KR101832765B1 - Air conditoner and controlling method thereof - Google Patents

Abstract

The present invention relates to an air conditioner capable of stably performing a cooling operation in a low outdoor temperature environment. The air conditioner according to the present invention includes a housing having an inlet, a bypass inlet, and a discharge port, And a bypass flow path formed between the bypass inlet and the outlet, the heat exchanger being provided between the inlet and the outlet, the heat exchanger provided in the heat exchange passage, and the bypass passage formed between the bypass inlet and the outlet .

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an air conditioner,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an air conditioner, and more particularly, to an air conditioner capable of stably performing a cooling operation in an environment having a low outdoor temperature.

Background Art [0002] Generally, an air conditioner is a device for cooling or heating an indoor space such as a residential space, a restaurant, or an office.

The air conditioner may include an outdoor unit installed in the outdoor space and an indoor unit installed in the indoor space. The outdoor unit includes a compressor for compressing the refrigerant, an outdoor heat exchanger and a blower fan for exchanging heat between the outdoor air and the refrigerant, The indoor unit may include an indoor heat exchanger and an expansion valve for exchanging heat between the indoor air and the refrigerant.

Meanwhile, in an outdoor unit connected to a plurality of indoor units, a large outdoor heat exchanger is installed in order to expand a heat exchange area, and a compressor, an oil separator, and an accumulator for compressing a refrigerant circulating in an air conditioning cycle are mounted. A motor for rotating the fan is mounted, and a plurality of refrigerant pipes for connecting each component and the indoor unit are accommodated.

FIG. 1 is a perspective view showing a conventional outdoor unit, and FIG. 2 is a view for explaining an operation state of a fan of a conventional outdoor unit.

1, the outdoor unit 20 includes a housing 21 forming an outer appearance, and the housing 21 has an inlet 22 and a discharge opening 23, A heat exchanger (24) is disposed on the inlet (22) side. At this time, the air introduced through the inlet 22 is heat-exchanged with the refrigerant in the process of passing through the heat exchanger 24, and then is discharged to the outside through the outlet 23.

2, when the outdoor unit 20 performs cooling operation in an environment having a low outdoor temperature (for example, -5 ° C.), the condensation temperature or the condensation pressure of the refrigerant flowing in the heat exchanger is low And the operation of the compressor is not smoothly performed.

At this time, in the conventional outdoor unit, the cooling load is controlled in such a manner that the rotational speed of the fan (hereinafter referred to as RPM) is lowered and the amount of air flowing through the inlet 22 is lowered.

However, when the rotation speed of the fan is lowered to a certain RPM or less, it is only possible to perform repetitive ON / OFF control due to the operation limit at a low RPM. If there is such a discontinuous control period, there occurs a problem that the condensation temperature or the evaporation temperature of the refrigerant in the cooling cycle is hunting (Fl), and it is not possible to provide pleasant cooling to the occupant.

An object of the present invention is to provide an air conditioner capable of stably performing a cooling operation in an environment having a low outdoor temperature.

It is another object of the present invention to provide an air conditioner capable of continuously controlling the amount of air passing through a heat exchanger even in a discontinuous control section of a fan.

It is another object of the present invention to provide an air conditioner capable of preventing a high pressure drop due to a sudden increase in wind flowing into a heat exchanger.

According to an aspect of the present invention, there is provided an air conditioner comprising: a housing having an inlet, a bypass inlet, and a discharge port; a fan configured to introduce air into the housing and discharge air to the outside of the housing; And a heat exchanger provided in the heat exchange passage; And a bypass flow path formed between the bypass inlet and the discharge port.

According to another aspect of the present invention, there is provided an air conditioner including an outdoor unit and at least one indoor unit connected to the outdoor unit, the outdoor unit comprising: a housing having an inlet, a bypass inlet and an outlet; A fan for blowing air into the housing through the outlet and discharging air to the outside of the housing through the outlet, and a controller for controlling driving of the fan.

Here, the inlet port and the outlet port communicate with each other through a heat exchanger, and the bypass inlet port communicates directly with the outlet port. The controller controls the flow rate of the air flowing into the bypass inlet port so that the amount of air flowing into the inlet port .

