KR100795605B1 - Air conditioner and controlling method therof - Google Patents

Abstract

An air conditioner is provided to defrost a bell mouth through a blower fan even in case that an external temperature is below a freezing temperature, thereby improving working reliability of the blower fan. An air conditioner has an outdoor unit(10). The outdoor unit includes a heat exchanger, a casing(10) containing the heat exchanger, a blower fan(30) sending air to the heat exchanger, a bell mouth(40) surrounding a circumference of the blower fan and guiding air sent by the blower fan, and a heater(50) mounted at the bell mouth. A temperature detector(60) is installed in the outdoor unit to detect a temperature of the casing inside. If RPM(Revolutions Per Minute) of the blower fan is less than the minimum RPM after power is supplied to the blower fan, a control unit stops driving of the blower fan. If a temperature detected by the temperature detector is less than a set defrosting temperature, the control unit drives the heater for predetermined time.

Description

Air Conditioner and Control Method {AIR CONDITIONER AND CONTROLLING METHOD THEROF}

1 is a perspective view of an outdoor unit of an air conditioner according to the present invention;

Figure 2 is an exploded perspective view showing the assembled state of the outdoor unit of the air conditioner according to the present invention,

3 is a control flowchart of an air conditioner according to the present invention.

Explanation of symbols on the main parts of the drawings

1: outdoor unit 10: casing

20: cover member 21: fan guide

25: upper cover 30: blowing fan

31: blade 33 drive motor

40: Bell Mouse 50: Heater

60: temperature detection unit

The present invention relates to an air conditioner, and more particularly, to an air conditioner and a method of controlling the air conditioner having improved structure of an outdoor unit.

In general, an air conditioner is a cooling device that discharges cold air generated through heat exchange between a refrigerant and ambient air due to evaporation of a refrigerant to a room using a fan by applying a cooling cycle that compresses, condenses, and evaporates a predetermined refrigerant. Mainly used. The air conditioner includes a compressor for converting a gaseous refrigerant of low temperature and low pressure into a high temperature and a high pressure, a condenser for condensing the high temperature and high pressure gas refrigerant into a liquid phase while dissipating heat to the surroundings, and a refrigerant condensed by the condenser. An expansion mechanism for expanding the low temperature low pressure refrigerant, an evaporator for absorbing heat to evaporate the refrigerant in a gaseous state, an outdoor blower and an indoor blower for blowing air to the condenser and the evaporator, and controlling the respective components. It includes a control unit. Here, the evaporator and the indoor blower are indoor units disposed indoors, and the compressor, the condenser, the expansion mechanism, and the outdoor blower are outdoor units disposed outdoors.

Recently, the cooling cycle is applied in reverse, and the hot air generated by heat exchange between the refrigerant and the ambient air due to the condensation of the refrigerant is discharged into the room by using a blower fan by using the refrigerant compression, evaporation, and condensation cycles. Air-conditioners for both heating and cooling have become popular. The air conditioning and air conditioning unit is mainly driven for heating in winter when the outdoor air is cold.

However, when the outdoor air falls to the sub-zero region or snow, frost is formed around the outdoor blower of the outdoor unit, and the blower fan is often not driven.

Accordingly, an object of the present invention is to provide an air conditioner capable of improving the operating reliability of the blower fan of the outdoor unit.

Another object of the present invention is to provide a control method of an air conditioner that can improve the operating reliability of the blowing fan of the outdoor unit.

The above object is, according to the present invention, an air conditioner having an outdoor unit, wherein the outdoor unit comprises: a heat exchanger; A casing for accommodating the heat exchanger; A blowing fan for blowing air to the heat exchanger; A bell mouse surrounding the circumference of the blowing fan and guiding the air blown by the blowing fan; It is achieved by including a heater mounted to the bell mouse.

The outdoor unit includes a temperature sensing unit for sensing a temperature inside the casing; After a predetermined time elapses after the power is supplied to the blower fan, the driving of the blower fan is stopped when the number of revolutions (RPM) of the blower fan is less than or equal to the set minimum RPM (RPM), and the temperature sensed by the temperature sensing unit. It is preferable that the control unit for driving the heater for a predetermined time if less than the set defrost temperature.

On the other hand, another object of the air conditioner including a heat exchanger, an outdoor unit having a blowing fan for blowing air to the heat exchanger, and a bell mouse surrounding the circumference of the blowing fan and guides the air blown by the blowing fan. A control method comprising the steps of: measuring the number of revolutions (RPM) of the blowing fan after a predetermined time has elapsed after supplying power to the blowing fan; Stopping driving of the blower fan when the measured RPM is less than or equal to the set minimum RPM; If the temperature of the bell mouse is less than the set defrost temperature is achieved by the step of heating the bell mouse.

