JP6704491B1 - Air conditioner - Google Patents

Abstract

An object of the present invention is to prevent deterioration of air conditioning performance due to corrosion of an outdoor heat exchanger. An air conditioner having an outdoor unit and an indoor unit, in which an outdoor heat exchanger having fins and an operation of depositing frost or ice on the surfaces of the fins of the outdoor heat exchanger are periodically executed. And a control unit for controlling the operation. [Selection diagram] Fig. 4

Description

The present invention relates to an air conditioner.

In the air conditioner, dust adheres to the heat exchanger of the outdoor unit as the usage time increases. On the other hand, Patent Document 1 discloses a technique in which a hydrophilic coating film is formed on a fin surface at a predetermined timing to maintain antifouling property and hydrophilicity for a long period of time.

JP, 2014-228221, A

However, in the area near the coast, there is a problem that the fins of the heat exchanger are melted due to the corrosion caused by the salt content of seawater, so that the plate thickness of the fins is reduced or holes are formed. When these phenomena occur, the heat exchange rate of the fins decreases, and the air conditioning performance deteriorates.

The present invention has been made in view of such problems, and an object thereof is to prevent deterioration of air conditioning performance due to corrosion of the outdoor heat exchanger.

The present invention is an air conditioner having an outdoor unit and an indoor unit, an outdoor heat exchanger having fins, and an operation of attaching frost or ice to the surface of the fins provided in the outdoor heat exchanger, After the start of the operation, when the first period, which is a period that is integrated according to the passage of time regardless of the presence or absence of the air-conditioning operation, has elapsed, the following frost or ice is adhered to the surface of the fins. And a control unit that controls to execute the operation.

According to the present invention, it is possible to prevent deterioration of air conditioning performance due to corrosion of the outdoor heat exchanger.

It is an external appearance block diagram which shows an air conditioner. It is a figure which shows the refrigerant circuit of an air conditioner. It is a figure which shows an outdoor heat exchanger. It is a flow chart which shows cleaning operation management processing. It is explanatory drawing of the timing of washing operation.

FIG. 1 is an external configuration diagram showing an air conditioner 1 according to an embodiment. The air conditioner 1 performs air conditioning by circulating a refrigerant in a refrigeration cycle (heat pump cycle). As shown in FIG. 1, the air conditioner 1 includes an indoor unit 10 installed indoors (air-conditioned space), an outdoor unit 20 installed outdoors (outdoor), and a remote controller 30 operated by a user. Is equipped with.

The indoor unit 10 includes a remote controller communication unit 11. The remote controller communication unit 11 transmits/receives a predetermined signal to/from the remote controller 30 by infrared communication or the like. For example, the remote controller communication unit 11 receives from the remote controller 30 signals such as an operation/stop command, a change in set temperature, a change in operation mode, and a timer setting. The remote controller communication unit 11 also transmits the detected value of the room temperature and the like to the remote controller 30. Although not shown in FIG. 1, the indoor unit 10 and the outdoor unit 20 are connected via a refrigerant pipe and also via a communication line.

FIG. 2 is a diagram showing the refrigerant circuit Q of the air conditioner 1 according to the embodiment. In addition, the solid line arrow shown in FIG. 2 has shown the flow of the refrigerant at the time of heating operation. In addition, the broken line arrow shown in FIG. 2 indicates the flow of the refrigerant during the cooling operation.

The indoor unit 10 includes an indoor heat exchanger 12, an indoor fan 14, a temperature sensor 15, and an indoor control unit 16 in addition to the remote control communication unit 11. In the indoor heat exchanger 12, heat exchange is performed between the refrigerant flowing through the heat transfer tube (not shown) and the indoor air sent from the indoor fan 14. The indoor heat exchanger 12 operates as a condenser or an evaporator by switching a four-way valve 25 described later. The indoor fan 14 is installed near the indoor heat exchanger 12. The indoor fan 14 sends indoor air to the indoor heat exchanger 12 by driving the indoor fan motor 14a. The temperature sensor 15 measures the indoor temperature. The indoor control unit 16 is a control board including a CPU, a storage unit, and a communication unit. The indoor control unit 16 controls the entire indoor unit 10. The indoor control unit 16 further controls the entire air conditioner 1 including the outdoor unit 20 by communicating with an outdoor control unit 28 of the outdoor unit 20 described later.

