KR100388684B1 - Air conditioner - Google Patents

Abstract

In the air conditioner having a compressor and a fan motor, the temperature control unit cuts off power to the compressor, selects a power saving operation mode or a normal operation mode through a mode selection unit, and switches according to the operation of the temperature control unit. Means for switching the fan motor operation between the normal operation mode and the power saving operation mode in association with the mode selection unit, when the temperature of the temperature control unit reaches the set temperature during the power saving operation mode of the air conditioner. By turning it off in the power saving operation mode preset without turning it off, the temperature deviation between the inside and the outside temperature in the air conditioner is eliminated, and it is possible to cool down by using the latent heat of the indoor air. Allow the temperature change inside the air conditioner to proceed normally. When the desired temperature is reached, the air conditioner can resume normal operation, improving the reliability of the product.

Description

Air Conditioner {

The present invention relates to an air conditioner, and relates to an air conditioner having a power saving function for allowing a consumer to select a power saving function to compensate for a large amount of energy consumption, which is the biggest disadvantage of the air conditioner.

In general, an air conditioner generates cold air through a refrigeration cycle, that is, the refrigerant flowing into the compressor is compressed to a high temperature and high pressure, and then passed through a condenser, capillary, and evaporator to liquefy, expand and depressurize, and indoor air and heat. In exchange for cold air. The generated cold air is introduced into the room through the fan motor.

A circuit diagram of a conventional air conditioner having a power saving function. As shown in FIG. 1, the conventional air conditioner operates in the normal operation mode or the power saving operation mode when the air conditioner is largely divided according to the operation of the mode selection unit 50 for selecting the operation mode.

First, in the normal operation mode in which the terminal b of the mode selection unit 50 is connected to the terminal a, a temperature is installed on the evaporator when the power supply switch 10 is turned on and on / off when the preset temperature is reached. Power is supplied to the relay 30 through the adjusting unit 20, and thus the relay switch 40 is connected. As the relay switch 40 is connected, power is supplied to the compressor 60 to operate the compressor 60. At this time, the power supplied to the compressor 60 is supplied to the speed switch 70 for the user to select the speed of the fan motor 80 through the mode selection unit 50, the fan in accordance with the operation of the speed switch 70 The rotation speed of the motor 80 is set to high speed, medium speed, and low speed.

When the room temperature of the harmonic space reaches the room set temperature, the temperature controller 20 is turned off to cut off the power supplied to the relay 30. When the power supplied to the relay 30 is cut off, the relay switch 40 returns to the off state, and the power supplied to the compressor 60 is stopped to stop the operation of the compressor 60.

On the other hand, when the terminal (b) of the mode selector 50 is connected to the terminal (c) and in the power saving operation mode, when the power supply switch 10 is turned on, the power is supplied to the relay 30 through the temperature controller 20. As a result, the relay switch 40 is connected to the on state, and the compressor 60 is operated as the external power is supplied to the compressor 60. At this time, the power supplied to the relay 30 is simultaneously supplied to the speed switch 70 through the mode selection unit 50, the rotational speed of the fan motor 80 is determined according to the operation of the speed switch 70.

When the temperature of the temperature control unit 20 reaches the room set temperature, the temperature control unit 20 is turned off and the power supplied to the relay 30 is cut off. Therefore, as the relay switch 40 returns to the off state and the power supply to the compressor 60 is stopped, the operation of the compressor 60 is stopped. In addition, when the temperature control unit 20 is off, the power supplied to the speed switch 70 through the selection switch 50 is cut off, so that the operation of the fan motor 80 is stopped.

Then, when the temperature of the temperature control unit 20 is lower than the set temperature, the temperature control unit 20 returns to the on state and the fan motor 80 and the compressor 60 are restarted.

In the normal operation mode of the conventional air conditioner, when the temperature of the temperature controller reaches the set temperature, the compressor is stopped, and the fan motor rotates at the speed selected by the user so that the air is circulated in the harmonic space and the air conditioner and the compressor is restarted. The interval between the two is shortened, thereby increasing the energy use. Conventionally, in order to prevent this, by providing a power saving operation mode for stopping the compressor and the fan motor together, the re-start interval of the compressor is increased to reduce the number of times the compressor is restarted, thereby saving energy consumed by restarting.

However, when the fan motor is stopped in the power saving operation mode, the circulation of air does not occur between the inside and the outside of the air conditioner. A temperature deviation of about 3-4 ° C. occurs. Therefore, although the room temperature of the harmonized space rises and a restart is required, the compressor is not restarted even when the desired temperature set by the consumer is reached due to the temperature deviation, thereby lowering the reliability of the product.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and an object of the present invention is to provide an air conditioner for rotating a fan motor at a predetermined rotational speed to remove a temperature deviation between an internal temperature and an external temperature in an air conditioner. .

