KR100755303B1 - Method heat operating of air-conditioner - Google Patents

Abstract

The present invention relates to a heating operation method of an air conditioner, wherein the indoor fan is converted to a high speed rotation mode in response to a refrigerant pipe temperature of an indoor heat exchanger, and when the indoor fan is in the high speed rotation mode, the temperature of the outdoor heat exchanger refrigerant pipe In response to the outdoor fan to be turned off, the outdoor fan is prevented from being turned on / off when the indoor fan rotates at a low speed, thereby increasing the heating efficiency.

Indoor Temperature Sensing Phase, Fast Rotation Mode Switching Phase, Outdoor Temperature Sensing Phase, Outdoor Fan Off Phase

Description

Heating method of air conditioner {Method heat operating of air-conditioner}             

1 is a schematic diagram showing the configuration of a general air conditioner,

2 is a flowchart illustrating a heating operation method of an air conditioner according to the prior art;

3 is a flowchart illustrating a heating operation method of an air conditioner according to the present invention.

The present invention relates to a heating operation method of an air conditioner, and more particularly, to measure the temperature of a refrigerant pipe of an outdoor heat exchanger, and to measure the temperature of a refrigerant pipe of an indoor heat exchanger, and thus to turn on / off an outdoor fan. It relates to a heating operation method of the conditioner.

1 is a schematic diagram showing the configuration of a general air conditioner. The air conditioner is a compressor 11 for changing a low temperature low pressure gaseous refrigerant to high temperature and high pressure, as shown in FIG. 11) the four-way valve 12 which sends the refrigerant from the outdoor heat exchanger 13 when cooling to the indoor heat exchanger 15 when heating, and condensing means for condensing the gas refrigerant of high temperature and high pressure with liquid refrigerant (when cooling). An outdoor heat exchanger (13), an indoor heat exchanger (15) during heating, an expansion mechanism (14) for expanding a liquid refrigerant condensed by the condensation means into a low-temperature, low-pressure two-phase refrigerant mixed with a solid and a liquid; Evaporation means (absorption of indoor heat exchanger (15), outdoor heat exchanger (13), and side surfaces of the outdoor heat exchanger (13)) for absorbing external heat to change the two-phase refrigerant into a gas state. To increase heat exchange efficiency by blowing air toward the air Et al consists of a fan 17 and a motor (17a) and the indoor fan 16 and a motor (16a) (108) installed in the indoor heat exchanger (15) the difference between the updated air discharge or warmed through the heat exchanger to the room.

2 is a flowchart illustrating a heating operation method of an air conditioner according to the related art.

First, in step 1, the refrigerant pipe temperature t of the outdoor heat exchanger 13 is sensed (see S1).

In the second step, when the refrigerant pipe temperature t detected in the first step exceeds the first set value t1, the outdoor fan 17 is turned off to perform a heating operation (see S2 and S3).

In step 3, after the outdoor fan 17 is turned off in step 2, the refrigerant pipe temperature t of the outdoor heat exchanger 13 is continuously sensed so that the refrigerant pipe temperature t becomes the first set value t1. When the temperature falls below the second set value t2, the outdoor fan 17 is turned on to perform normal heating operation (see S4 and S5).                         

However, since the heating operation method of the air conditioner according to the prior art as described above is on / off of the outdoor fan according to the refrigerant pipe temperature of the outdoor heat exchanger irrespective of the operation mode of the indoor fan installed in the indoor heat exchanger. Even when the indoor fan operates in a low speed rotation mode, the outdoor fan is turned off to operate, thereby reducing efficiency in heating operation of the air conditioner.

The present invention has been made to solve the above problems of the prior art, the object of which is to detect the refrigerant tube temperature of the indoor heat exchanger and at the same time to detect the refrigerant tube temperature of the indoor heat exchanger As a result, the on / off of the outdoor fan is determined according to the indoor fan whose rotation mode is changed, thereby increasing the heating efficiency.

