JP2004085045A - Air conditioner - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an air conditioner capable of improving air conditioning property. <P>SOLUTION: This air conditioner is provided with an emergency operation switch 30 switching operation mode cyclically, a temperature sensor 29A detecting indoor temperature, and a controller 40 performing air conditioning operation so that indoor temperature detected by the temperature sensor 29A reaches set temperature by setting set temperature corresponding to indoor temperature in accordance with operation mode. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an air conditioner including a switch for switching an operation mode.
[0002]
[Prior art]
BACKGROUND ART Generally, an air conditioner having a compressor, an outdoor heat exchanger, and an indoor heat exchanger and performing air-conditioning operation according to an operation mode is known.
[0003]
The air conditioner main body includes a normal operation in which an air conditioning operation is performed by operating a remote controller, and an emergency operation in which the room temperature is controlled to reach a predetermined constant temperature (for example, 27 ° C.). Is provided. When the operation is switched to the emergency operation by this switch, the cooling operation is performed when the room temperature is higher than the predetermined temperature, and the heating operation is performed when the room temperature is lower than the predetermined temperature to approach the predetermined temperature. When the deviation between the room temperature and the predetermined temperature is smaller than the predetermined deviation, control is performed to stop the operation of the compressor.
[0004]
By providing the switch for switching to the emergency operation, for example, even when the remote controller temporarily becomes unusable (for example, when the battery of the remote controller runs out or the remote controller is lost), the air conditioning operation is performed. be able to.
[0005]
[Problems to be solved by the invention]
However, when the operation is switched to the above-mentioned emergency operation, the operation is performed so that the room temperature reaches a predetermined constant temperature (for example, 27 ° C.). If the difference between the room temperature and the predetermined temperature at the time of switching to the emergency operation is smaller than the predetermined deviation, the compressor is in the operation stop state (that is, the air conditioning operation stop state), so that there is a problem that air conditioning is low. .
[0006]
Further, when the operation mode is switched to the emergency operation, the user selects the cooling operation mode or the heating operation mode in order to perform the air-conditioning operation so that the room temperature becomes a predetermined constant temperature (for example, 27 ° C.). However, there is a problem that air conditioning is low.
[0007]
An object of the present invention has been made in consideration of the above circumstances, and an object of the present invention is to provide an air conditioner that improves air conditioning.
[0008]
[Means for Solving the Problems]
In order to solve the above problems, in an air conditioner that performs an air conditioning operation according to an operation mode, a switch that switches the operation mode, a temperature sensor that detects an indoor temperature, and a setting corresponding to the indoor temperature according to the operation mode It is characterized by comprising a set temperature setting means for setting a temperature and an air conditioning means for performing an air conditioning operation so that the room temperature detected by the temperature sensor reaches the set temperature.
[0009]
In this case, the operation mode may include a cooling operation mode for cooling the room and a heating operation mode for heating the room.
[0010]
Further, the set temperature may be set to a value lower than the room temperature in the cooling operation mode, and may be set to a value higher than the room temperature in the heating operation mode.
[0011]
An air conditioner that performs an air-conditioning operation in accordance with an operation mode is characterized in that an emergency operation switch that switches the operation mode cyclically is provided.
[0012]
In this case, when a predetermined operation mode is selected by the emergency operation switch, the set temperature in the selected operation mode may be automatically set.
[0013]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
[0014]
FIG. 1 is a circuit diagram showing an embodiment of an air conditioner according to the present invention, and FIG. 2 is a perspective view showing an indoor unit of the air conditioner.
[0015]
As shown in FIG. 1, the air conditioner 10 has an outdoor unit 11 and an indoor unit 12, and an outdoor refrigerant pipe 14 of the outdoor unit 11 and an indoor refrigerant pipe 15 of the indoor unit 12 are connected to a connection pipe 24 and 25.
