, the compressor 110 compresses the refrigerant in a gas state of high temperature and high pressure by the rotation of the motor, and releases heat to the outside to liquefy the refrigerant compressed by the compressor 110. A condenser 121 for condensing and a condenser fan 122 for cooling the condenser are provided. In addition, the indoor unit 200 expands the refrigerant liquefied in the condenser 121 and expands the expansion control unit 140 to adjust the opening degree of the refrigerant pipe so as to adjust the expansion degree, and flows from the expansion control unit 230 While the refrigerant is evaporated and evaporated, the evaporator 210 for absorbing heat from the surroundings to generate cold air and the evaporator fan 220 for supplying the cool air generated in the evaporator to the room are provided.

The expansion control unit is composed of an electric valve that can adjust the opening degree in accordance with the control signal.

2 is a block diagram illustrating an air conditioner according to the present invention.

The air conditioner according to the present invention includes a plurality of indoor units 200, each indoor unit 200 includes an input unit 240 for receiving a command from a user, a temperature sensing unit 250 for sensing a temperature of the room, The indoor unit controller 260 transmits the information inputted to the input unit 240 to the outdoor unit controller 130. In this case, the input unit 240 includes a remote controller.

In addition, the air conditioner according to the present invention, the controller 130 of the outdoor unit to determine the load amount according to the information transmitted from each indoor unit 200, and the outside temperature sensor 140 for detecting the temperature of the place where the outdoor unit 100 is installed ), A valve driver 150 for adjusting the opening degree of the expansion controller 230, a fan driver 160 driving the condenser fan 122, and a compressor 110 under the control of the outdoor unit controller 130. Compressor drive unit 170 for controlling the drive of the.

The air conditioner according to the present invention having the above-described configuration controls the opening degree of the expansion control unit 230 in a set section and a control section when the compressor operates. At this time, the setting section is to adjust the opening degree of the expansion control unit 230 according to the outside air temperature during the compressor start. The expansion control unit 230 adjusts the opening degree to, for example, 480 steps according to the control signal of the outdoor unit controller 130, and is completely closed at zero step and completely opened at 480 steps. At this time, the step may be changed according to the type of the expansion control unit 230, but in this embodiment will be described based on 480 steps.

The outdoor unit controller 130 adjusts the opening degree of the expansion control unit 230 by three methods according to the outdoor air temperature. The first method uses a function of the first function y = ax + b according to the outdoor air temperature (x). Opening degree (y) of the expansion control unit 230 is controlled by (Formula 1) applied in the form.

Opening degree (y) = a × outside temperature (x) + b

In Equation 1, a is the slope and b is the y intercept. Fully open at -5 ° C (480 steps) and completely closed at 43 ° C (0 steps), the resulting slope a is about -7.5 and y-intercept b) is about 442.5. This value can vary.

The second method sets the opening degree according to a predetermined temperature band as shown in Table 1, and controls the opening degree of the expansion control unit 230 according to the outside air temperature.

TABLE 1 Outside temperature -5 ℃ ~ 5 ℃ 5 ℃ ~ 15 ℃ 15 ℃ ~ 25 ℃ 25 ℃ ~ 35 ℃ 35 ℃ ~ 43 ℃ Opening degree 442 steps 367.5 steps 292.5 steps 217.5 steps 142.5 steps

In the third method, the reference temperature is set to a predetermined predetermined temperature (for example, + 5 ° C.), and the expansion control unit 230 is completely opened when the outside temperature is less than the reference temperature, and the expansion is performed when the outside temperature is above the reference temperature. The opening degree of the adjusting unit 140 is controlled to be about 50%.

3 is a graph for explaining the operation of the air conditioner with an expansion control unit according to the present invention.