1 is a circuit diagram of a conventional air conditioner.

2 is a circuit diagram of an air conditioner according to the present invention.

3 is a block diagram of an air conditioner using a microcomputer as another embodiment of the present invention.

4 is a flowchart illustrating a control method of the embodiment of FIG. 3.

* Description of the symbols for the main functions of the drawings *

100: power supply switch 110: temperature control unit

120: compressor 130: mode selector

140: relay 150: the first relay switch

160: speed switch 170: second relay switch

180: fan motor 190: switching means

210: operation unit 220: temperature detection unit

230: microcomputer 250: compressor drive unit

270: fan motor drive unit

The present invention for achieving the above object in the air conditioner having a compressor and a fan motor, the temperature control unit for supplying / cutting off the power of the compressor, the mode selection unit for selecting the operation mode, the operation of the temperature control unit And switching means for switching the operation mode of the fan motor to the normal operation mode or the power saving operation mode in association with the mode selection unit.

The present invention also provides an air conditioner having a compressor and a fan motor, comprising: a compressor driver for driving the compressor, a fan motor driver for driving the fan motor, a mode selector for selecting an operation mode, and detecting an indoor temperature. When the temperature sensing unit and the power saving operation mode is selected and the room temperature reaches the set temperature, the compressor driving unit and the fan motor driving unit are controlled to cut off the power of the compressor and rotate the fan motor at a predetermined rotation speed. It characterized in that it comprises a control unit.

In addition, the present invention includes a control method of the air conditioner, comprising the steps of determining whether the power saving operation mode and the power saving operation mode of the compressor in the step comprising the step of rotating the fan motor at a predetermined rotation speed It is characterized by.

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

2 is a circuit diagram of an air conditioner according to the present invention. As shown in Figure 2, when explaining the configuration of the present invention is installed on the evaporator side temperature control unit 110 to cut off the power supply of the compressor 120, and the mode for selecting the normal operation mode or power saving operation mode In response to the operation of the selector 130 and the temperature controller 110, the fan motor 180 is rotated at the rotational speed of the normal operation mode or the rotational speed of the power saving operation mode in association with the mode selection unit 130. It consists of a switching means (190).

The switching means 190 is a relay 140 that is supplied with power through the temperature control unit 110 and the first relay switch 150 for supplying power so that the fan motor 180 is rotated in the normal operation mode. And a second relay switch 170 which is interlocked with the first relay switch 150 and supplies power to rotate the fan motor 180 in a power saving operation mode. The second relay switch 170 It is connected to the coil of the tap terminal to operate at a lower rotation speed than the rotation speed of the normal operation mode of the plurality of tap terminals provided in the fan motor 180.

The first relay switch 150 and the second relay switch 170 are operated in the off state from the on state of the first relay switch 150 according to the driving of the relay 140, and at the same time, the second relay switch 170 It operates from the off state to the on state and returns to the original state when the power supply to the relay is cut off.

In addition, the present invention is connected to the external power source and the power supply switch 100 for supplying power and the speed switch 160 having a plurality of switches to control the speed of the fan motor 180 in accordance with the driving of the relay 140 ). The speed switch 160 is connected to a plurality of tap terminals provided in the fan motor 180 as in the prior art, and these tap terminals are connected to coils of different rotational speeds so as to correspond to high speed, medium speed, and low speed.

The power supply switch 100 is connected to the compressor 120 via the temperature control unit 110, the off terminal (a) of the temperature control unit 110 via the mode selection unit 130 relay ( 140).

2, the air conditioner according to the present invention operates in the normal operation mode or the power saving operation mode according to the operation of the mode selection unit 130, in the normal operation mode by turning off the mode selection unit 130, As the relay 140 maintains the off state, power is introduced into the speed switch 160 through the first relay switch 150, and thus, the fan motor 180 may initially operate the speed switch 160. The fan motor 180 rotates at the rotational speed of the normal operation mode of the fan motor 180.

When the power supply switch 100 is turned on, power is supplied to the compressor 120 through the temperature control unit 120, thereby operating the compressor 120. On the other hand, when the temperature of the temperature control unit 120 reaches the room set temperature, the temperature control unit 110 is turned off, whereby the power supplied to the compressor 120 is cut off to stop driving, the temperature control unit When the temperature of 120 reaches the set temperature, the temperature controller 110 is turned on to operate the compressor again.

