KR100249424B1 - An air conditioner - Google Patents

Abstract

The present invention relates to an air conditioner, comprising: an automatic restart control function for automatically restarting the air conditioning operation on the basis of operation contents data stored in the EEPROM 30 when the power supply is returned after the power supply 21 has stopped for a predetermined time; It is characterized in that the user is able to select whether the automatic restart control is executed or not by providing a switching switch 31 for setting whether or not to perform automatic restart control.

Description

Air Conditioner {An air conditioner}

According to the present invention, an air having an automatic restart control function for storing current operation contents in a nonvolatile EEPROM or the like and automatically resuming operation based on the operation contents stored in the memory apparatus after power failure and power supply is restored. It's about harmonics.

An air conditioner such as a room air conditioner (hereinafter referred to as an air conditioner) circulates a refrigerant in a refrigeration cycle and cools or (and) heats indoor air by condensation and evaporation of the refrigerant. It is one of the necessities in buildings.

As an example of the air conditioner described above, automatic restart (automatic restart) control may be performed in order to perform air conditioning with higher reliability and operability.

The automatic restart control stores the current state of the air conditioner in a nonvolatile memory device (e.g., EEPROM), and if the power conditioner stops operating after a power failure, It is a control method that automatically restarts operation by reading the operation state stored in the memory device. By incorporating this automatic restart control system, it is possible to return to the air conditioning operation without resetting by the manual in the power supply state after the power failure → the power return.

Conventional air conditioners are equipped with components (memory device, program, etc. necessary for the control) according to the above-described automatic restart control system from the time of shipment of the product in advance to always execute the automatic restart control and automatically restart control from the beginning. It is divided into types that cannot be carried out. That is, in the conventional air conditioner, the presence or absence of automatic restart control execution is fixed to either side in advance.

In addition, although timer operation is frequently used in an indoor air conditioner for air conditioning, no specific control method has been determined for the automatic restart control at the time of setting this timer.

Although the above automatic restart control is certainly effective in terms of operation efficiency, the necessity of the automatic restart control differs from user to user because it is not a control method for enhancing the user's comfort.

In other words, power failure occurs frequently in certain areas such as overseas, where the air conditioner is frequently stopped (reset) due to the power failure. Once again, driving must be started, which burdens the user a lot. In such a background, many users demanded automatic reset control in areas with poor power supply conditions.

On the other hand, many countries do not require automatic reset control in Japan and other countries where power conditions are good, because there are few power failures and fewer opportunities to use automatic restart control. In addition, the air conditioner of the type which implements the automatic restart control method should be disconnected from the power supply of the air conditioner during the season off (spring and autumn), and inserted into the air conditioner to use the air conditioner during the summer and winter seasons. In some cases, the air conditioner may start to operate arbitrarily even if the user does not intend it.

That is, the problem that the automatic restart control execution is fixed as in the prior art does not satisfy the needs of all users.

In addition, since the necessity of the automatic restart control execution is expected to change according to the user's environment, it is desirable to enable the user side to select the presence or absence of the automatic restart control execution.

In addition, in the case of setting a timer, the air conditioner equipped with the conventional automatic restart control system does not determine any specific control system. Therefore, for example, when a power failure occurs at the time of setting the timer and the power is returned after a predetermined time elapses, the conventional air conditioner of the automatic restart control is restarted based on the operation mode before the power failure. This operation is performed when the on timer is set (currently stops and the air conditioner is started at a predetermined time [hours and minutes]) and when the off timer is set (a predetermined time [hours and minutes]), and the air conditioner is operated at the time. In this case, the air conditioner restarts after the power is restored regardless of the timer setting. Therefore, although the timer is set, there is a possibility that the air conditioner is started when the user wants to stop the operation (start) of the air conditioner.

The present invention has been made in view of the above circumstances, and an object thereof is to improve an adaptation function in various different power supply environments by providing an air conditioner in which a user can select whether automatic restart control is executed.

Further, another object of the present invention is to improve the adaptation function in various different power supply environments by specifically setting automatic restart control at the time of timer setting.

1 is a view showing the configuration of a refrigeration cycle of an air conditioner according to a first embodiment of the present invention;

2 is a control system diagram of the entire air conditioner including an indoor unit and an outdoor unit;

3 to 5 are schematic flowcharts showing an example of an operation process of the entire air conditioner centering on the operation of the indoor control unit of the indoor unit according to the first embodiment;

6 is a control system diagram of an entire air conditioner including an indoor unit and an outdoor unit according to a second embodiment of the present invention;

7 to 10 are part of a schematic flowchart showing an example of an operation process of the entire air conditioner according to the second embodiment, showing a process according to the display unit;

11 is a part of a schematic flowchart showing an example of an operation process of the entire air conditioner according to the second embodiment, illustrating a process according to the buzzer;

12 is a schematic flowchart showing an example of an off timer operation process of the entire air conditioner according to the third embodiment;

Fig. 13 is a schematic flowchart showing an example of on timer operation processing of the entire air conditioner according to the third embodiment;

14 is a schematic flowchart illustrating an example of a surface driving process of an entire air conditioner according to a third embodiment;

15 is a control system diagram of an entire air conditioner including an indoor unit and an outdoor unit according to a modification of the present invention;

FIG. 16 is a part of a schematic flowchart showing an example of an operation process of the entire air conditioner according to a modification, and is a view showing a process according to operation of a push button switch. FIG.