[0016]
The outdoor unit 11 is disposed outdoors. A compressor 16 is disposed in the outdoor refrigerant pipe 14, an accumulator 17 is disposed on a suction side of the compressor 16, and a four-way valve 18 is disposed on a discharge side of the compressor 16. An outdoor heat exchanger 19 is sequentially arranged on the 18 side. The compressor 16 is driven by a compressor motor 16A. A propeller fan 20 (outdoor fan) that blows air toward the outdoor heat exchanger 19 is disposed adjacent to the outdoor heat exchanger 19. The propeller fan 20 is driven by a fan motor 20A. The four-way valve 18 is switched as shown by a solid line during cooling or dry operation, and is switched as shown by a dotted line during heating operation.
[0017]
The indoor unit 12 is installed indoors, and an indoor heat exchanger 21 and an electric expansion valve 22 are sequentially arranged in the indoor refrigerant pipe 15. A cross flow fan 23 (indoor fan) that blows air from the indoor heat exchanger 21 into the room is disposed adjacent to the indoor heat exchanger 21 (see FIG. 2). The cross flow fan 23 is driven by a fan motor 23A.
[0018]
The indoor unit 12 is a wall-mounted indoor unit, and is attached to a wall surface 100 or the like of the room as shown in FIG. Air suction ports 27A and 27B and an air outlet 28 are formed in the main body 12A of the indoor unit 12.
[0019]
The main unit (air conditioner main unit) 12A of the indoor unit 12 is provided with an emergency operation switch 30 as a first switch and a maintenance switch 31 used for maintenance and the like as a second switch. These switches 30 and 31 are push button switches.
[0020]
Further, a display unit 33 is provided on the main body 12A. The display unit 33 includes, for example, three LEDs 33A, 33B, and 33C (for example, two-color LEDs or three-color LEDs). Normally, the display unit 33 expresses the operating state and the like in a predetermined color or blinking.
[0021]
As shown in FIG. 1, the air conditioner 10 includes a control device 40. The indoor unit 12 includes, as an indoor sensor 29, a temperature sensor 29A that detects the temperature of suction air (that is, indoor air) on the back surface of the suction port 27A (FIG. 2), and a temperature of the refrigerant in the indoor heat exchanger 21. A temperature sensor 29B for detection and a humidity sensor 29C for detecting indoor humidity on the air suction side of the indoor heat exchanger 21 are provided.
[0022]
The control unit 40 is connected to the indoor sensor 29, the switches 30, 31 and the display unit 33 by signal lines. Note that the air-conditioning apparatus 10 includes a remote controller 34 that can perform an air-conditioning operation wirelessly. An address is assigned to the remote controller 34, and the control device 40 accepts the operation of the remote controller 34 only when the address matches the address assigned to the main body 12A. A buzzer 35 is connected to the control device 40.
[0023]
The control device 40 includes a microcomputer 41, and controls the entire air-conditioning apparatus 10 based on a control program stored in advance in a storage medium such as a ROM (not shown).
[0024]
The control device 40 controls, for example, the operating frequency of the compressor 16, the switching of the four-way valve 18, and the rotation speed of the propeller fan 20 in the outdoor unit 11. Further, the control device 40 controls the rotation speed of the cross flow fan 23 of the indoor unit 12 and the opening of the electric expansion valve 22. By switching the four-way valve 18, the air-conditioning apparatus 10 is set to a cooling (or dry) operation or a heating operation.
[0025]
Further, according to the required air conditioning load, the operating frequency of the compressor 16 and the like are controlled so as to achieve a predetermined cooling capacity during the cooling operation and a predetermined heating capacity during the heating operation. That is, the control device 40 controls to perform the air-conditioning operation so that the room temperature detected by the temperature sensor 29A reaches the set temperature. At this time, if the deviation between the room temperature and the set temperature is smaller than a predetermined deviation (for example, 1 ° C.), the control device 40 performs control to stop the operation of the compressor 16.