When the power saving operation mode is selected by turning on the mode selector 130, the temperature of the temperature control unit 120 reaches the room set temperature in the normal operation mode and is connected to the terminal (a) of the temperature control unit 110. Accordingly, power is supplied to the relay 140 through the mode selector 130. As a result, the relay 140 is driven and the first relay switch 150 is operated from the on state to the off state according to the operation of the relay 140. The power supplied to stop the fan motor 180 which is rotating at any one of the low speeds is stopped.

At the same time, the second relay switch 170, which is operated in conjunction with the first relay switch 150, is turned on in the off state to supply power to the fan motor 180 to rotate at the rotational speed of the power saving operation mode. Accordingly, the fan motor 180 is rotated in the power saving operation mode, and then, when the temperature of the temperature controller 110 reaches the set temperature, the compressor 120 and the fan motor 180 are started again to the initial set state. .

3 is a block diagram of an air conditioner using a microcomputer as another embodiment of the present invention. As shown in FIG. 3, the mode selection unit 200 for selecting the normal operation mode or the power saving operation mode, the operation unit 210 for selecting the indoor temperature and the fan motor speed, and the temperature sensing for detecting the indoor temperature. The microcomputer 230 for generating a control signal according to the output signal of the unit 220, the mode selection unit 200, the operation unit 210 and the temperature sensing unit 220, and the compressor 240 in accordance with the control signal And a fan motor driver 270 for driving the fan motor 260 according to the control signal.

4 is a flowchart illustrating a control method of the embodiment of FIG. 3. As shown in FIG. 4, when the user inputs the desired room temperature and the speed of the fan motor, the microcomputer 330 determines whether the power saving operation mode is selected through the mode selection unit 300 (S100).

If the user inputs the room temperature at 26 ° C., the fan speed at a high speed, and selects a power saving operation mode, the microcomputer 230 controls the compressor 240 through the compressor driver 250 to control the air conditioner accordingly. Drive the motor (S110) and then drive the fan motor 260 at high speed through the fan motor driver 270 (S120) (the tap terminal has a tap terminal adapted to a rotation speed corresponding to high speed, medium speed, and low speed). Is connected, and the fan motor drive unit rotates at high speed, medium speed, and low speed according to the selected rotation speed by supplying power to the tap terminal).

After the step S120, the microcomputer 230 detects the indoor temperature through the temperature sensing unit 220 (S130), and the microcomputer 230 determines whether the detected indoor temperature reaches 26 ° C (S140). If it is determined that the temperature does not reach 26 ° C., the detected temperature is continuously checked. If the temperature reaches 26 ° C., the microcomputer 230 stops the compressor 240 being driven through the compressor driving unit 250 ( In operation S160, the fan motor 260 that is rotating at a high speed is rotated at a predetermined speed, that is, a rotation speed lower than the rotation speed of the fan motor in the normal operation mode (S160).

As described in detail above, the present invention does not turn off the fan motor when the indoor temperature reaches the set temperature in the power saving operation mode of the air conditioner, and rotates the internal power saving mode by setting the power saving operation mode in advance. There is an effect that the temperature deviation of.

In addition, the present invention can be cooled by using the latent heat of the indoor air has an energy saving effect.

In addition, the present invention allows the temperature change inside the air conditioner to proceed normally, when the room temperature reaches the desired temperature set by the consumer, the air conditioner can be restarted normally has the effect of improving the reliability of the product.

Claims (7)

In air conditioners with compressors and fan motors, Temperature control unit for supplying / blocking the power of the compressor, Mode selector for selecting the operation mode, And a switching means for switching the operation mode of the fan motor to the normal operation mode or the power saving operation mode in association with the mode selection unit according to the operation of the temperature control unit. The method of claim 1, The switching means includes a relay supplied with power through the temperature control unit; And a second relay switch turned on in the normal operation mode and a second relay switch turned on in the power saving operation mode according to the driving of the relay. The method of claim 1, And the fan motor rotation speed in the power saving operation mode is lower than the fan motor rotation speed in the normal operation mode. In an air conditioner having a compressor and a fan motor, Compressor drive unit for driving the compressor, Fan motor drive unit for driving the fan motor Mode selector for selecting the operation mode, Temperature sensing unit for detecting the indoor temperature, And a control unit for controlling the compressor driving unit and the fan motor driving unit to cut off the power of the compressor and rotate the fan motor at a predetermined rotation speed when the power saving operation mode is selected and the room temperature reaches the set temperature. Air conditioner, characterized in that. The method of claim 4, wherein And the set rotation speed is lower than the fan motor rotation speed in the normal operation mode. delete delete