* Explanation of symbols for main parts of the drawings

1: air conditioner 2: compressor

3: four-way valve 4: indoor side heat exchanger

4a: Indoor fan 5: PMV

6: outdoor side heat exchanger 6a: outdoor fan

9: evaporation temperature sensor 10: external air temperature sensor

11: room temperature sensor 12: heat exchanger temperature sensor

15, 15a: Indoor unit 16, 16a: Outdoor unit

20: indoor control unit 21: AC power

22: remote control 23: fan motor (FM)

24: speed control circuit 25: louver motor (RM)

26 louver driving circuit 30 EEPROM

31: changeover switch 32: forced operation switch

40: display portion 41: buzzer

50: push button switch

In order to achieve the above object, according to the air conditioner of the present invention, when the power is stopped for a predetermined time and the power is returned, a control (automatic restart control) function is automatically resumed based on the operation contents data stored in the memory device. An air conditioner having: is provided with setting means for setting whether or not to perform the automatic restart control.

In the most suitable embodiment, the operation content data is data set by a remote controller, and the setting means is a switch switchable to a manual.

In the most preferred embodiment, the memory device is a nonvolatile memory device capable of inputting and erasing data, and the operation content data is data input to the memory device based on the operation content before the power supply is stopped.

The air conditioner of the present invention continuously executes the air conditioning operation to a predetermined time in the future, and performs timer setting means (off timer setting) for setting the contents of stopping the air conditioning operation when the predetermined time is reached. And a means for controlling not to perform the automatic restart control even if the setting for performing the automatic restart control is made by the setting means when the power is stopped due to a predetermined time stop at the time of setting the timer. .

Moreover, the air conditioner of this invention is timer setting means which performs the timer setting (on timer setting) of the content which performs air-conditioning operation at a predetermined | prescribed time of the future, and the said power supply stops for a predetermined time at the said timer setting, and power is returned. Means for controlling not to perform the automatic restart control irrespective of the setting of the setting means.

Further, the air conditioner of the present invention is set by the setting means when the power supply is stopped for a predetermined time after starting the timer operation at a predetermined time set by the timer setting means (on timer setting). Means for determining whether or not the setting for performing the automatic restart control is made, and means for performing the automatic restart control only when the determination result of the determination means sets the automatic restart control.

According to the present invention, whether or not to perform automatic restart control can be set manually by setting means (e.g., a changeover switch), so that the user can simply execute / not execute automatic restart control according to the power supply environment or the like. You can choose.

In addition, according to the present invention, since the automatic restart control operation is not performed regardless of the setting of the setting means when the power is stopped for a predetermined time and the power is restored during the off timer setting and the on timer setting, It does not start driving.

The automatic restart control is carried out only when the setting for performing the automatic restart control through the setting means is made by the determination means when the operation is performed based on the on timer setting. As a result, automatic restart control is performed only during operation based on the on timer setting, that is, during operation based on the user's intention.

Embodiment of the Invention

EMBODIMENT OF THE INVENTION Hereinafter, embodiment of this invention is described with reference to an accompanying drawing.

(1st embodiment)

1 is a diagram illustrating a configuration of a refrigeration cycle of an air conditioner (air conditioner) in the present embodiment.

As shown in FIG. 1, the air conditioner 1 includes a compressor (compressor) 2, a four-way valve 3 having a refrigerant flow path switching function, and an indoor side heat exchanger 4 disposed opposite to the indoor fan 4a. ), As an expansion valve, for example, an electromagnetic control valve (PMV) 5 and an outdoor side heat exchanger 6 disposed opposite to the outdoor fan 6a are sequentially connected through a pipe 7 to form a refrigerant. The refrigerating cycle which reversibly circulates is comprised.

As can be seen from this refrigeration cycle, the air conditioner 1 controls switching of the four-way valve 3 during operation of the compressor 2, the indoor fan 4a, and the outdoor fan 6a (four-way valve ( 3)? OFF) to circulate the refrigerant in the direction of the solid arrow in the drawing (compressor (2) → four-way valve (3) → outside heat exchanger (condensing action) (6) → PMV (5) → inside heat exchanger (Evaporative cooling action) (4) → Four-way valve (3) → Compressor (2) →…) to operate cooling, and to control the four-way valve (3) by switching control (four-way valve (3) → ON). The refrigerant is circulated in the broken line in the drawing (compressor (2) → four-way valve (3) → indoor heat exchanger (condensation heating action) (4) → expansion valve (5) → outdoor heat exchanger (evaporation action) (6 ), The four-way valve (3), the compressor (2), ...).

The compressor (2), the four-way valve (3), the PMV (5), the outdoor side heat exchanger (6), and the outdoor fan (6a) are provided in an outdoor unit installed outdoors. The outdoor unit is installed in the outdoor heat exchanger 6 and detects the refrigerant evaporation temperature of the outdoor heat exchanger 6, the outdoor heat exchanger 6 itself, or the outdoor unit. It is provided near the side heat exchanger 6 and has an external air temperature sensor 10 for detecting the outside air temperature, and is based on the signal line detected by the evaporation temperature sensor 9 and the outside air temperature sensor 10. To control the entire outdoor side including the compressor 2 and the like.

In addition, the indoor side heat exchanger 4 and the indoor fan 4a are provided in the indoor unit arrange | positioned indoors. The indoor unit is provided with an indoor temperature sensor 11 for detecting the temperature of the room and a heat exchanger temperature sensor 12 installed in the indoor heat exchanger 4 for detecting a refrigerant condensation temperature of the indoor heat exchanger 4. And a function of controlling the entire indoor side including the indoor side heat exchanger 4 and the indoor fan 4a based on the signal lines respectively detected by the indoor temperature sensor 11 and the heat exchanger temperature sensor 12. Have

Here, FIG. 2 shows a control relationship of the entire air conditioner 1 including the indoor unit 15 and the outdoor unit 16.

2, the indoor unit 15 controls the entire indoor unit 15 and the entire outdoor unit 16 collectively, for example, an indoor control unit (MCU: multi-control unit) 20 equipped with a microcomputer. Equipped with.

The indoor control unit 20 is connected to an AC power supply 21 for supplying power to the air conditioner 1. In addition, the indoor control unit 20 is capable of receiving a command signal from the remote control remote control 22 for the air conditioner (1).