[0026]
Further, the control device 40 includes a storage unit 42 which is a rewritable nonvolatile memory such as an EEPROM. The storage unit 42 stores the address of the main body 12A. The storage unit 42 stores abnormality information of the air conditioner 10 (the outdoor unit 11 or the indoor unit 12). Specifically, an error of the indoor sensor 29 of the indoor unit 12, an error of the fan motor 23A of the cross flow fan 23 of the indoor unit 12, a communication error between the outdoor unit 11 and the indoor unit 12, an error from the outdoor unit 11, and the like. It is memorized. That is, when these errors occur, the control device 40 records these errors in the storage unit 42 as abnormal information.
[0027]
As the error of the indoor sensor 29, for example, a failure such as an abnormal increase in the electric resistance of the sensor 29 (disconnection of the sensor), an abnormal decrease in the electric resistance of the sensor 29 (short circuit of the sensor), or an indoor heat exchange For example, when the temperature detected by the temperature sensor 29B of the heater 21 rises abnormally. The error of the fan motor 23A of the indoor unit 12 includes, for example, an abnormal rotation speed and an abnormal temperature. The communication error is, for example, a communication abnormality between the outdoor unit 11 and the indoor unit 12. The error of the outdoor unit 11 is, for example, an abnormality of the compressor 16 or the like.
[0028]
The control device 40 includes a pressing timer 43A that measures the pressing time of the maintenance switch 31, and a first predetermined time when the operation of the compressor 16 is forcibly stopped for a first predetermined time (for example, three minutes). A compressor forced off timer 43B that measures time (for example, 3 minutes) and an address setting timer 43C that measures a second predetermined time (for example, 5 seconds) after switching to an address setting mode described later are provided. .
[0029]
In the present embodiment, the operation modes include a cooling operation mode for performing a cooling operation, a heating operation mode for performing a heating operation, a dry operation mode for performing a dry operation, and an air cleaning operation mode for performing an air cleaning operation.
[0030]
In the cooling operation mode in which the cooling operation is performed, the refrigerant discharged from the compressor 16 flows into the outdoor heat exchanger 19 through the four-way valve 18 and flows out from the four-way valve 18 as shown by a solid arrow in the four-way valve 18. The refrigerant flows into the indoor unit 12 after being expanded by the electric expansion valve 22. Then, it evaporates in the indoor heat exchanger 21, flows to the four-way valve 18, and returns to the compressor 16 via the accumulator 17. The indoor air introduced into the indoor unit 12 is cooled by the indoor heat exchanger 21 to cool the room. In the dry operation mode in which the dry operation is performed, the room is dehumidified by performing a weak cooling operation having a lower cooling capacity than the cooling operation.
[0031]
In the heating operation mode in which the heating operation is performed, the refrigerant discharged from the compressor 16 flows into the indoor unit 12 through the four-way valve 18 as indicated by a dotted arrow in the four-way valve 18. Then, the refrigerant flows in the order of the indoor heat exchanger 21 and the electric expansion valve 22, flows into the outdoor heat exchanger 19, flows out of the refrigerant, passes through the four-way valve 18, and is returned to the compressor 16 through the accumulator 17. . Accordingly, the indoor heat exchanger 19 functions as a condenser, and the indoor heat exchanger 31 heats the indoor air guided into the indoor unit 12 to heat the room.
[0032]
In the air purifying operation mode in which the air purifying operation is performed, the compressor 16 is stopped, and the cross flow fan 23 of the indoor unit 12 is driven to blow air into the room.
[0033]
When the switches 30 and 31 are not pressed, the control device 40 operates in the normal operation mode in which the remote controller 34 operates the air conditioning operation. In the normal operation mode, the operation of the remote controller 34 enables switching of the operation mode, setting of a set temperature indicating a target value of the room temperature, operation of operation / stop, and the like.