Referring to FIG. 3, when a compressor operation command is input at a time point T1 after a compressor operation command is turned off at a time point T1, the compressor 110 may be delayed by a predetermined time ΔT, for example, about 3 minutes. Start). At this time, the opening degree of the expansion control unit 140 in the set section before the control section is adjusted according to the outside air temperature as described above. In this embodiment, in the control section (after T4), the expansion control unit 230 is in a completely open state, but the opening degree is substantially determined according to various conditions.

Figure 4 is a flow chart for explaining the operation of the air conditioner according to the present invention.

Referring to FIG. 4, the outdoor unit controller 130 determines whether to start the compressor 110 according to information transmitted from each indoor unit 200 (S10). If it is determined in step S10 that the compressor 110 needs to be started, the outdoor unit controller 130 measures the temperature of the outside air through the outside temperature sensor 140 (S20).

After measuring the outside air temperature in step S20, the outdoor unit controller 130 calculates the opening degree of the expansion control unit 230, and calculates the opening degree according to the preset information among the various methods as described above (S30). .

The outdoor unit controller 130 outputs a control signal according to the calculated opening degree to the valve driver 150. Accordingly, the valve driving unit 150 adjusts the opening degree of the expansion control unit 230 provided in each indoor unit 200 according to the control signal (S40).

When the adjustment of the opening degree of the expansion control unit 230 is completed, the outdoor unit controller 130 controls the compressor driving unit 170 to start the compressor 110 (S50). At this time, the outdoor unit controller 130 controls the valve driving unit 150 after the compressor 110 starts to maintain the opening degree of the expansion control unit 230.

The outdoor unit controller 130 determines whether a preset reference time elapses after the compressor 110 starts (S60). If it is determined in step S60 that the reference time has elapsed, the outdoor unit controller 130 controls the valve driving unit 150 to normally control the expansion control unit 230 (S70).

In the above-described embodiment, the expansion control unit is provided for each indoor unit, and each expansion control unit is controlled to be opened according to the control of the outdoor unit control unit. However, the expansion control unit may be installed on the refrigerant pipe before being distributed to each indoor unit without departing from the gist of the present invention, and the opening degree may be controlled by the indoor unit or a controller provided separately.

As described above, according to the air conditioner including the expansion control unit according to the present invention and a control method thereof, by adjusting the opening degree of the expansion control unit according to the outside temperature, the amount of circulation of the refrigerant increases by increasing the opening degree of the expansion control unit at low temperatures. As the high and low pressure rises together, a stable refrigeration cycle can be secured. In the case of overloading, the opening degree of the expansion control part can be reduced, and the low initial pressure of the compressor can be made as low as possible to perform rapid cooling.

Claims (7)

(delete) (delete) In the control method of the air conditioner having an expansion control unit, Measuring the temperature of the outside air, Calculating an opening degree of the expansion control unit according to the outside air temperature, Adjusting the opening degree of the expansion control unit according to the calculation result and starting the compressor; Determining whether a preset reference time has elapsed after starting the compressor, And if it is determined that the reference time has elapsed by determining whether the reference time has elapsed, the control method of the air conditioner having the expansion control unit comprising the step of normally controlling the expansion control unit. The method of claim 3, wherein The opening degree calculation step, the control method of the air conditioner having an expansion control unit, characterized in that for setting in advance the function of the opening degree of the expansion control unit is adjusted according to the external temperature and calculates the opening degree by the function. . The method of claim 4, wherein The function of the air conditioner having an expansion control unit, characterized in that the linear function is determined in advance by setting a plurality of preset external temperature and the degree of opening according to the external temperature, and calculating the slope and intercept from the setting Control method. The method of claim 3, wherein The opening degree calculating step, the control method of the air conditioner having an expansion control unit, characterized in that for setting the opening degree in accordance with the temperature band in advance and calculates the opening degree of the temperature band corresponding to the measured outside air temperature accordingly. . The method of claim 3, wherein The step of calculating the opening degree is completely opened when the outside temperature is less than or equal to a preset reference temperature, and when the outside temperature is greater than or equal to a preset reference temperature, the air having an expansion control unit is further opened. Control method of harmonics.