The remote controller 22 is capable of giving the indoor control unit 20 a command or an operation stop command for operating the air conditioner 1 (the indoor unit 15 and the outdoor unit 16) to a desired driving state. It is. That is, the remote controller 22 can remotely transmit, for example, the operation mode selection data such as cooling, heating, and dehumidification to the indoor control unit 20 and setting data including a desired room temperature or air flow amount as an operation command. It is supposed to be done. In addition, the remote controller 22 can set a timer setting for executing the operation based on the operation mode selection data and the setting data at a desired time or until a desired time.

That is, starting the air conditioner 1 from the remote controller 22 at a predetermined time [hours and minutes] (or after a predetermined time elapses from the present) with respect to the air conditioner 1 (indoor control unit 20). It is possible to carry out on-timer setting for a predetermined time or an off-timer setting for stopping operation of the air conditioner 1 at the predetermined time by continuing to operate until a predetermined time [hours and minutes] (or after a predetermined time has elapsed) in the future. It is.

In addition, the remote controller 22 is capable of sending a special operation command for operating the air conditioner 1 to the air conditioner 1 (indoor control unit 20) with preset contents. As this special operation command, the present embodiment does not execute the above-described setting of the operation mode or the room temperature, but automatically executes the operation in the predetermined operation mode, the predetermined set temperature, and the predetermined air flow amount (automatic operation command). In particular, there is a sleep operation to provide a comfortable sleep to the user by preventing excessive cooling or heating of the room at bedtime. This sleep operation is performed by cooling or heating operation continuously for a predetermined time by setting according to the environment such as the room temperature at bedtime to eliminate the sleeplessness at the time of sleep, and after a predetermined time has elapsed (the user is sleeping. ) Does not require strong heating and cooling, while keeping the predetermined temperature (it is automatically changed so as not to be too cold or warm when sleeping, and the change range is narrow) while keeping the indoor air volume lower than the normal air volume This operation is performed continuously for a predetermined time to prevent excessive cooling or heating.

On the other hand, the indoor unit 15 includes the indoor temperature sensor 11 and the heat exchanger temperature sensor 12, a fan motor (FM) 23 for rotating the indoor fan 4a, and the FM 23. The louver for rocking motion of the speed control circuit 24 which made the rotational speed controllable, and the louver which is not shown which adjusts the wind direction of the wind (cold or warm air) blown by the spout not shown of the indoor unit 15. A motor (RM) 25 and a louver drive circuit 26 for driving the RM 25 while controlling its rotation angle are provided. The indoor temperature sensor 11, the heat exchanger temperature sensor 12, the speed control circuit 24 and the louver drive circuit 26 are connected to the indoor control unit 20, respectively.

The indoor unit 15 also has a nonvolatile memory device (e.g., EEPROM in the present embodiment) 30 and a changeover switch 31 for determining whether or not to execute automatic restart control. This switching switch (e.g., ON / OFF switch) 31 is installed in an indoor panel (not shown) of the indoor unit 15. For example, when the switching switch 31 is ON, automatic restart control is executed. In this case, when the same switch 31 is OFF, it is predetermined to indicate that automatic restart control is not executed.

The indoor unit 15 has a forced operation switch 32 for forcibly driving the air conditioner 1 based on data indicating the predetermined operation contents regardless of the transmission contents of the remote controller 22. This forced driving switch (e.g., slide switch) 32 is also provided in a display panel (not shown) of the indoor unit 15. Depending on the slide setting position, for example, (1) forced automatic driving, (2) Forced cooling operation (the above forced operation is a mode for forcibly performing an automatic operation or cooling operation irrespective of the operation command transmitted from the remote controller 22 based on the data indicating the preset operation contents), and (3) normal operation. Various operation modes can be selected, such as (the mode of performing the operation based on the operation command transmitted from the remote control 22), and is usually set to the normal operation mode of (3).

On the other hand, the outdoor unit 16 includes an outdoor control unit equipped with a microcomputer, a drive circuit for driving the compressor 2 described above, FM and FM drive circuits for rotating the outdoor fan 6a, and the like. The AC power supply line L is connected to the outdoor controller of the outdoor unit 16 through the indoor controller 20. In addition, the outdoor control unit of the outdoor unit 16 is connected to each other by the indoor control unit 20 and the line C, so that the control signal according to the operation of the entire air conditioner 1 can be transmitted and received through the line (C). It is.

The indoor control unit 20 of the indoor unit 15 stores each of the above-described components (such as the speed control circuit 24) and the outdoor unit 16 of the indoor unit 15 based on the operation command transmitted from the remote controller 22. Each component (compressor drive circuit, etc.) is controlled individually to cooperate with the contents of the operation command. In addition, when the timer is set, as the timer is set, the respective components of the indoor unit 15 and each of the components of the outdoor unit 16 are respectively controlled based on the timer setting. According to the operation (air conditioning operation, stop operation, etc.).

In addition, when the changeover switch 31 is ON, the indoor control unit 20 stores the current operation contents (contents of the operation commands transmitted from the remote controller 22 in the case of the normal operation mode) as the data to the EEPROM 30 at the required timing. When the power supply is reset, the operation is automatically started on the basis of the operation contents data input to the EEPROM 30 at the time of power failure → power return. If the changeover switch 31 is OFF, the indoor control unit 20 is configured to erase the operation content data stored in the EEPROM 30 at the required timing.

Next, the whole operation | movement of this embodiment is demonstrated using FIGS. 3-5 centering on the control operation of the indoor control part 20 according to ON / OFF of the switching switch 31 especially.