The outdoor unit 20 includes a compressor 21, an outdoor heat exchanger 22, an outdoor fan 23, an outdoor expansion valve 24 (expansion valve), a four-way valve 25, temperature sensors 26 and 27, and an outdoor controller 28. I have it. The compressor 21 is driven by the compressor motor 21a to compress the low-temperature low-pressure gas refrigerant and discharge it as the high-temperature high-pressure gas refrigerant. In the outdoor heat exchanger 22, heat exchange is performed between the refrigerant flowing through the heat transfer tube (not shown) and the outside air sent from the outdoor fan 23. The outdoor heat exchanger 22 operates as a condenser or an evaporator by switching the four-way valve 25.

The outdoor fan 23 is installed near the outdoor heat exchanger 22, as shown in FIG. 1. The outdoor fan 23 sends outside air to the outdoor heat exchanger 22 by driving the outdoor fan motor 23a. The outdoor expansion valve 24 has a function of reducing the pressure of the refrigerant condensed in the "condenser" (one of the outdoor heat exchanger 22 and the indoor heat exchanger 12). The refrigerant decompressed in the outdoor expansion valve 24 is guided to the “evaporator” (the other of the outdoor heat exchanger 22 and the indoor heat exchanger 12).

The four-way valve 25 is a valve that switches the flow path of the refrigerant according to the operation mode of the air conditioner 1. By switching the four-way valve 25, during the cooling operation, as shown by a dashed arrow, the refrigerant is the compressor 21, the outdoor heat exchanger 22 (condenser), the outdoor expansion valve 24, and the indoor heat exchanger 12 (evaporator) in this order. Is a refrigeration cycle in which Further, by switching the four-way valve 25, the compressor 21, the indoor heat exchanger 12 (condenser), the outdoor expansion valve 24, and the outdoor heat exchanger 22 (evaporator) are operated during heating operation as indicated by solid arrows. This is a refrigeration cycle in which the refrigerant circulates in sequence. That is, in the refrigerant circuit Q in which the refrigerant circulates in the refrigeration cycle through the compressor 21, the “condenser”, the outdoor expansion valve 24, and the “evaporator” in that order, the above-mentioned “condenser” and “evaporator”. One is the outdoor heat exchanger 22, and the other is the indoor heat exchanger 12. The temperature sensor 26 measures the temperature of the outdoor heat exchanger 22. The temperature sensor 27 measures the outdoor temperature. The outdoor control unit 28 controls the entire outdoor unit 20.

FIG. 3 is a diagram showing the outdoor heat exchanger 22. FIG. 3A is a schematic view of the outdoor heat exchanger 22. FIG. 3B is a sectional view of the outdoor heat exchanger 22. The outdoor heat exchanger 22 includes a pipe 22a as a heat transfer pipe through which the refrigerant flows, and a plurality of fins 22b connected around the pipe 22a. As described above, dust is attached to the fins 22b by using the air conditioner 1. Further, when the air conditioner 1 is installed near the coast, there is a problem that the fins 22b are melted due to corrosion due to salt content of seawater.

On the other hand, in the air conditioner 1 of the present embodiment, frost is applied to the surfaces of the fins 22b and the frost is melted to wash away the dust and salt adhering to the fins 22b. Specifically, the indoor control unit 16 of the indoor unit 10 operates the outdoor heat exchanger 22 as an evaporator to freeze the moisture in the air taken into the outdoor unit 20 by the outdoor heat exchanger 22. That is, the indoor control unit 16 attaches at least one of frost and ice to the surface of the fin 22b. The indoor control unit 16 then melts frost and ice. As a result, the dust and salt of the outdoor heat exchanger 22 can be washed. Such a series of operations is called a cleaning operation of the outdoor heat exchanger 22. In the air conditioner 1 of this embodiment, the cleaning operation is performed under the control of the indoor control unit 16.

FIG. 4 is a flowchart showing a cleaning operation management process by the indoor control unit 16 of the indoor unit 10. FIG. 5 is an explanatory diagram of the timing of the cleaning operation. The cleaning operation management process will be described with reference to FIG. 5 as appropriate. The indoor control unit 16 regularly performs a cleaning operation. The cleaning operation management process is a process of controlling the execution timing of the cleaning operation. After the installation of the air conditioner 1 is completed, the indoor control unit 16 starts the cleaning operation in step S400 when a predetermined period has elapsed. Specifically, the indoor control unit 16 switches the four-way valve 25 in the direction shown by the solid line in FIG. 2 and operates the outdoor heat exchanger 22 as an evaporator, so that the water content in the air taken into the outdoor unit 20 is increased. Is frozen in the outdoor heat exchanger 22. Then, the indoor control unit 16 adjusts the opening degree of the outdoor expansion valve 24 based on the outdoor temperature measured by the temperature sensor 27. Specifically, the indoor control unit 16 controls the opening degree so that the outdoor expansion valve 24 is throttled as the outdoor temperature is higher. As a result, it is possible to prevent the cleaning operation from taking too long and to efficiently perform the cleaning operation.