According to another aspect of the present invention, there is provided a method of controlling an outdoor unit, comprising: sensing a condensation pressure or a condensation temperature of a refrigerant in an outdoor unit; and controlling the RPM of the fan motor of the outdoor unit to the lowest control RPM when the detection result is less than a first predetermined value, And a fan variable operation step of controlling the RPM of the fan motor of the outdoor unit to the RPM exceeding the minimum control RPM when the sensed result is equal to or higher than a predetermined value, A control method of an air conditioner is provided.

As described above, the air conditioner according to one embodiment of the present invention stably performs the cooling operation in an environment having a low outdoor temperature.

Also, the air conditioner according to an embodiment of the present invention continuously controls the amount of air passing through the heat exchanger even in the discontinuous control period of the fan.

In addition, the air conditioner according to one embodiment of the present invention prevents the high pressure drop due to a sudden increase in the wind that flows into the heat exchanger.

1 is a perspective view showing a conventional outdoor unit;
2 is a view for explaining an operation state of a conventional outdoor fan.
3 is a block diagram of an air conditioner according to an embodiment of the present invention;
4 is a perspective view of an air conditioner according to one embodiment of the present invention;
5 is a conceptual view for explaining an inflow flow of an air conditioner related to the present invention;
6 is a view for explaining an operation state of a fan constituting an air conditioner according to an embodiment of the present invention;
7 is a perspective view of an air conditioner according to another embodiment of the present invention;
8 is a flowchart showing a control method of an air conditioner according to an embodiment of the present invention.

Hereinafter, an air conditioner according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings. BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiments of the invention and, together with the description, serve to explain the principles of the invention.

In addition, the same or corresponding components are denoted by the same reference numerals regardless of the reference numerals, and redundant description thereof will be omitted. For convenience of explanation, the size and shape of each constituent member shown may be exaggerated or reduced have.

On the other hand, terms including an ordinal number such as a first or a second may be used to describe various elements, but the constituent elements are not limited by the terms, and the terms may refer to a constituent element from another constituent element It is used only for the purpose of discrimination.

Fig. 4 is a perspective view of an air conditioner according to an embodiment of the present invention, and Fig. 5 is a perspective view of an inflow port of an air conditioner according to the present invention Fig.

The air conditioner according to an embodiment of the present invention may include an outdoor unit 300 installed in an outdoor space and an indoor unit 500 installed in an indoor space. The outdoor unit 300 includes a compressor An outdoor heat exchanger 320 for exchanging heat between the outdoor air and the refrigerant, a fan motor 350 for driving the fan, a compressor 200, an outdoor heat exchanger 320, And a plurality of pipes (not shown) for connecting the indoor units 500, respectively. The pipe is provided with a temperature sensor and a pressure sensor capable of measuring the temperature and the pressure of the refrigerant.

The indoor unit 500 includes an indoor heat exchanger (not shown), an expansion valve (not shown) and a fan (not shown) for heat exchange between room air and refrigerant, and a fan motor 550 ).

In addition, the air conditioner includes a controller 100 for controlling the operation of the outdoor unit 300 and the indoor unit 500.

Meanwhile, the air conditioning apparatus according to an embodiment of the present invention includes a refrigeration cycle including a compressor 200, an outdoor heat exchanger 320, an expansion valve, and an indoor heat exchanger.

Specifically, the refrigerant gas compressed in the compressor flows into the outdoor heat exchanger to be phase-changed into liquid refrigerant. In the outdoor heat exchanger, heat is released to the outside while the refrigerant undergoes a phase change. The refrigerant discharged from the outdoor heat exchanger expands while passing through the expansion valve and flows into the indoor heat exchanger.

Then, the liquid refrigerant flowing into the indoor heat exchanger undergoes a phase change to the gas refrigerant. Likewise, the refrigerant absorbs external heat while performing a phase change in the indoor heat exchanger.

In this document, the air conditioner may be used as a concept including both an outdoor unit and an indoor unit, or may be used as a concept including only an outdoor unit. For convenience of explanation, the air conditioner will be limited to only an outdoor unit .