[0034]
Normally, the control device 40 performs control to stop the operation of the compressor 16 when the air conditioning operation is stopped or when the operation mode is switched such that the four-way valve 18 (FIG. 1) is switched. That is, the air-conditioning apparatus 10 includes a forced stop mode in which restart after the stop of the operation of the compressor 16 is prohibited for a first predetermined time (for example, three minutes) from the stop of the operation, and the air conditioning operation is stopped. In this case, or when the operation mode is switched such that the four-way valve 18 is switched, the control device 40 controls to shift to the forced stop mode. Furthermore, the air-conditioning apparatus 10 includes a forced stop release mode that prohibits the transition to the forced stop mode or releases the forced stop mode after the transition to the forced stop mode is started.
[0035]
FIG. 3 is a schematic diagram showing an electric circuit for supplying power to the outdoor unit. The power is supplied from an outlet (not shown), and supplies power to each device of the outdoor unit 11 via a power supply unit 37 provided in the indoor unit 12. That is, power is supplied to the outdoor unit 11 via the indoor unit 12. A power relay 39 is provided on a power supply line 38 from the power supply unit 37 to the outdoor unit 11.
[0036]
When the air conditioner 10 is operating normally in the normal operation mode, the power relay 39 is turned on under the control of the control device 40 to supply power to the outdoor unit 11.
[0037]
The air conditioner 10 has an operation stop mode in which power supply to the outdoor unit 11 is stopped when an abnormality occurs in the indoor unit 12 or the outdoor unit 11, and the control device 40 controls the error of the indoor sensor 29 and the indoor When an error of the fan motor 23A of the unit 12 or a communication error or an error of the outdoor unit 11 is detected, the power relay 39 is turned off and the power supply to the outdoor unit 11 is stopped.
[0038]
That is, as shown in FIG. 4, in the normal operation mode, the error of the indoor sensor 29, the error of the fan motor 23A of the indoor unit 12, the communication error, and the error of the outdoor unit 11 are enabled, and these errors occur. Then, control to automatically switch to the operation stop mode is performed.
[0039]
The air conditioner 10 has a test operation mode in which power is supplied to the outdoor unit 11 via the indoor unit 12 regardless of whether or not the indoor sensor 29 provided in the indoor unit 12 is abnormal. A trip ignoring mode for supplying power to the outdoor unit 11 via the indoor unit 12 regardless of the presence or absence of an abnormality is provided.
[0040]
That is, as shown in FIG. 4, the test operation mode is a mode in which an error of the indoor sensor 29 is invalidated to perform the air conditioning operation, and the control device 40 switches to the operation stop mode even if the error of the indoor sensor 29 is detected. Control is performed to continue the air-conditioning operation in the test operation mode without shifting.
[0041]
The trip ignoring mode is a mode in which the air conditioning operation is performed by invalidating the error of the indoor sensor 29, the error of the fan motor 23A of the indoor unit 12, the communication error, and the error of the outdoor unit 11, and shifts to the operation stop mode. The control to continue the air-conditioning operation in the trip ignoring mode is performed.
[0042]
When the cooling operation, the heating operation, or the dry operation is performed in the test operation mode, the compressor 16 is fixed at a predetermined operation frequency.
[0043]
Further, when performing the cooling operation, the heating operation, or the dry operation in the trip ignoring mode, the compressor 16 is operated at the required operation frequency.
[0044]
In the present embodiment, air conditioner 10 has an emergency operation mode and a maintenance mode. When the emergency operation switch 30 shown in FIG. 2 is pressed, the control device 40 performs control for switching from the normal operation mode to the emergency operation mode. When the maintenance switch 31 shown in FIG. 2 is pressed, the control device 40 performs control for switching from the normal operation mode to the maintenance mode.
[0045]
First, the control operation of the emergency operation mode by the control device 40 when the emergency operation switch 30 is pressed will be described with reference to the flowchart shown in FIG.
[0046]
The control device 40 determines whether or not the emergency operation switch 30 has been pressed (push operation) (step S1). If the emergency operation switch 30 is not pressed, the processing in the emergency operation mode is not performed.
[0047]
If it is determined in step S1 that the emergency operation switch 30 has been pressed, the operation mode shifts to the emergency operation mode, and the control device 40 controls the air conditioning of the air conditioner 10 at the present time, that is, when the emergency operation switch 30 is pressed. The operation state is determined (step S2).