When the air conditioner 1 (the indoor unit 15 and the outdoor unit 16) is turned on to the power source 21 with respect to the air conditioner 1, such as turning on a power switch (not shown), the indoor control unit 20 The microcomputer in is in a reset state (Fig. 3: step S1). Subsequently, the indoor control unit 20 determines whether the operation mode is the normal operation mode by referring to the slide position of the forced driving switch 32 (step S2). As a result of this determination, when it is determined that the special operation mode is not the normal operation mode (NO in the drawing (NO is referred to as "N" in the drawing) in the determination result of step S2), the process of step S30 described later (Fig. Go to 4). On the other hand, if it is determined that the operation mode is the normal operation mode (step S2), the determination result YES (YES is referred to as “Y” in the drawing), and the indoor control unit 20 determines that the changeover switch 31 It is judged whether or not it is ON (step S3).

When it is determined that the determination result of step S3 is OFF (the determination result NO of step S3), it transfers to the process (FIG. 5) of step S35 mentioned later. On the other hand, when it is determined that the determination result of step S3 is ON, that is, the automatic restart control operation is performed (YES of the determination result of step S3), the microcomputer of the indoor control unit 20 is reset again (step ( S4)), and then the indoor control unit 20 refers to the EEPROM 30 to determine whether or not driving contents data is stored in the EEPROM 30 (the presence or absence of data) (step S5).

If it is determined that the result of the determination in step S5 is stored (YES as a result of the determination in step S5), whether a predetermined time (for example, three minutes) has elapsed since the power is turned on (indoor heat exchanger 4). Whether or not the temperature is raised to reach the heat exchangeable temperature) (step S6). If it is determined that the result has not elapsed (NO in step S6), the indoor control unit 20 repeatedly executes the judgment process in step S6. When it is determined that the determination result of step S6 has passed (YES), the indoor control unit 20 performs the indoor unit 15 on the basis of the operation content data stored in the EEPROM 30. Each component of the outdoor unit 16 is controlled through each of the above components and the outdoor controller, and the air conditioning operation is started according to the operation contents data (step S7).

The indoor control unit 20 always judges whether or not the power source 21 of the air conditioner 1 is cut off due to a power failure during air conditioning operation (step S8), and a power failure occurs (step S8). (YES), and when the power is returned thereafter (YES in step S9), the situation is substantially the same as when the power is supplied to the air conditioner 1, and the process returns to step S1. Repeats the processing of steps S1 to S9 described above.

As a result, the automatic restart control which can restart operation | movement of the air conditioner 1 automatically after power failure → power supply return can be performed.

On the other hand, when it is determined in step S5) that the data is not stored in the EEPROM 30 (NO in step S5), the indoor control unit 20 sends an operation command to the remote controller 22. The control unit waits for the control operation (step S10). If a power failure occurs in this standby state (YES as a result of determination in step S11), and the power is returned after that (YS as a result of determination in step S12). The situation is substantially the same as when the power supply to the air conditioner 1 is turned on, and the process returns to the processing of step S1 to repeat the processing of the above steps S1 to S5.

When no power failure occurs in the standby state (NO in the determination result of step S11), the indoor control unit 20 determines whether the current operation mode is the normal operation mode (step S13). Since the present operation mode is the normal operation mode, this determination result is YES, and the process shifts to step S14.

On the other hand, the indoor control unit 20 which is in a driving standby state determines whether a driving command has been sent to the remote controller 22 (step S14), that is, if a driving command is not sent from the remote controller 22 (step ( As a result of the determination in S14, the indoor control unit 20 returns to the processing of step S10 and continues the operation waiting state.

At this time, the user manually operates the remote controller 22 to transmit a driving command including the desired driving mode selection data and setting data to the indoor control unit 20. The indoor control unit 20 receives the transmitted driving command (YES in step S14), and inputs the driving contents based on the driving command to the EEPROM 30 as data (step S15). Then, the indoor control unit 20 performs a determination process as to whether a predetermined time (for example, 3 minutes) has elapsed since the power is turned on, as in step S6 (step S16), and when the predetermined time has elapsed (S17). Transfer to processing.

The indoor control unit 20 controls each of the above-described components (such as the speed control circuit 24) of the indoor unit 15 and each of the components of the outdoor unit 16 (compressor driving circuit) based on the operation command from the remote controller 22. Furnace, etc.), respectively, to start normal air conditioning operation in accordance with the contents of the operation instruction (step S17).

In normal operation, the indoor control unit 20 always determines whether or not a command for changing the setting of the operation contents has been transmitted from the remote controller 22 (step S18), and when the setting change command is transmitted ( As a result of the determination of step S18, after receiving the transmitted setting change command, the operation content data stored in the EEPROM 30 is updated with data based on the operation content based on the setting change command (the updated operation content data is updated). Update operation content data) and normal air conditioning operation according to the setting change instruction (step S19).

In addition, the indoor control unit 20 always determines whether the power source 21 of the air conditioner 1 is interrupted due to a power failure in normal air conditioning operation (step S20), and a power failure occurs ( If the result of the determination in step S20 is YES, and then the power is restored (the determination result in YES in step S21), the indoor control unit 20 automatically executes the automatic restart control operation. That is, the indoor control unit 20 controls each component of the outdoor unit 16 through each component of the indoor unit 15 and the outdoor control unit based on the updated operation content data input to the EEPROM 30. The air conditioning operation according to the update operation content data is automatically started (step S22), and the process proceeds to step S26. In addition, when no power failure occurs (NO in the determination result of step S20), the indoor controller 20 may determine each component of the indoor unit 15 and the outdoor unit based on the operation content data input to the EEPROM 30. Each component of step 16) is controlled for startup, and the air conditioning operation in accordance with the operation content data is automatically started to proceed to the process of step S26.