Furthermore, when the cleaning operation is started in step S400, the indoor control unit 16 starts counting the cleaning waiting time in step S401. Here, the cleaning waiting time is a value accumulated over time, and the count advances regardless of whether the air conditioning operation is performed. Further, the cleaning waiting period is a period from the timing of executing the cleaning operation to the execution of the next cleaning operation. The cleaning waiting period is set in advance. In the present embodiment, the cleaning waiting period is set to 2 months. As shown in FIG. 5, counting of the cleaning waiting period is started from the cleaning operation start timing. In the present embodiment, the cleaning waiting period is set to 2 months, but the value of the cleaning waiting period is not limited to that in the embodiment.

Next, in step S402, the indoor control unit 16 determines whether or not an instruction to interrupt the cleaning operation has been received in response to a user operation on the remote controller 30. When the indoor control unit 16 receives the interruption instruction (YES in step S402), the process proceeds to step S403. If the suspension instruction is not received (NO in step S402), the indoor control unit 16 advances the process to step S404. In step S403, the indoor control unit 16 interrupts the cleaning operation, and then advances the process to step S405. In this way, the interruption instruction is prioritized even during the cleaning operation, so that the user can perform the air conditioning operation without waiting for the completion of the cleaning operation even during the cleaning operation.

In step S404, the indoor control unit 16 determines whether or not the cleaning operation has been completed. The indoor control unit 16 acquires the temperature measured by the temperature sensor 26 installed in the outdoor heat exchanger 22 after the cleaning operation is started. Then, the indoor control unit 16 determines that the cleaning operation is completed when a certain period of time elapses in a state where the measured temperature is equal to or lower than a predetermined temperature threshold. Here, the temperature threshold is a temperature below freezing, such as -5°C. The fixed time is, for example, 5 minutes. It should be noted that the temperature threshold and the value of the fixed time are set in advance. Further, depending on the environment, it may be assumed that the temperature of the outdoor heat exchanger 22 does not fall below the temperature threshold value, so that the indoor control unit 16 terminates the cleaning after a predetermined time has elapsed since the cleaning was started. You may let me.

Next, in step S405, the indoor control unit 16 dries the outdoor heat exchanger 22. Specifically, the indoor control unit 16 rotates the outdoor fan 23 by driving the outdoor fan motor 23a for a predetermined time. Further, as another example, the indoor control unit 16 heats the outdoor heat exchanger 22 by switching the four-way valve 25 in the direction shown by the broken line in FIG. 2 and operating the outdoor heat exchanger 22 as a condenser. May be. Thereby, the frost can be melted. Further, as another example, the indoor control unit 16 may perform both heating and driving of the outdoor fan 23.

As described above, the cleaning operation is completed by the processing from step S400 to step S405. When the cleaning operation process is completed, the indoor control unit 16 waits until the execution timing of the next cleaning operation process. Specifically, in step S406, the indoor control unit 16 determines whether or not the washable timing has elapsed. Here, the washable timing is a timing that is a fixed period before the end timing of the wash waiting period (see FIG. 5). In the present embodiment, the washable timing is one week before the end timing of the wash waiting period. However, the washable timing is not limited to one week as long as it is a timing a certain time before the processing waiting timing. The indoor control unit 16 waits until the washable timing has passed (NO in step S406), and when the washable timing has passed (YES in step S406), advances the process to step S407.

In step S407, the indoor control unit 16 determines whether the air conditioning operation has ended. The indoor control unit 16 determines that the air conditioning operation is completed when the air conditioning operation is started and then ended. When the air conditioning operation is completed (YES in step S407), the indoor control unit 16 advances the process to step S408. If the air conditioning operation is not completed, that is, if the air conditioning operation is not being performed or during the air conditioning operation (NO in step S407), the indoor control unit 16 advances the process to step S410.

In steps S408 and S409, the indoor control unit 16 determines whether or not the start condition for the cleaning operation is satisfied. That is, in step S408, the indoor control unit 16 acquires the outdoor temperature from the temperature sensor 27. Then, the indoor control unit 16 compares the outdoor temperature with the first temperature threshold value. Here, the first temperature threshold is set in advance. The first temperature threshold is, for example, 32°C. When the outdoor temperature is lower than the first temperature threshold value (YES in step S408), the indoor control unit 16 advances the process to step S409. When the outdoor temperature is equal to or higher than the first threshold value (NO in step S408), the indoor control unit 16 determines that the start condition is not satisfied, and advances the processing to step S410.

