JP2011106743A - Outdoor unit of air conditioner - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an outdoor unit of an air conditioner, which suppresses the degradation of a heating capacity due to wrong detection of frost formation. <P>SOLUTION: An outdoor fan 5 generates airflow passing through an outdoor heat exchanger 4. A temperature sensor 6 measures the temperature of the outdoor heat exchanger 4. A control section 7 controls the rotational frequency of the outdoor fan 5 based on the outdoor heat exchanger temperature and a defrosting entry temperature (DIN) for starting a defrosting operation, and in heating, the control section 7 executes a first control for reducing the rotational frequency of the outdoor fan 5 from the initial rotational frequency when a first temperature difference value as a value obtained by subtracting the defrosting entry temperature from the outdoor heat exchanger temperature is a positive prescribed value (α) or less, and a second control for returning the rotational frequency of the outdoor fan 5 to the initial rotational frequency when a second temperature difference value as a value obtained by subtracting a new defrosting entry temperature from a newly measured-outdoor heat exchanger temperature is more than a value obtained by subtracting a prescribed value (β) from the first temperature difference value, for a prescribed time period after the first control. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to an outdoor unit of an air conditioner, and more particularly to an outdoor unit that determines the presence or absence of frost on an outdoor heat exchanger.

  An outdoor unit of an air conditioner includes an outdoor heat exchanger and an outdoor fan. When frosting on the outdoor heat exchanger progresses during heating, the frost becomes ventilation resistance and the capacity of the air conditioner decreases. In addition, frost formation can be removed if the defrosting operation is started immediately after the detection of frost formation, but this is not preferable because the operation efficiency of the air conditioner decreases.

  As a countermeasure against such a problem, when frost formation on the outdoor heat exchanger is detected or estimated during the heating operation, fan control during frost formation for reducing the rotation speed of the outdoor fan is performed before the defrost operation. Outdoor unit that suppresses a decrease in operating efficiency by starting the defrosting operation when the defrosting operation start condition is satisfied when the frosting fan control is executed. Is disclosed (for example, see Patent Document 1).

JP 2009-58222 A

  In Patent Document 1, the outside air temperature and the outdoor heat exchanger temperature are less than a predetermined value as a start condition for fan control during frost formation. However, frost formation may not occur when humidity is low even if each temperature is low. Incorrect detection of frost formation may occur. When erroneous detection of frosting occurs, the fan control operation at the time of frosting is started even if frosting is not actually performed, so that the heating capacity is reduced. Thus, in patent document 1, the countermeasure at the time of the misdetection of frost formation is not disclosed.

  Then, this invention aims at providing the outdoor unit of the air conditioner which can suppress the fall of a heating capability by determining whether it is a misdetection of frost formation in the front stage of a defrost operation. .

  A first aspect of an outdoor unit of an air conditioner according to the present invention includes an outdoor heat exchanger (4), an outdoor fan (5) that generates a flow of air passing through the outdoor heat exchanger (4), The outdoor fan includes a temperature sensor (6) for measuring an outdoor heat exchanger temperature of the outdoor heat exchanger (4), the outdoor heat exchanger temperature, and a defrosting entry temperature (DIN) for starting a defrosting operation. A controller (7) that controls the number of rotations of (5), and during heating, the controller (7) is a value obtained by subtracting the defrost entry temperature from the outdoor heat exchanger temperature. When the temperature difference value is equal to or less than a positive predetermined value (α), the first control for lowering the rotational speed of the outdoor fan (5) from the initial rotational speed and a new period for the predetermined period after the first control A second temperature difference which is a value obtained by subtracting the new defrost entry temperature from the measured outdoor heat exchanger temperature. Is greater than a value obtained by subtracting a predetermined value (β) from the first temperature difference value, the second control is performed to return the rotational speed of the outdoor fan (5) to the initial rotational speed. .

  A second aspect of the outdoor unit for an air conditioner according to the present invention is the outdoor unit for an air conditioner according to the first aspect, wherein the predetermined value (β) is a positive value of any one of 1 to 3. It is a value.

  A third aspect of the outdoor unit for an air conditioner according to the present invention is the outdoor unit for an air conditioner according to the first or second aspect, wherein the second unit after the predetermined period after the first control. Is equal to or less than a value obtained by subtracting a predetermined value (β) from the first temperature difference value, and the new outdoor heat exchanger temperature is the new defrost entry temperature (DIN). In the following cases, the defrosting operation is started.