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

The outdoor unit 1 of the air conditioner according to the present invention includes a compressor (not shown), a heat exchanger (not shown), a casing 10 for accommodating the compressor and the heat exchanger, and a blowing fan 30 for blowing air to the heat exchanger. ), A bell mouse 40 surrounding the circumference of the blowing fan 30 and guiding the air blown by the blowing fan 30, and a heater 50 mounted to the bell mouse 40.

Prior to the description, the compressor and the heat exchanger are generally the same as the known structure, and thus detailed descriptions thereof will be omitted. Here, the heat exchanger serves as the evaporator during the air conditioner cooling operation, and serves as a condenser during the heating operation of the air conditioner.

The casing 10 is provided in the square cylinder shape which the upper side opened in this embodiment. The compressor and the heat exchanger are accommodated in the casing 10. On one side of the casing 10 is formed an air inlet 13 through which outside air flows into the casing. The upper surface of the casing 10 is opened so that the blowing fan 30 and the bell mouse 40 are mounted. That is, when the blowing fan 30 is rotated, the outside air flows into the air inlet 13 and passes through the heat exchanger, and then is discharged to the upper side to exchange heat between the outside air and the heat exchanger.

The blowing fan 30 includes a blade 31 and a drive motor 33 for providing rotational force to the blade 31. The blade 31 is disposed to discharge the air in the casing 10 upward. Then, the driving motor 33 of the blowing fan 30 is provided so that the rotational speed can be varied.

The bell mouse 40 surrounds the circumference of the blowing fan 30 and guides the air blown by the blowing fan 30. The bell mouse 40 is provided in a cylindrical shape in which the upper and lower sides are opened to surround the circumference of the blowing fan 30. The bell mouse 40 is mounted in the upper opening of the casing 10. Here, the inner diameter of the bell mouse 40 is provided similar to the outer diameter of the blade 31. In detail, the smaller the distance between the inner circumferential surface of the bell mouse 40 and the outer circumference of the blade 31, the performance of the blower fan 30 is improved, and therefore, between the inner circumferential surface of the bell mouse 40 and the outer circumference of the blade 31. To form a narrow gap.

Meanwhile, the upper opening of the casing 10 of the outdoor unit 1 of the air conditioner according to the present invention covers the upper opening, and the air inside the casing 10 blown by the blower fan 30 is discharged to the outside. The cover member 20 in which the air outlet 23 is formed is mounted.

The cover member 20 is provided with a plurality of air outlets 23, and is provided along the outer circumference of the bellows 40 and the fan guide 21 mounted on the upper opening of the bellows 40. ) And a top cover 25 that covers the space between the sidewalls of the casing 10 and supports the fan guide 21.

The fan guide 21 is mounted in the upper opening of the bell mouse 40. The fan guide 21 has a mesh-shaped air outlet 23 to prevent foreign substances and the like from flowing into the casing 10. Here, the shape of the air outlet 23 is not limited and may be variously formed. The fan guide 21 is detachably mounted to the upper cover 25.

The top cover 25 covers the space between the bell mouse 40 and the side wall of the casing 10. As described above, the fan guide 21 is detachably attached to the upper cover 25. The upper cover 25 is detachably attached to the casing 10. Thus, the compressor, the heat exchanger and the blowing fan 30, the bell mouse 40, and the like accommodated in the casing 10 can be separated or repaired.

The heater 50 is mounted to the bell mouse 40 to heat around the blowing fan 30. The heater 50 is preferably mounted on the outer circumferential surface of the bell mouse 40. The heater 50 may be provided in various ways. For example, the heater 50 may be provided as a coil heater, may be provided as a cord heater, or may be provided as a belt heater. The heater 50 has been described above that it is mounted on the outer circumference of the bell mouse 40, but is not limited to this may be embedded in the molding of the bell mouse 40, it may be mounted on the inner circumference of the bell mouse 40, of course. . The heating temperature of the heater 50 is sufficient as heat so that the bell mouse 40 will not be deformed. On the other hand, the heater 50 may be manually operated by the user, or may be automatically operated by the control of a controller (not shown). In this embodiment, the driving of the heater 50 is controlled by the controller.

On the other hand, the casing 10 is equipped with a temperature sensing unit 60 for sensing the ambient temperature of the blowing fan (30). The temperature sensing unit 60 is used as a basis for controlling the driving of the heater 50, may be mounted on the bell mouse 40, may be mounted inside the casing 10, or may be mounted outside the casing 10. It can also be mounted on.