[0048]
If it is determined in step S2 that the operation is stopped, the control device 40 performs control to switch to the cooling operation mode and shift to the cooling operation (step S3). At this time, a display indicating the cooling operation is performed on the display unit 33. For example, the LED 33C is turned on in green.
[0049]
The control device 40 sets a set temperature, which is a target value corresponding to the room temperature detected by the temperature sensor 29A, corresponding to the cooling operation mode in the emergency operation mode (step S4).
[0050]
That is, in step S4, a set temperature corresponding to the room temperature (current temperature) detected by the temperature sensor 29A when the mode is switched to the cooling operation mode is set. The current temperature is, for example, a temperature detected by the temperature sensor 29A when the emergency operation switch 30 is pressed to switch the operation mode. Specifically, the set temperature is set to a value lower than the current temperature. For example, the set temperature is set to a value obtained by subtracting a predetermined temperature (for example, 2 ° C.) larger than a predetermined deviation from the current temperature so that the compressor 16 operates. Accordingly, when the operation mode is switched to the emergency operation mode and the operation mode is shifted to the cooling operation, the deviation between the room temperature and the predetermined temperature is larger than the predetermined deviation (for example, 1 ° C.). Can be improved.
[0051]
In Step 4, a set temperature range (for example, 20 ° C. to 30 ° C.) corresponding to the cooling operation mode is provided, and the set temperature is set to a value within the set temperature range. Thereby, for example, when it is desired to rapidly cool the room such that the room temperature becomes 32 ° C. or more, for example, the set temperature is set to the upper limit (for example, 30 ° C.) of the set temperature range that does not impair air conditioning. Since the set temperature is set, for example, the air-conditioning performance can be further improved as compared with a case where the set temperature is set to 36 ° C., which is 2 ° lower when the room temperature is 38 ° C. Further, for example, when cooling such that the indoor temperature is, for example, 22 ° C. or less is not required, the set temperature is set to a lower limit (for example, 20 ° C.) of the set temperature range that does not impair air conditioning. Therefore, the air conditioning can be improved.
[0052]
When the cooling operation is being performed (that is, in the cooling operation mode) in the determination of step S2, the control device 40 performs control to switch to the heating operation mode and shift to the heating operation (step S5). At this time, a display indicating the heating operation is displayed on the display unit 33. For example, the LED 33C is turned on in red. Note that the cooling operation mode in this case is not limited to the case where the emergency operation switch 30 is set, but also includes the cooling operation mode in the normal operation mode switched by the remote controller 34.
[0053]
The control device 40 sets a set temperature that is a target value corresponding to the room temperature detected by the temperature sensor 29A, corresponding to the heating operation mode in the emergency operation mode (step S6).
[0054]
That is, in step S6, a set temperature corresponding to the room temperature (current temperature) detected by the temperature sensor 29A when the mode is switched to the heating operation mode is set. Specifically, the set temperature is set to a value higher than the current temperature. For example, the set temperature is set to a value obtained by increasing a predetermined temperature (for example, 2 ° C.) larger than a predetermined deviation from the current temperature so that the compressor 16 operates. Accordingly, when the operation mode is switched to the emergency operation mode and the operation mode is shifted to the heating operation, the deviation between the room temperature and the predetermined temperature is larger than the predetermined deviation (for example, 1 ° C.), so that the compressor 16 can be operated, and the air conditioning performance can be improved. Can be improved.
[0055]
In Step 6, a set temperature range (for example, 20 ° C. to 26 ° C.) corresponding to the heating operation mode is provided, and the set temperature is set to a value in the set temperature range. Thereby, for example, when it is desired to heat the room rapidly so that the room temperature becomes 18 ° C. or less, for example, the set temperature is set to the lower limit (for example, 20 ° C.) of the set temperature range that does not impair air conditioning. Since the temperature is set, for example, when the room temperature is 2 ° C., the air-conditioning performance can be further improved as compared with the case where the set temperature is set to 4 ° C., which is 2 ° higher. Further, for example, when it is not necessary to perform heating so that the room temperature becomes, for example, 24 ° C. or higher, the set temperature is set to an upper limit (for example, 26 ° C.) of the set temperature range that does not impair air conditioning. Therefore, the air conditioning can be improved.