An air conditioner 300 according to an embodiment of the present invention includes a housing 310 having an inlet 311, a bypass inlet 313 and a discharge port 312, A heat exchanger 320 provided between the inlet 311 and the outlet 312, a heat exchanger 320 provided in the heat exchanger, and a bypass inlet 313, And a bypass flow path formed between the discharge ports 312.

The housing 310 has one or more inlets 311 through which the outdoor air flows into the heat exchanger 320. The inlet 311 may be provided on both sides of the housing 310, have. In addition, the housing 310 has a discharge port 312 through which the air flowed by the fan is discharged. In one embodiment, the discharge port 312 may be provided on the upper surface of the housing 310 .

One or more heat exchangers 320 may be disposed in the lower space of the housing 310, and one or more fans may be disposed in the upper space. The heat exchanger 320 may be disposed at both ends of the interior of the housing 310 so as to correspond to the inlet 311. The heat exchanger 320 may have a shape of " Lt; / RTI >

Here, the heat exchange channel means a path formed between the inlet port 311 and the discharge port 312. The air introduced into the inlet port 311 is heat-exchanged with the refrigerant in the process of passing through the heat exchanger 320.

In addition, the housing 310 has one or more bypass inlets 313, and the air introduced through the bypass inlets 313 does not directly pass through the heat exchanger 320. Therefore, when the inlet 311 is formed on both sides of the housing 310, the bypass inlet 313 may be formed on the front surface of the housing 310.

Here, a bypass flow path is formed between the bypass inlet 311 and the outlet 312, and a part of the air flowing into the bypass inlet 311 may flow toward the heat exchanger 320, Can be discharged through the discharge port (312) without passing through the heat exchanger (320).

The inlet 311 and the bypass inlet 313 differ depending on whether a heat exchanger is disposed on each inlet side. The heat exchanger 320 is disposed in the inlet 311 so that when the inlet 313 and the bypass inlet 313 are both opened, The amount of air flowing into the inlet 311 is smaller than that in the case where the bypass inlet 313 is shut off because the resistor 320 functions as a resistor.

Accordingly, in the air device according to the embodiment of the present invention, the amount of air flowing into the bypass inlet 313 can be controlled to control the amount of air flowing into the inlet 311, The amount of air passing through and heat exchanged can be adjusted, so that the cooling load can be controlled.

For this, the air conditioner 300 according to an embodiment of the present invention may include a bypass blocking device 330 for selectively opening and closing the bypass inlet 313. [ The amount of air flowing through the inlet 311 can be reduced when the bypass inlet 313 is opened by the bypass interrupter 330. When the bypass inlet 313 is blocked, It is possible to increase the amount of air that is introduced through the exhaust pipe.

In addition, the air conditioner 300 according to an embodiment of the present invention may include a bypass vane 331 for adjusting the opening of the bypass inlet. The opening of the bypass inlet 313 can be controlled by the bypass vane 331. When the opening degree is increased, the amount of air introduced through the inlet 311 can be reduced. When the opening degree is reduced, the inlet 311 Can be increased.

The bypass blocking device 330 may be configured as the bypass vane 331. The bypass blocking device 330 and / or the bypass vane 331 may be controlled by the control unit 100 .

6 is a view for explaining an operating state of a fan constituting an air conditioner according to an embodiment of the present invention.

As described above, when the outdoor unit 20 performs the cooling operation in an environment having a low outdoor temperature (for example, -5 ° C), the condensation temperature or the condensation pressure of the refrigerant flowing in the heat exchanger is lowered, The compressor is not operated smoothly.

At this time, in the conventional outdoor unit, the cooling load is controlled in such a manner that the rotational speed of the fan (hereinafter referred to as RPM) is lowered and the amount of air flowing through the inlet 22 is lowered.

However, when the rotation speed of the fan is lowered to a certain RPM or less, it is only possible to perform repetitive ON / OFF control due to the operation limit at a low RPM. If there is such a discontinuous control period, there occurs a problem that the condensation temperature or the evaporation temperature of the refrigerant in the cooling cycle is hunting (F1), and thus it is impossible to provide comfortable cooling to the occupant (refer to FIG. 2).