On the other hand, when the determination result of step S18 is NO, that is, when a setting change command is not transmitted, the indoor control unit 20 generates a power failure during normal air conditioning operation, so that the power source 21 of the air conditioner 1 Is always judged whether or not it is blocked (step S23), a power failure occurs (YES as a result of the determination in step S23), and when the power is returned thereafter (YES as a result of the determination in step S24), the indoor control unit 20 starts and controls each component of the indoor unit 15 and each component of the outdoor unit 16 on the basis of the operation content data input to the EEPROM 30, and performs air conditioning operation according to the operation content data. The control unit 20 automatically starts (step S25), and proceeds to the process of step S26. In addition, when the power failure does not occur (step S23), the indoor control unit 20 performs the EEPROM 30. Each component of the indoor unit 15 and each component of the outdoor unit 16 based on the operation content data inputted in Each element is controlled to start up, and the air conditioning operation according to the operation content data is automatically started, and the process proceeds to step S26.

During normal operation by the update operation content data or the automatic restart control based on the operation content data, the indoor control unit 20 always determines whether or not an operation stop command is transmitted from the remote controller 22 (step S26). If it is determined that it is not received (NO in the determination result of step S26), the processing returns to the process of step S18 to continue normal operation.

On the other hand, if it is determined in step S26 that YES, that is, the stop operation command has been sent, the indoor control unit 20 stores the driving contents data (or stored driving contents data) input (stored) to the EEPROM 30. The entire data to be included is erased (step S27), and the process returns to step S10 to be in a standby state. Then, when the operation command is transmitted from the remote controller 22 once again in the processing of step S14 via the steps S11 to S13, the processing of the steps S14 to S27 is executed to include automatic restart control. Driving operation control is performed.

On the other hand, the indoor control unit 20 when the determination result of step S2 is NO, that is, the slide position of the forced driving switch 32 is set to a special operation mode (forced automatic operation mode or forced cooling operation mode). Determines whether the slide position is the forced autonomous driving mode (Fig. 4: step S30). As a result of this determination, in the case of YES (set to the forced autonomous driving mode), the indoor control unit 20 controls each component of the indoor unit 15 and the outdoor unit 16 on the basis of a predetermined operation content corresponding to the forced autonomous driving mode. Each component of the controller is controlled to start forced automatic operation (step S31, step S10, and step S11), and the determination result of step S30 is set to NO (forced cooling operation mode). In the case of), the indoor control unit 20 controls the forced cooling by activating each component of the indoor unit 15 and each component of the outdoor unit 16 based on a predetermined operation content corresponding to the forced cooling operation mode. The operation is started (step S32), and the process proceeds to step S10 and step S11. In the processing of steps S11 to S13, since the current mode is the special operation mode, step S14. Operation control based on the operation command from the remote control unit 22) (The result of the processing of the step (S13) NO) without performing the process proceeds to the process at the step (S1) and repeats the above process.

In addition, when the determination result of step S3 described above is NO, that is, when the changeover switch 31 is determined to be OFF, the indoor control unit 20 determines that the automatic restart control operation has not been performed, and thus all contents of the EEPROM 30 are determined. It erases (step S35). Then, it is judged whether or not the driving command is transmitted from the remote controller 22 (step S36), and when it is not transmitted (the determination result NO in step S36), the determination process of step S36 is repeated. Run

On the other hand, when the driving command is sent from the remote controller 22 by the user's manual operation (the determination result YES in step S36), the indoor control unit 20 receives the transmitted driving command, and the above-mentioned step S6. After the predetermined time has elapsed by the same processing as in step (S16), each component of the indoor unit 15 and each component of the outdoor unit 16 are controlled to be activated based on the operation command from the remote controller 22. Normal air conditioning operation in accordance with the contents of the operation instruction is started (step S37).

At this time, the indoor control unit 20 always determines whether the power source 21 of the air conditioner 1 is cut off due to a power failure during normal air conditioning operation (step S38).

That is, when no power failure occurs (NO in the determination result of step S38), the indoor control unit 20 proceeds to the processing of step S26. On the other hand, even if a power failure occurs (the determination result YES in step S38), and then the power supply returns (the determination result YES in step S39), the stored contents of the EEPROM 30 are erased by the processing in step S35. In this case, the automatic restart control operation, that is, the operation operation based on the stored contents of the EEPROM 30 is not executed and the reset state is reached (step S40).

As described above, according to this configuration, the automatic restart control is executed by setting ON (indicating the automatic restart control operation) / OFF (indicating not to execute the automatic restart control operation) of the changeover switch 31 as desired by the user. Processing (changeover switch ON, step S4 to step S27) and operation processing (changeover switch off, step S35 to step S40) that do not execute automatic restart control can be selected. That is, the user can simply select the automatic restart control execution / non-execution according to the environment and the like, so that the user can respond to various user's demands, thereby improving user satisfaction and adaptation to various power environments.

(2nd embodiment)

6 shows a control system of the entire air conditioner 1A including the indoor unit 15A and the outdoor unit 16A according to the present embodiment.

According to Fig. 6, the indoor unit 15A includes a driving lamp 40A such as a driving operation display LED as the display unit 40, an automatic restart lamp 40B such as an LED for automatic restart operation display, and an alarm sound signal output unit. As a buzzer 41 is connected, respectively. In addition, the operation lamp 40A and the automatic restart lamp 40B are installed in, for example, an indoor panel (not shown) of the indoor unit 15, and the automatic restart lamp 40B is used for control from the indoor control unit 40. Therefore, the changeover switch 31 is turned on only when the switching switch 31 is in the ON state (i.e., the automatic restart control operation is executed). The buzzer 41 is configured to output an alarm sound when the setting of the changeover switch 31 is newly switched to the previous setting by the control from the indoor control unit 40. In addition, since the other structure and operation are equivalent to the structure and operation of 1st Embodiment, the description is abbreviate | omitted.

Next, the operation according to the display unit 40 in this configuration will be described.