[0056]
If it is determined in step S2 that the heating operation is being performed (that is, if the heating operation mode is set), the control device 40 performs control to stop the air conditioning operation (step S7). The heating operation mode in this case is not limited to the case where the emergency operation switch 30 is set, but also includes the heating operation mode in the normal operation mode which is switched by the remote controller 34.
[0057]
By pressing the emergency operation switch 30, the operation can be cyclically switched in the order of operation stop → cooling operation → heating operation → operation stop →. That is, since the operation mode can be cyclically switched including the operation stop, it is not necessary to separately provide the operation stop button on the main body 12A.
[0058]
The operation mode that can be switched by the emergency operation switch 30 is a cooling and heating operation mode required for an emergency, and in the present embodiment, the dry operation mode and the air cleaning operation mode are not included, but these operation modes are included. It is also possible.
[0059]
When the emergency operation switch 30 is pressed in another operation mode (for example, the dry operation mode or the air cleaning operation mode) other than the cooling and heating operation mode, that is, the normal operation mode not included in the operation mode in the emergency operation mode When the emergency operation switch 30 is pressed during operation in the operation mode in the operation mode, the control device 40 performs control to stop the operation. As a result, when the remote controller 34 becomes inoperable during the operation in the operation mode in the normal operation mode that is not included in the operation mode in the emergency operation mode (for example, the remote controller 34 is lost), the emergency operation switch 30 is used. By pressing, the operation can be stopped.
[0060]
Next, the control operation of the maintenance mode by the control device 40 when the maintenance switch 31 is pressed will be described with reference to the flowchart shown in FIG.
[0061]
The maintenance switch 31 can be operated following the operation of the emergency operation switch 30. That is, the emergency operation switch 30 and the maintenance switch 31 can be operated independently of each other. Therefore, since the operation is simple, the operability is improved.
[0062]
First, the control device 40 checks whether the maintenance switch 31 is pressed (push operation) (step S11).
[0063]
If the maintenance switch 31 has not been pressed in step S11, the process returns to step S11, and if the maintenance switch 31 has been pressed in step S11, the mode shifts to the maintenance mode.
[0064]
In step S11, if the maintenance switch 31 is pressed, the pressing time is started by the pressing timer 43A. If the pressing time is greater than 0 second and less than 1 second, the control device 40 After the transition to the forced stop mode is prohibited, or after the transition to the forced stop mode is started, control is performed to switch to the forced stop release mode for releasing the forced stop mode (step S12).
[0065]
Specifically, in step S12, the control device 40 performs control to cause the compressor forced off timer 43B to overflow. By causing the compressor forcible off timer 43B to overflow, the control device 40 can determine that the operation stop time of the compressor 16 has elapsed for the first predetermined time (for example, 3 minutes), and that the compressor 16 is operating. For example, the shift to the forced stop mode is prohibited, and if the operation of the compressor 16 is stopped, the forced stop mode of the compressor 16 is released.
[0066]
When the operation mode is switched to the forced stop release mode, the air conditioning operation is restarted at the time of operation mode switching (for example, switching from the cooling operation mode to the heating operation mode) such as switching the four-way valve 18 or after the air conditioning operation is stopped. Sometimes, the air conditioning operation can be performed without waiting for the elapse of the first predetermined time (for example, three minutes). In particular, the switching operation of the cooling / heating operation mode can be confirmed without taking time during maintenance such as installation or service of the air conditioner 10.