Meanwhile, the control unit 100 controls the RPM of the fan motor 350 that drives the fan, and controls the RPM of the fan motor 350 according to the condensation pressure or the condensation temperature of the refrigerant.

At this time, the controller 100 may control to open the bypass inlet 311 when the RPM of the fan motor 350 is operated at the lowest control RPM.

Concretely, when the operation of the fan is stopped (low control RPM) because the RPM of the fan is lowered in an environment where the outdoor temperature is low as in the conventional case (for example, -5 ° C), the air conditioner 300 related to the present invention The amount of air flowing into the heat exchanger 320 can be adjusted by adjusting the amount of air flowing through the bypass inlet 313 without stopping the operation of the fan.

Referring to FIG. 2, in the conventional air conditioner, a discontinuous control period of the fan occurs due to the time t1 during which the fan operates and the time t2 during which the fan stops during an environment having a low outdoor temperature. However, , The air conditioner 300 according to the embodiment of the present invention increases the time t3 during which the fan operates even in an environment with a low outdoor temperature and confirms that the hunting F2 of the condensation temperature or the evaporation temperature is reduced .

Therefore, the air conditioner 300 related to the embodiment of the present invention stably performs the cooling operation in the low outdoor temperature environment, and continuously controls the amount of air passing through the heat exchanger 320 even in the discontinuous control period of the fan And the cooling load can be controlled.

7 is a perspective view of an air conditioner according to another embodiment of the present invention.

Referring to FIG. 7, the air conditioner 300 may further include a cover 340 for preventing external air from flowing directly in the vertical direction of the inlet 311. The cover 340 functions to prevent a high pressure drop due to a sudden increase in wind flow into the heat exchanger 320.

In one embodiment, the cover 340 has a cover upper inlet 342 and a cover side inlet 343 so that air directly entering the vertical direction of the inlet 311 flows through the cover upper inlet 342 and the cover side And a body 341 for detouring to the inlet port 343 side.

In addition, the air conditioning apparatus according to another embodiment of the present invention may include an outdoor unit 300 and at least one indoor unit 500 connected to the outdoor unit.

As described above, the outdoor unit 300 includes a housing 310 having an inlet 311, a bypass inlet 313, and a discharge outlet 312, and an inlet 311 and a bypass inlet 313 And a control unit 100 for controlling the operation of the fan and a fan for supplying air into the housing 310 and discharging air to the outside of the housing 310 through the discharge port 312.

The inlet 311 and the outlet 312 communicate with each other through a heat exchanger 320. The bypass inlet 313 is in direct communication with the outlet 312. The controller 100 controls the outlet The flow rate of the air flowing into the bypass inlet 313 is adjusted to vary the flow rate of the air flowing into the inlet 311.

As described above, the control unit 100 can control the operation of the fan according to the condensation pressure or the condensation temperature of the refrigerant, and the outdoor unit selectively controls the bypass inlet 313 and the opening / And the bypass vane 331 may be provided.

In addition, the controller 100 may control the bypass vane 331 to be driven when the fan is driven at the lowest control RPM.

Hereinafter, a control method of the air conditioner 300 having the above-described structure will be described in detail with reference to the accompanying drawings.

8 is a flowchart showing a control method of an air conditioner according to an embodiment of the present invention.

A method of controlling an air conditioner according to an embodiment of the present invention includes the steps of sensing (S3) a condensation pressure or a condensation temperature of a refrigerant in an outdoor unit, determining whether the sensed result is less than a first predetermined value, (S5) for controlling the flow rate of the air flowing into the heat exchanger to a minimum control RPM, and when the sensed result is equal to or higher than the preset value, the RPM of the fan motor of the outdoor unit is increased to the RPM (S4).

In this case, the bypass air flow rate in which the heat exchange is not performed can be varied in the fan constant speed operation step (S5). During the fan constant speed operation step (S5), the detection result compares the second predetermined value (S6) And if the detection result is less than the second predetermined value, the driving of the fan can be stopped (S7).