  The 4th aspect of the outdoor unit of the air conditioner which concerns on this invention is an outdoor unit of the air conditioner which concerns on a 1st aspect, Comprising: The said control part (7) memorize | stores the said 1st temperature difference value. The storage unit (8) is further provided.

  According to the first aspect of the outdoor unit for an air conditioner according to the present invention, in the outdoor unit for an air conditioner, the controller performs the second control, so that the outdoor unit of the air conditioner arrives at the stage before the defrost entry temperature is reached. It is possible to determine whether or not frost is erroneously detected, and it is possible to suppress a decrease in heating capacity.

  According to the 2nd aspect of the outdoor unit of the air conditioner which concerns on this invention, whether a control part performs 2nd control, it is whether it is a false detection of frost at the stage before becoming defrost entry temperature. It becomes possible to judge.

  According to the 3rd aspect of the outdoor unit of the air conditioner which concerns on this invention, after the predetermined period after 1st control, when an outdoor heat exchanger temperature is below a defrost entry temperature, defrost operation is started. Is possible.

  According to the 4th aspect of the outdoor unit of the air conditioner which concerns on this invention, the 1st temperature difference value memorize | stored in the memory | storage part can be used at the time of 2nd control, and the misdetection detection of frost formation is performed. Contribute to it.

It is the figure which showed an example of the notional structure of an air conditioner. It is the figure which showed an example of the notional structure of a control part. It is a flowchart which shows an example of the control in a control part.

<Embodiment>
FIG. 1 is a diagram illustrating an example of a conceptual configuration of the air conditioner 1. As shown in FIG. 1, the air conditioner 1 includes an outdoor unit 2 and an indoor unit 3. The outdoor unit 2 includes an outdoor heat exchanger 4, an outdoor fan 5, a temperature sensor 6, and a control unit 7. The outdoor fan 5 generates a flow of air passing through the outdoor heat exchanger 4, and the temperature sensor 6 measures the external heat exchange temperature (outdoor heat exchanger temperature) of the outdoor heat exchanger 4.

  The outdoor unit 2 includes a compressor 9 and an expansion valve 10, and the indoor unit 3 includes an indoor heat exchanger 11. The outdoor unit 2 and the indoor unit 3 have a refrigerant circuit, and the refrigerant in the refrigerant circuit circulates through the outdoor heat exchanger 4, the compressor 9, the indoor heat exchanger 11, and the expansion valve 10. .

  FIG. 2 is a diagram illustrating an example of a conceptual configuration of the control unit 7. As shown in FIG. 2, the control unit 7 is electrically connected between the outdoor fan 5 and the temperature sensor 6, and removes the external heat exchange temperature of the outdoor heat exchanger 4 and the defrosting operation. The rotational speed of the outdoor fan 5 is controlled by the frost entry temperature (DIN). The control unit 7 includes a storage unit 8.

  FIG. 3 is a flowchart illustrating an example of control in the control unit 7. As shown in FIG. 3, when the heating operation starts, the process waits until the compressor 9 starts operating in step S <b> 1.

  When the compressor 9 starts operating, the outdoor fan 5 is operated in step S2. At this time, the rotation speed of the outdoor fan 5 is an initial value.

  Thereafter, the timer (T1) is set and started in step S3, and the process waits until the timer (T1) elapses in step S4. The predetermined period (T1) after the start of the heating operation does not frost on the outdoor heat exchanger 4, and is set to prevent erroneous detection of frost formation.

  When the timer (T1) elapses, in step S5, the outdoor heat exchanger temperature (outdoor heat exchanger temperature) of the outdoor heat exchanger 4 measured by the temperature sensor 6 is read. In addition, since the possibility of frost formation is low if the difference between the outside air temperature and the outside heat exchange temperature is equal to or less than a predetermined value, the present flowchart may be omitted.

  After measuring the external heat exchange temperature, in step S6, it is determined whether or not the measured external heat exchange temperature is equal to or less than a value (temperature) obtained by adding a positive predetermined value (α) to the defrost entry temperature (DIN). . That is, it is determined whether or not a value (first temperature difference) obtained by subtracting the defrost entry temperature from the external heat exchange temperature is equal to or less than a predetermined positive value (α). Here, the defrost entry temperature (DIN) is expressed as a function of the operating frequency (Hz) of the compressor 9 and the outside air temperature (° C.), and varies depending on each parameter value.

  If “YES” is determined in step S 6, a value obtained by subtracting the defrost entry temperature (DIN) from the external heat exchange temperature (first temperature difference) is stored in the storage unit 8 of the control unit 7 in step S 7. It is stored as “DINMEM1”.