In the overall operation of the air conditioner 1 shown in Figs. 3 to 5, the normal air conditioning operation is started by the process of step S17 when the changeover switch 31 is in the ON state (automatic restart operation execution state). Thereafter, the indoor control unit 20 turns on both the operation lamp 40A and the automatic restart lamp 40B of the display unit 40 (FIG. 7: step S17A), and performs the processing below step S18. In addition, when the changeover switch 31 is in the OFF state (state not executing the automatic restart operation), the indoor control unit 20 starts the operation lamp of the display unit 40 after starting the normal air conditioning operation by the process of step S37. Only 40A is turned on to perform the process after (FIG. 8: step S37A, step S38).

As a result, a user can easily know the setting state of the automatic restart presence or not at the time of normal operation by the state (lighting-off or turning off) of the automatic restart lamp 40B, and can further improve user satisfaction.

In addition, although the driving lamp 40A as the display part 40 and the automatic restart lamp 40B were provided in this structure, this invention is not limited to this, For example, driving lamps 40C, such as two LEDs different in color, 40D) may be provided. That is, as shown in Fig. 9, when the changeover switch 31 is in the ON state (automatic restart operation execution state), after the normal air conditioning operation is started by the process of step S17, the indoor control unit 20 displays the display unit. Only the operation lamp 40C of 40 is turned on (step S17B), and the processing after step S18 is performed. As shown in Fig. 10, when the changeover switch 31 is in the OFF state (state not executing the automatic restart operation), the indoor control unit 20 after the normal air conditioning operation is started by the process of step S37. Turns on only the operation lamp 40D of the display portion 40 (step S37B), and performs the processing after step S38.

When the lighting is controlled in this way, the user can easily and quickly know the color of the driving lamp that lights the setting state of the automatic restart presence or absence during normal operation, thereby improving user satisfaction.

Next, the operation regarding the buzzer 41 will be described.

In the overall operation of the air conditioner 1 shown in Figs. 3 to 5, for example, if the user switches the switching switch 31 ON / OFF after the processing of step S1 (Fig. 11: As a result of the determination in S50, the processing of step S50 is started by YES, that is, interrupt processing in the case of switching operation, and the indoor control unit 20 sets the current setting (e.g., OFF) before the switching operation (e.g., For example, it is determined whether it is the same as ON (step S51). If the result of the determination in step S51 is YES, the setting of the switch 31 does not change, so the processing after step S2 is executed. In addition, when the determination result of step S51 is NO, that is, the switching setting of the switch 31 is changed, the indoor control unit 20 performs the control of ringing a buzzer sound (alarm sound) in the buzzer 41 (step S52). ), The processing after step S2 is performed.

If the above buzzer is not performed, the user can check whether the setting change due to switching of the switch 31 is recognized by the indoor control unit 20 with a buzzer sound, for example, when the switch 31 is broken or the like. The failure of the switch 31 can be found easily, and a malfunction based on the failure of the switch 31 can be avoided.

In this configuration, although the LED lamp is used as the display unit 40, the display format is changed during operation in the automatic restart control execution state (switching switch ON) and during operation of the automatic restart control non-execution state (switching switch OFF). The type, number, etc. of a display part may be arbitrary.

In addition, although this configuration used the buzzer as a component which outputs an alarm sound at the time of setting switching of the changeover switch 31, this invention is not limited to this, Any alarm sound output apparatus may be used as long as it outputs an alarm sound.

In addition, although this structure is equipped with the display part 40 and the buzzer 41 simultaneously, the structure provided with either one may be sufficient.

(Third embodiment)

Since the structure of the air conditioner 1 which concerns on this embodiment is substantially the same as 1st Embodiment, the description is abbreviate | omitted. This embodiment has a feature of automatic restart control at the time of timer setting, and since the other operations are substantially the same as in the first embodiment, the description thereof is omitted.

As automatic restart control at the time of timer setting, first, automatic restart control at the time of off timer setting will be described.

The user operates the remote controller 22 to operate the air conditioner 1 with respect to the air conditioner 1 (the indoor control unit 20 of the air conditioner 1) at a predetermined time in the future (hours and minutes) (or after a predetermined time has elapsed from the present). A command to stop the operation (off timer operation command) is transmitted (FIG. 12; step S60). The indoor control unit 20 starts the operation according to the operation contents based on the transmitted off timer operation command (or continues if it is currently being operated) (step S61).

During the off-timer operation, the indoor control unit 20 always determines whether the power source 21 of the air conditioner 1 has been cut off due to a power failure (step S62), and a power failure occurs (step S62). YES), and when the power is returned thereafter (YES as a result of the determination in step S63), the indoor control unit 20 determines whether the changeover switch 31 is ON (step S64).

The automatic restart control operation, that is, the operation operation based on the stored contents of the EEPROM 30, is executed regardless of whether the changeover switch 31 is ON / OFF (even if the determination result of step S64 is YES / NO). It returns to the reset state (step S65, step S66) without ending the processing.

That is, since the user finally performs the off timer setting (operation) control to stop the operation of the air conditioner 1, even if the automatic restart control is set when the power is restored after the power failure occurs during the off timer operation. The operation stops forcibly (reset state). Therefore, the air conditioner 1 which wants to stop operation | movement finally by the off timer setting by power supply return after a power failure can be eliminated, and continuing operation.

Next, the automatic restart control at the time of setting the on timer will be described.

The user operates the remote controller 22 to operate the air conditioner 1 with respect to the air conditioner 1 (the indoor control unit 20 of the air conditioner 1) at a predetermined time [hours and minutes] (or after a predetermined time elapses from the present). 13 (step S70). The indoor control unit 20 performs the operation based on the contents at the predetermined time according to the contents of the operation based on the transmitted on timer operation command. The execution is set (on timer setting), and the standby state is turned on (step S71).

When the on-timer setting waits, the indoor control unit 20 determines whether the current time has reached the on-timer setting time (step S72). If the determination result is NO, that is, the on-timer setting time has not yet been reached. The indoor control unit 20 judges whether a power failure has occurred (step S73). If the determination result is NO, i.e., if no power failure has occurred, the control unit 20 returns to the process of step S71 and enters the standby state.