The air conditioner according to the present invention further includes a control unit for controlling the driving of the blower fan 30 and the heater 50. The control unit controls the driving of the blowing fan 30 according to the set operating conditions. Here, the controller may control the rotational speed of the blowing fan 30 according to the set operating conditions. The controller stops driving of the blower fan 30 when a predetermined time elapses after the power is supplied to the blower fan 30 when the RPM RPM of the blower fan 30 is equal to or lower than the set minimum RPM RPM. Let's do it. After the driving of the blower fan 30 is stopped, the heater 50 is driven for a predetermined time when the temperature detected by the temperature sensing unit 60 is lower than or equal to the set defrost temperature.

Hereinafter, a control method of an air conditioner according to the present invention including such a configuration will be described with reference to the accompanying drawings.

First, when power is applied to the blower fan 30 according to the operating conditions, the blower fan 30 starts to drive (S1). Then, it is determined whether the predetermined time has elapsed (S3). Here, the predetermined time is a time taken for the driving motor 33 to be driven normally after starting the driving. The predetermined time may be set through an experiment or arbitrarily and may vary according to circumstances.

When the power is applied to the blower fan 30 in step S3 and a predetermined time has elapsed, the rotation speed RPM of the drive motor 33 of the blower fan 30 is measured. Then, the measured rotational speed RPM of the driving motor 33 is compared with the set minimum rotational speed RPM (S5). Here, if the measured rotational speed RPM of the driving motor 33 is equal to or greater than the set minimum rotational speed RPM, the driving of the blower fan 30 is controlled according to the driving conditions (S7). On the other hand, the minimum rotational speed (RPM) is the normal driving rotational speed (RPM) of the blower fan 30, which is calculated through experiments and may vary according to driving conditions.

On the other hand, if the rotational speed (RPM) of the drive motor 33 measured in step S5 is less than the set minimum rotational speed (RPM), the temperature detected by the temperature detection unit 60 is compared with the set defrosting temperature (S9). Here, the defrost temperature is about 0 degrees as the freezing temperature, or refers to the freezing temperature that the frost is sandwiched between the blowing fan 30 and the bell mouse (40). Defrost temperature may vary depending on the situation.

If the temperature detected by the temperature detection unit 60 in step S9 is less than the set defrost temperature, the heater 50 is driven (S11). After driving the heater 50, it is determined whether a predetermined time has elapsed (S13). Here, the predetermined time is a time for removing frost between the blowing fan 30 and the bell mouse 40 through repeated experiments, and may vary according to circumstances. If a predetermined time has elapsed after driving the heater 50 in step S13, the process moves to step S1.

On the other hand, even after repeating the steps S1 to S13 N times, if the rotational speed (RPM) of the blowing fan 30 is less than the minimum rotational speed (RPM) frost between the blowing fan 30 and the bell mouse 40 Instead of being caught, it may be determined that foreign matters are introduced or other failures, and the driving of the blower fan 30 and the heater 50 may be stopped and a failure signal may be recognized by the user.

As described above, by providing a heater 50 mounted on the bell mouse 40 which surrounds the circumference of the blowing fan 30 and guides the air blown by the blowing fan 30, the external temperature is lower than the freezing temperature. Even if it is dropped, the blowing fan 30 can remove the frost between the bell mouse 40 can improve the operating reliability of the blowing fan (30).

As described above, according to the present invention, it is possible to provide an air conditioner and a method of controlling the same, which can improve the operational reliability of the blower fan of the outdoor unit.

Claims (3)

In an air conditioner having an outdoor unit, The outdoor unit, A heat exchanger; A casing for accommodating the heat exchanger; A blowing fan for blowing air to the heat exchanger; A bell mouse surrounding the circumference of the blowing fan and guiding the air blown by the blowing fan; An air conditioner comprising a heater mounted to the bell mouse. The method of claim 1, The outdoor unit includes a temperature sensing unit for sensing a temperature inside the casing; After the predetermined time elapses after the power is supplied to the blower fan, the driving of the blower fan is stopped when the number of revolutions of the blower fan is equal to or less than the set minimum speed. And a control unit for driving the heater for a predetermined time. In the control method of the air conditioner comprising a heat exchanger, a blower fan for blowing air to the heat exchanger, and an outdoor unit having a bell mouse surrounding the circumference of the blower fan and guides the air blown by the blower fan, Measuring the number of revolutions of the blower fan after a predetermined time has passed after the power is supplied to the blower fan; Stopping driving of the blower fan when the measured rotation speed is less than or equal to a set minimum rotation speed; And heating the bell mouse when the bell mouse temperature is lower than a set defrost temperature.

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