  After “DINMEM1” is stored in step S7, a timer (T2) is set and started in step S8. In step S9, the rotational speed of the outdoor fan 5 is reduced (first control). The rotational speed of the outdoor fan 5 set in step S9 is a value obtained by subtracting a predetermined value (X) from the initial value.

  A value obtained by subtracting a new defrosting entry temperature (DIN) from the newly measured outside heat exchange temperature in step S10 during the period of the timer (T2) after the rotational speed of the outdoor fan 5 is reduced in step S9 It is determined whether or not the temperature difference value of 2 is greater than a value obtained by subtracting a predetermined value (β) from “DINMEM1 (first temperature difference value)”. At this time, “DINMEM1” is read from the storage unit 8 of the control unit 7. The predetermined value (β) is, for example, a positive value of 1 to 3.

  If “YES” is determined in the step S10, it is determined whether or not the timer (T2) has elapsed in a step S11. In step S12, the rotational speed of the outdoor fan 5 is returned to the initial value. The determination of “YES” in step S10 means that the amount of decrease in the external heat exchange temperature after reducing the rotational speed of the outdoor fan 5 in step S9 is small and frosting has not occurred (error in frosting). Therefore, the rotational speed of the outdoor fan 5 is returned to the initial value. That is, after the rotational speed of the outdoor fan 5 is decreased, it is determined that frost is formed when the amount of decrease in the external heat exchange temperature is large, but the amount of decrease in the external heat exchange temperature is small (in step S10, “ YES ”), it is determined that the frost is not formed because the humidity is low (false detection of frost formation). Thus, it is possible to suppress a decrease in heating capacity by determining whether or not frost formation is erroneously detected in the previous stage of the defrosting operation.

  After step S12, a timer (T3) is set and started in step S13, and the process waits until the timer (T3) elapses in step S14. When the timer (T3) elapses, the process returns to “A”. That is, the process returns to step S5.

  On the other hand, if “NO” is determined in the step S10, it is determined whether or not the external heat exchange temperature is equal to or lower than the defrosting entry temperature (DIN) in a step S15. When it is determined that the external heat exchange temperature has become equal to or lower than the defrost entry temperature (DIN) and it is determined that the timer (T2) has elapsed in step S16, the defrost operation is started in step S17. . That is, after the timer (T2) elapses, the second temperature difference value measured in step S10 is equal to or less than the value obtained by subtracting the predetermined value (β) from the first temperature difference value, and a new external heat exchange is performed. If the temperature is lower than the new defrost entry temperature (DIN), the defrost operation is started. If “NO” is determined in steps S15 and S16, the process returns to step S10.

4 outdoor heat exchangers,
5 outdoor fans,
6 temperature sensor,
7 Control unit,
8 Storage unit.

Claims (4)

Outdoor heat exchanger (4),
An outdoor fan (5) for generating a flow of air passing through the outdoor heat exchanger (4);
A temperature sensor (6) for measuring an outdoor heat exchanger temperature of the outdoor heat exchanger (4);
A control unit (7) for controlling the rotational speed of the outdoor fan (5) by the outdoor heat exchanger temperature and the defrosting entry temperature (DIN) for starting the defrosting operation;
With
At the time of heating, the control unit (7), when a first temperature difference value, which is a value obtained by subtracting the defrost entry temperature from the outdoor heat exchanger temperature, is equal to or less than a predetermined positive value (α), The first control for lowering the rotation speed of the outdoor fan (5) from the initial rotation speed, and the new defrost entry temperature is subtracted from the newly measured outdoor heat exchanger temperature for a predetermined period after the first control. When the second temperature difference value, which is a value obtained by subtracting a predetermined value (β) from the first temperature difference value, is greater than the first temperature difference value, the second rotational speed of the outdoor fan (5) is returned to the initial rotational speed. The outdoor unit of the air conditioner characterized by performing control of.   The outdoor unit for an air conditioner according to claim 1, wherein the predetermined value (β) is any one of 1 to 3.   After a predetermined period after the first control, the second temperature difference value is equal to or less than a value obtained by subtracting a predetermined value (β) from the first temperature difference value, and the new outdoor heat exchanger is further reduced. The outdoor unit for an air conditioner according to claim 1 or 2, wherein the defrosting operation is started when the temperature is equal to or lower than the new defrosting entry temperature (DIN).   The outdoor unit of an air conditioner according to claim 1, wherein the control unit (7) further includes a storage unit (8) for storing the first temperature difference value.

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