On the other hand, when a power failure occurs (the determination result YES in step S73), and if the power is returned thereafter (the determination result YES in step S74), the indoor control unit 20 switches to ON / OFF of the changeover switch 31. Regardless of restarting the air conditioner 1, the process is terminated in a reset state (step S75).

In addition, when the determination result of step S72 reaches YES, that is, the on-timer setting time, the indoor control unit 20 starts the operation according to the operation contents based on the transmitted on-timer operation command (step S76). The indoor control unit 20 determines whether the changeover switch 31 is ON during the on timer operation (step S77), and as a result of this determination, NO, that is, the changeover switch 31 is OFF (no automatic restart control is executed). ), The process proceeds to step S73, and when the power failure occurs and the power supply returns, the reset state is performed without restarting. In addition, when the power failure does not occur, the on-timer operation is continued.

On the other hand, when the determination result of step S77 is YES, that is, when the changeover switch 31 is ON (execution of the automatic restart control), the operation contents based on the on-timer operation command are used as data as EEPROM ( 30) (step S78).

In addition, the indoor controller 20 always determines whether the power source 21 of the air conditioner 1 is interrupted due to a power failure during the on timer operation (step S79), and a power failure occurs (step S79). (YES), and when the power is returned thereafter (YES in step S80), the indoor control unit 20 automatically controls the indoor unit (based on the operation content data input to the EEPROM 30). Each component of 15) and each component of the outdoor unit 16 are respectively controlled, and the air conditioning operation according to the operation content data is automatically started to end the process (step S81).

As described above, according to the on-timer operation of the present embodiment, since the user does not want to start the air conditioner 1 during the on-timer setting standby, for example, power failure / Even if the power is reset, the restart is not performed but is in the reset state (see steps S73 to S75).

On the other hand, when the power failure / power return occurs after the air conditioner 1 starts operation on the basis of the on timer setting standby state and the air conditioner 1 starts operation, the changeover switch 31 is turned ON (execution of the automatic restart control). In case of), the EEPROM 30 reads the operation contents when the operation contents are input and the power is restored, and restarting based on the operation contents is executed.

Therefore, the air conditioner 1 is prevented from starting up at a time different from the on-timer setting time due to the recovery of the power supply after the power failure, and the air conditioner ( If you want to start operation by starting 1), the automatic restart control can be executed this time by setting the user's changeover switch.

(4th Embodiment)

Since the structure of the air conditioner 1 which concerns on this embodiment is substantially the same as 1st Embodiment, the description is abbreviate | omitted. This embodiment has a feature of automatic restart control during sleep operation during special operation, and the rest of the operation is substantially the same as that of the first embodiment, and the description thereof is omitted.

According to the present embodiment, the sleep operation command is transmitted from the remote controller 22 to the indoor controller 20 of the air conditioner 1 (Fig. 14; step S90) as the sleep operation switch is pressed. The indoor control unit 20 starts the operation according to the operation contents based on the transmitted sleep operation command, and in this sleep operation, the operation contents of the initial mode (the set temperature which is not too cold or warm after a predetermined time elapses, and the normal blowing amount). The sleep operation content such as the small air flow amount and the duration of the sleep operation) are input to the EEPROM 30 (step S91).

During the sleep operation, the indoor control unit 20 always determines whether the power source 21 of the air conditioner 1 is cut off due to a power failure (step S92), and a power failure occurs (step S92). YES), and when the power is returned thereafter (YES in step S93), the indoor controller 20 determines whether the changeover switch 31 is ON (step S94).

When the determination result of step S94 is NO, that is, when the changeover switch 31 is OFF (no automatic restart control is performed), the indoor control unit 20 erases the contents of the EEPROM 30 to clear the air conditioner ( The restart of 1) is not performed, and the state is reset (step S95).

On the other hand, when the determination result of step S94 is YES, that is, when the changeover switch 31 is ON (execution of automatic restart control), the indoor control unit 20 automatically operates the operation contents of the sleep operation initial mode input to the EEPROM 30. Based on the data, each component of the indoor unit 15 and each component of the outdoor unit 16 are respectively controlled, and the air conditioning operation according to the operation content data of the sleep driving initial mode is automatically resumed to terminate the processing. (Step S96).

That is, according to this configuration, when the power failure / power return occurs during the sleep operation, the operation content data of the sleep operation initial mode input to the EEPROM 30 only when the changeover switch 31 is ON (execution of automatic restart control). The restart is executed based on the operation. When the changeover switch 31 is OFF (automatic restart control non-execution), the operation is forcibly stopped (reset state). Therefore, the presence or absence of automatic restart control execution can be set by the user. In addition, even if a power failure occurs during the sleep operation, the sleep operation can be executed again from the sleep operation initial mode by the automatic restart control, so that the comfortable sleep operation can be executed.

In addition, in the first to fourth embodiments, when the automatic restart control is performed when the power failure / power supply is restored, the operation contents are input to the EEPROM 30, and the operation is started based on the input operation contents data. The present invention is not limited to this, but predetermined operation contents may be determined as an automatic operation mode (at cooling / heating) in advance, and the operation may be always started at the operation contents based on the automatic operation mode when the power is returned. This configuration reduces costs by eliminating the need for nonvolatile memory devices such as EEPROM.

In addition, in each said embodiment, although the switching switch 31 was demonstrated as a slide switch, this invention is not limited to this, For example, various switches, such as a push button switch, can be used.

In particular, when the push button switch is used, it is also possible to set whether the normal mode is the forced driving mode (forced automatic mode or forced cooling mode) in accordance with the elapse of the time (push time) of pushing the push button.

Here, the structure of the air conditioner 1 at the time of using the said pushbutton switch for selection of a forced operation switch and automatic restart control execution / non-execution is shown in FIG.