In step S409, the indoor control unit 16 acquires the indoor temperature from the temperature sensor 15. Then, the indoor control unit 16 compares the indoor temperature with the second temperature threshold. Here, the second temperature threshold is set in advance. The second temperature threshold is, for example, 32°C. The above-mentioned first temperature threshold value and second temperature threshold value may be equal or different.

When the indoor temperature is equal to or higher than the second threshold value (NO in step S409), the indoor control unit 16 determines that the start condition is not satisfied, and advances the process to step S410. When the indoor temperature is less than the second threshold value (YES in step S409), the indoor control unit 16 determines that the start condition is satisfied, and advances the process to step S400. That is, if the start condition is satisfied after the air conditioning operation ends, the indoor control unit 16 starts the cleaning operation in step S400.

In step S410, the indoor control unit 16 determines whether the cleaning execution timing has elapsed. Here, the cleaning execution timing is a timing between the end timing of the cleaning waiting period and the washable timing. In the present embodiment, the cleaning execution timing is the timing one day before the end timing of the cleaning waiting period (see FIG. 5). However, the washable timing may be any timing between the end timing of the wash waiting period and the washable timing, and is not limited to the embodiment.

If the cleaning execution timing has elapsed (YES in step S410), the indoor control unit 16 advances the process to step S411. If the cleaning execution timing has not elapsed (NO in step S410), the indoor control unit 16 advances the process to step S407. In this way, when the cleaning execution timing has not elapsed, the processing of steps S407 to S409 is performed to wait until the start condition is satisfied after the air conditioning operation. In step S411, the indoor control unit 16 determines whether or not the time at the processing time has passed a predetermined time of night. Here, the predetermined time at night is, for example, the time from midnight to 3:00 am, and is set in advance. For example, in the air conditioner 1, the time zone from 0:00 am to 3:00 am is set as the settable time zone, and the user sets a desired time from this time zone, so that a predetermined night time is set. The time may be set.

The indoor control unit 16 waits until the predetermined time at night (NO in step S411), and when the predetermined time at night has elapsed (YES in step S411), advances the process to step S400. That is, after the cleaning execution timing has elapsed, the indoor control unit 16 executes the cleaning operation on the condition that the night time has elapsed, regardless of whether the start condition is satisfied. In this way, when the end timing of the cleaning waiting period approaches while the start condition is not satisfied, the cleaning operation is executed on the condition that the set time has elapsed regardless of whether the start condition is satisfied. ..

As described above, the indoor control unit 16 can periodically perform the freezing process based on the cleaning waiting period. It is effective to clean the dust according to the use of the air conditioner 1 according to the usage time of the air conditioner 1. However, in the area near the coast, salt content accumulates with the passage of time from the timing when the air conditioner 1 is installed, regardless of the usage time. On the other hand, in the air conditioner 1 of the present embodiment, the indoor control unit 16 regularly executes the cleaning operation of the outdoor heat exchanger 22 regardless of the presence or absence of the air conditioning operation, so that the fins 22b are corroded. Salt can be removed before. Therefore, it is possible to prevent the deterioration of the air conditioning performance due to the corrosion of the outdoor heat exchanger 22.

Further, the indoor control unit 16 is configured to execute the cleaning operation after the air conditioning operation is completed and when the start condition is satisfied in the period between the washable timing and the cleaning execution timing. As a result, it is possible to avoid making the user feel uncomfortable because the cleaning operation is suddenly started when the power supply of the air conditioner is not turned on.

Moreover, when the outdoor temperature is high, it is difficult to efficiently perform the cleaning operation. Therefore, when the outdoor temperature is equal to or higher than the threshold, the starting condition is that the outdoor temperature is lower than the first temperature threshold so that the cleaning operation is not performed. Similarly, even when the room temperature is high, it is difficult to efficiently perform the cleaning operation, and thus the start condition is that the room temperature is less than the second temperature threshold. As a result, the cleaning operation can be performed at an appropriate timing in terms of efficiency.

Furthermore, if the cleaning execution timing has passed without satisfying the start condition after the end of the air conditioning operation, the indoor control unit 16 determines whether the start condition is satisfied regardless of whether or not it is after the air conditioning operation. Regardless of this, the cleaning operation is performed on condition that the predetermined time at night has elapsed. This ensures that the cleaning operation can be started before the end of the cleaning waiting period.