According to a feature of the present invention for solving the above problems, a mode in which the indoor fan installed in the indoor heat exchanger is set to a high speed rotation mode when the temperature of the refrigerant pipe of the indoor heat exchanger is detected and the temperature is greater than or equal to the first set value. And a temperature sensing step of sensing a refrigerant pipe temperature of the outdoor exchanger when the indoor fan is rotated at a high speed and the refrigerant absorbing cold air in the room flows into the outdoor heat exchanger through a compressor. When the temperature detected in the temperature sensing step is greater than or equal to the second set value, the outdoor fan is turned off to perform an overload operation by turning off the outdoor fan installed in the outdoor heat exchanger.

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

Figure 1 is a schematic diagram showing the configuration of a general air conditioner, Figure 3 is a flow chart showing a heating operation method of the air conditioner according to the present invention.

In the heating operation method of the air conditioner according to the present invention, as shown in Fig. 3, first, the refrigerant pipe temperature (x) of the indoor heat exchanger 15 is detected in step 1 (see S11).

At this time, the indoor fan 16 forcibly blown by the indoor heat exchanger 15 rotates in a mode initially set by the user.

In the second step, when the refrigerant pipe temperature (x) detected in the first step is equal to or greater than the first set value (a), the indoor fan 16 is converted to a high speed rotation mode in which the rotation speed is higher than the rotation mode set by the user. See S12 and S13)

At this time, when the refrigerant pipe temperature (x) of the indoor heat exchanger 15 is less than the first set point (a), the refrigerant pipe temperature (x) of the indoor heat exchanger 15 is continuously detected.

In the third step, after the indoor fan 16 is converted to the high speed rotation mode in the second step, the refrigerant pipe temperature (x) of the indoor heat exchanger (15) is increased by the third setpoint (c) than the first setpoint (a). If it is not lowered, the refrigerant pipe temperature y of the outdoor heat exchanger 13 is sensed (see S14 and S15).

Here, when the refrigerant pipe temperature (x) of the indoor heat exchanger (15) falls below the third set point (c) than the first set point (a), the indoor fan 16 is rotated initially set by the user The mode is changed (see S16).

Step 4 turns off the outdoor fan 17 when the refrigerant pipe temperature y of the outdoor heat exchanger 13 detected in step 3 is greater than or equal to the second set point b (see S17 and S18).

In the fifth step, after the outdoor fan 17 is turned off in the fourth step, the refrigerant pipe temperature y of the outdoor heat exchanger 13 is continuously sensed, and thus the fourth set value d is compared with the second set value b. In case of abnormally lowering, the outdoor fan 17 is turned on to perform normal heating operation (see S19 and S20).

In the heating operation method of the air conditioner of the present invention configured as described above, the interior of the indoor heat exchanger is changed by the refrigerant pipe temperature of the indoor heat exchanger by sensing the temperature of the refrigerant pipe of the indoor heat exchanger and at the same time. By determining the on / off of the outdoor fan according to the rotation mode of the fan, the outdoor fan is prevented from being turned on / off when the indoor fan rotates at a low speed, thereby increasing the heating efficiency.

Claims (3)

An indoor temperature sensing step of sensing a temperature of a refrigerant pipe of the indoor heat exchanger; A high speed rotation mode conversion step of rotating an indoor fan forcibly blown by the indoor heat exchanger at a higher speed than a rotation mode initially set by a user when the temperature detected in the indoor temperature sensing step exceeds a first set value; An outdoor temperature sensing step of sensing a coolant tube temperature of an outdoor heat exchanger during the high speed rotation mode conversion step; And an outdoor fan off step of turning off the outdoor fan forcibly blown by the outdoor heat exchanger when the temperature sensed in the outdoor temperature detection step exceeds a second set value. The method of claim 1, The high speed rotation mode converting step may further include an initial mode switching step of switching to a rotation mode initially set by a user when the refrigerant pipe temperature of the indoor heat exchanger is lowered by more than a third set value from the first set value. Heating operation method of air conditioner. The method of claim 1, The outdoor fan off step further includes an outdoor fan operating step of turning on the outdoor fan when the refrigerant pipe temperature of the outdoor exchanger is lowered by a fourth set value or more than the second set value. Way.

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