According to FIG. 15, the indoor unit 15 is provided with a push button switch 50 having a forced driving setting function and a switching function instead of the forced driving switch and the switching switch in FIG. The push button switch 50 is connected to the indoor control unit 20, and according to the time (push time) of pressing the push button switch 50, whether the normal operation mode is the forced operation mode, automatic restart control execution or non-execution, and Each of the forced automatic operation modes is configured to be set by selecting whether the forced cooling operation mode is forced. In addition, since the structure other than this is substantially equivalent to the structure shown in each said embodiment, the description is abbreviate | omitted.

Next, the above-described selection setting operation will be specifically described for the operation of this modification.

After the processing of step S1 for the entire operation of the air conditioner 1 shown in FIG. 3, for example, the user presses the push button switch 50 for a predetermined time. The indoor control unit 20 determines whether the command is related to (A) the normal mode or (B) the forced operation mode according to the pushing time (push time) of the push button switch 50 (FIG. 16; step). (S100)). When the indoor control unit 20 determines that the command is related to the normal mode (A) from the push time, the process proceeds to step S101 to determine whether the push time indicates automatic restart control execution. If the determination result in step S101 is YES, that is, if it is determined that the push time indicates execution of automatic restart control, the indoor control unit 20 shifts to the processing of step S4 and accompanies the automatic restart control described above. The operation proceeds to the operation operation.

On the other hand, if the determination result of step S101 is NO, that is, if it is determined that the push time indicates the execution of the automatic restart control non-execution, the indoor control unit 20 shifts to the processing of step S35 and entails automatic restart control. Proceeds to the operation operation processing not performed.

Further, as a result of the determination in step S100, when it is determined that the push time is a command relating to the (B) forced operation, or the process proceeds to step S102, whether the push time indicates (C) forced automatic operation (D Determine whether forced cooling operation is indicated.

If the determination result in step S102 is YES, that is, if it is determined that the push time indicates (C) forced automatic driving, the indoor control unit 20 recognizes that forced automatic driving is performed (step S103). The process proceeds to step S31 to perform control for executing the above-mentioned forced automatic operation.

On the other hand, when the determination result in step S102 is NO, that is, when it is determined that the push time indicates (D) forced cooling operation, the indoor control unit 20 recognizes that the forced cooling operation is performed (step S104). The process proceeds to step S32, and control is performed to execute forced cooling operation.

That is, according to this configuration, by using only the push button switch 50 without using the changeover switch, the above-described normal mode / forced operation mode selection, presence or absence of automatic restart control, and contents of forced operation (automatic / cooling) It is possible to set all of them. Therefore, compared with the structure of 1st-4th embodiment, a switching switch becomes unnecessary and cost can be reduced.

In addition, although the switching switch 31 was provided in the indoor unit 15 (indoor panel, etc.) according to the 1st-4th embodiment, this invention is not limited to this, It arrange | positions to the remote control 22, The remote control 22 ) Can be configured to be switched ON / OFF.

In addition, although the EEPROM 30 was used as the nonvolatile memory device according to the first to fourth embodiments, the present invention is not limited thereto, and any memory device may be used as long as it is an input / eraseable nonvolatile memory device.

As described above, according to the air conditioner according to the present invention, since the automatic restart control can be set manually by setting means (for example, a switching switch), the automatic restart control can be set in a power supply environment. It is possible to set suitable conditions for use and usage.

In addition, in the air conditioner according to the present invention, when the off timer setting function and the on timer setting function are provided, even if it is set to perform the automatic restart control, for example, the setting is performed by the automatic restart control at the time of power recovery. The air conditioner does not start operation in time.

Claims (10)

In an air conditioner having a restart control function for automatically restarting the air conditioning operation on the basis of the operation contents data stored in the storage device when the power supply is restored after the power supply is stopped for a predetermined time And a first mode for executing the restart control and a second mode for not executing the restart control, and setting means for switching between the first mode and the second mode. The method of claim 1, And the driving content data is data set by a remote controller. The method of claim 1, And the memory device is a nonvolatile memory device capable of inputting and erasing data, and wherein the operation content data is data input to the memory device based on the operation content before the power is stopped. The method of claim 1, Timer setting means for continuously executing the air conditioning operation until after a predetermined time, and for setting a timer for stopping the air conditioning operation when the predetermined time is reached; And a means for controlling not to perform the automatic restart control even if the setting means for performing the automatic restart control is made by the setting means when returning. The method of claim 1, Timer setting means for setting a timer for executing the air conditioning operation after a predetermined time, and performing the automatic restart control irrespective of the setting of the setting means when the power supply is stopped for a predetermined time and the power is restored at the time of setting the timer. An air conditioner comprising a means for controlling so as not to. The method of claim 5, Determining whether or not the setting means for performing the automatic restart control is made by the setting means when the power is stopped for a predetermined time after the timer operation starts from the predetermined time set by the timer setting means and the power is returned. Means and for performing the automatic restart control only when it is determined that the automatic restart control is performed as a result of the determination by the determination means. The method of claim 1, Sleep operation mode setting means for setting a predetermined sleep operation mode for setting a sleep temperature and a blowing amount for sleep at the time of sleep, and when the power is stopped due to a predetermined time stop during the sleep operation mode setting, Means for determining whether or not the setting for performing the automatic restart control is made by a setting means; and the air conditioning operation based on the sleep operation mode is initiated only when the determination means determines that the automatic restart control is performed. An air conditioner, comprising means for controlling to perform in a state. The method of claim 1, And display means for distinguishably displaying whether or not the restart control is executed. The method of claim 8, And said display means has a display lamp for indicating that the air conditioning operation is in progress, wherein the color of the display lamp differs from the case of performing the automatic restart control and the case of not performing the automatic restart control. The method according to any one of claims 1, 2, 3 to 9, And an alarm sound generating means for generating an alarm sound informing of the switching when switching by the switching means whether or not to perform the automatic restart control.

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