Specifically, after the cooling operation starts (S1), if the outdoor temperature becomes low during the cooling operation, the outdoor unit senses the condensation pressure or the condensation temperature of the refrigerant (S3). At this time, if the condensation pressure or the condensation temperature of the refrigerant is equal to or higher than the first predetermined value, a fan variable control operation S4 for varying the RPM of the fan and adjusting the amount of air introduced into the heat exchanger is performed.

Alternatively, if the condensation pressure or the condensation temperature of the refrigerant is less than the first predetermined value, the RPM of the fan may be varied and the amount of air introduced into the heat exchanger may not be controlled. At this time, it is possible to perform the fan constant speed control operation (S5) without stopping the operation of the fan. As described above, the amount of the air introduced into the heat exchanger can be adjusted by varying the bypassed air flow rate have.

Meanwhile, during the fan constant speed control operation S5, the detection result may compare the second preset value (S6). If the detection result is less than the second predetermined value, the fan may be stopped (S7).

As described above, the air conditioner according to one embodiment of the present invention stably performs the cooling operation in an environment having a low outdoor temperature.

Also, the air conditioner according to an embodiment of the present invention continuously controls the amount of air passing through the heat exchanger even in the discontinuous control period of the fan.

In addition, the air conditioner according to one embodiment of the present invention prevents the high pressure drop due to a sudden increase in the wind that flows into the heat exchanger.

The foregoing description of the preferred embodiments of the present invention has been presented for purposes of illustration and various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention, And additions should be considered as falling within the scope of the following claims.

300: air conditioner (outdoor unit) 310: housing
311: Inlet port 312: Outlet port
313: Bypass inlet 320: Heat exchanger
330: Bypass cutoff device 331: Bypass vane

Claims (15)

A housing having an inlet, a bypass inlet and an outlet;
A fan for introducing air into the housing and discharging air to the outside of the housing;
A heat exchange passage formed between the inlet and the outlet;
A heat exchanger provided in the heat exchange passage;
A bypass passage formed between the bypass inlet and the outlet;
A bypass vane for selectively opening and closing the bypass inlet and regulating opening of the bypass inlet; And
And a control unit for controlling the RPM of the fan motor for driving the fan,
Wherein the control unit controls the RPM of the fan motor according to the condensation pressure or the condensation temperature of the refrigerant and controls the bypass inlet to be opened when the RPM of the fan motor is operated at the lowest control RPM. . delete delete delete delete delete delete The method according to claim 1,
And a cover for preventing direct entry of outside air in the vertical direction of the inlet. An air conditioner comprising: an outdoor unit; and at least one indoor unit connected to the outdoor unit,
The outdoor unit includes:
A housing having an inlet, a bypass inlet and an outlet;
A fan for introducing air into the housing through the inlet and the bypass inlet and discharging air to the outside of the housing through the outlet;
A bypass vane for selectively controlling the closing and opening of the bypass inlet; And
And a control unit for controlling driving of the fan,
Wherein the inlet port and the discharge port communicate with each other via a heat exchanger, the bypass inlet port communicates directly with the discharge port,
Wherein the control unit controls an air flow rate of the air flowing into the bypass inlet to vary an air flow rate flowing into the inlet,
The control unit controls the RPM of the fan motor according to the condensation pressure or the condensation temperature of the refrigerant and controls the bypass vane to be driven to open the bypass inlet when the fan motor is driven at the lowest control RPM . delete delete delete Sensing the condensation pressure or the condensation temperature of the refrigerant in the outdoor unit;
A fan constant speed operation step of controlling the RPM of the fan motor of the outdoor unit to the lowest control RPM when the detection result is less than the first predetermined value and varying the air flow rate flowing into the heat exchanger through the inlet port;
And controlling the RPM of the fan motor of the outdoor unit to RPM exceeding the minimum control RPM when the detection result is equal to or higher than the predetermined value,
Wherein the control unit controls the bypass vane provided at the bypass inlet to vary the bypass air flow rate without heat exchange in the fan constant speed operation step. delete 14. The method of claim 13,
And stops driving the fan when the detection result is less than a second predetermined value during the fan constant speed operation.

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