A first modified example of the embodiment will be described. In the present embodiment, in the period between the washable timing and the wash execution timing, the wash operation is performed after the air conditioning operation is completed and when the start condition is satisfied. However, these conditions are not essential, and for example, the indoor control unit 16 may execute the cleaning operation when the start condition is satisfied without considering the timing of ending the air conditioning operation. Further, as another example, the indoor control unit 16 may start the cleaning operation after the air conditioning operation is completed, regardless of whether the start condition is satisfied.

As a second modification, in the present embodiment, the cleaning operation management process is performed by the indoor control unit 16, but the main body of the cleaning operation management process is not limited to the indoor control unit 16. As another example, the outdoor control unit 28 of the outdoor unit 20 may execute the cleaning operation management process. Further, the management process may be realized by the cooperation of the indoor control unit 16 and the outdoor control unit 28. Thus, the control unit corresponds to at least one of the indoor control unit 16 and the outdoor control unit 28. In addition, in an air conditioning system including a management device that manages one or more indoor units and one or more outdoor units, the management device may execute the cleaning operation management process for each outdoor unit included in the air conditioning system. ..

As a third modification, the cleaning waiting period may be different depending on the season. For example, when it is known that the degree of salt damage varies depending on the season, the indoor control unit 16 sets a longer waiting period in the season when the degree of salt damage is greater than that in the season when the degree of salt damage is low. You may.

As a fourth modification, the cleaning waiting period may be set according to the installed environment. For example, the outdoor unit 20 includes an anemometer (not shown), and the indoor control unit 16 sets a cleaning waiting period of an appropriate length according to the air volume detected by the anemometer in a predetermined period such as one month. You may set it. In addition, as another example, the indoor control unit 16 measures the outdoor temperature, the outdoor humidity, and the like during a predetermined period, and sets a cleaning waiting period of an appropriate length according to the measured outdoor temperature and outdoor humidity. You may.

Further, the indoor control unit 16 may acquire the position information from a mobile device (not shown) such as a smartphone carried by the user of the air conditioner 1. Then, the indoor control unit 16 calculates the distance from the sea based on the position information and the map information stored in the indoor control unit 16, and sets the cleaning waiting period according to the distance from the sea. Good. Further, as a simpler configuration, for the air conditioner 1 that is shipped to a region with high salt damage, selection buttons such as "along the coast" and "there is a building separating the wind from the coast" at the time of installation. May be selectable on the remote controller 30, for example. In this case, the indoor control unit 16 may set the cleaning waiting period according to the selected information.

1 Air Conditioner 10 Indoor Unit 16 Indoor Control Unit 20 Outdoor Unit 22 Outdoor Heat Exchanger 22b Fins 23 Outdoor Fan 28 Outdoor Control Unit

Claims (11)

An air conditioner having an outdoor unit and an indoor unit,
An outdoor heat exchanger with fins,
It is a period in which frost or ice is adhered to the surfaces of the fins provided in the outdoor heat exchanger, and after the operation is started, the period is accumulated according to the passage of time regardless of the presence or absence of the air conditioning operation . An air conditioner having a control unit that controls to execute the next operation of causing frost or ice to adhere to the surfaces of the fins when the period of 1 has elapsed. The control unit controls to execute the next operation before a second period that is a predetermined period from the timing when the operation is performed and is longer than the first period. The air conditioner according to claim 1. The air conditioner according to claim 2, wherein the control unit controls to start the next operation when the operation is executed, the first period elapses, and a predetermined start condition is satisfied. Machine. The air conditioner according to claim 3, wherein the start condition is that an outdoor temperature in which the outdoor unit is installed is lower than a predetermined first temperature threshold value. The air conditioner according to claim 3 or 4, wherein the start condition is that the temperature of the room in which the indoor unit is installed is less than a predetermined second temperature threshold. The control unit determines whether or not the start condition is satisfied when the air conditioning operation is performed after the first period has elapsed and the air conditioning operation is stopped. The air conditioner according to any one of claims. When the control unit determines that the start condition is not satisfied, the control unit periodically repeats the determination as to whether the start condition is satisfied. The air conditioner according to any one of claims 3 to 6, which controls to execute the next operation when a third period between the second periods has elapsed. The air according to claim 7, wherein the control unit controls to execute the next operation at a predetermined time of night when the third period elapses without determining that the start condition is satisfied. Harmony machine. The air conditioner according to any one of claims 1 to 8, wherein the control unit controls the opening degree of the expansion valve during the operation according to the temperature outside the room where the outdoor unit is installed. The air conditioner according to claim 3, wherein when the operation is started, the control unit starts counting the period regardless of whether or not the operation is completed. The air conditioner according to any one of claims 1 to 10, wherein the control unit controls the outdoor fan to dry the fins by operating the outdoor fan after finishing the operation.