[0067]
In the switching between the forced stop mode and the forced stop release mode of the compressor 16, switching from the forced stop mode to the forced stop release mode is performed by pressing the maintenance switch 31. Then, the release of the forced stop release mode, that is, the transition from the forced stop release mode to the normal operation mode is automatically performed. That is, the maintenance switch 31 can switch in one direction from the forced stop mode to the forced stop release mode.
[0068]
The release of the forced stop release mode is automatically performed by the control device 40 after, for example, performing an operation mode switching operation such as switching the four-way valve 18 or an operation of restarting the air conditioning operation after stopping the air conditioning operation. .
[0069]
When the processing operation in step S12 ends, the mode is switched from the maintenance mode to the normal operation mode, and the process returns to the determination operation in step S11 to perform the processing.
[0070]
If it is determined in step S11 that the pressing time of the maintenance switch 31 is 1 second or more and less than 5 seconds, the control device 40 sounds the buzzer 35 once (step S13), and determines whether the air conditioning operation is being performed. (Step S14).
[0071]
The condition of the air-conditioning operation in the determination in step S14 is not limited to the normal operation mode, but may be the air-conditioning operation in the emergency operation mode switched by the emergency operation switch 30.
[0072]
If it is determined in step S14 that the air-conditioning operation is being performed, the control device 40 performs control to switch to a test operation mode corresponding to the air-conditioning operation (cooling operation, heating operation, dry operation, or air cleaning operation) (step S15). For example, during the cooling operation, the control device 40 performs control to shift to the test operation mode of the cooling operation.
[0073]
Note that the control device 40 controls, for example, to automatically switch to the normal operation mode or the emergency operation mode one hour after switching to the test operation mode.
[0074]
Further, in the test operation mode, the control device 40 controls so as not to receive the operation of the remote controller 34.
[0075]
Furthermore, when the emergency operation switch 30 is pressed during the air-conditioning operation in the test operation mode, the control device 40 performs control to stop the air-conditioning operation. As described above, since the air conditioning operation in the test operation mode can be stopped by operating the emergency operation switch 30, it is not necessary to provide an operation stop switch in the main body 12A (FIG. 2).
[0076]
When the processing operation in step S15 ends, the mode is switched from the maintenance mode to the normal operation mode, and the process returns to the determination operation in step S11 to perform the processing again.
[0077]
If it is determined in step S14 that the operation is stopped, the control device 40 performs control to switch to the self-diagnosis mode in which the abnormality information stored in the storage unit 42 is displayed on the display unit 33 (step S16).
[0078]
In step S16, the abnormality information stored in the storage unit 42 is represented by a predetermined lighting pattern in the LEDs 33A, 33B, and 33C of the display unit 33. The abnormality information stored in the storage unit 42 is sequentially displayed, for example, from new abnormality information.
[0079]
When the processing operation in step S16 ends, the self-diagnosis mode is released, the mode is switched from the maintenance mode to the normal operation mode, and the process returns to the determination operation in step S11 to perform the processing again.
[0080]
If it is determined in step S11 that the pressing time of the maintenance switch 31 is 5 seconds or longer, the control device 40 sounds the buzzer 35 twice (step S17), and determines whether or not the air conditioning operation is being performed (step S17). S18).
[0081]
The condition of the air-conditioning operation in the determination in step S18 is not limited to the normal operation mode, but may be the air-conditioning operation in the emergency operation mode switched by the emergency operation switch 30.
[0082]
If it is determined in step S18 that the air-conditioning operation is being performed, the control device 40 performs control to switch to the trip ignoring mode corresponding to the air-conditioning operation (cooling operation, heating operation, dry operation, or air cleaning operation) (step S19). For example, during the cooling operation, the control device 40 performs control to shift to the trip ignoring mode of the cooling operation.
[0083]
Note that the control device 40 controls, for example, to automatically switch to the normal operation mode one hour after switching to the trip ignoring mode.
[0084]
In the trip ignoring mode, the control device 40 controls so as not to accept the operation of the remote controller 34.
[0085]
Furthermore, when the emergency operation switch 30 is pressed during the air-conditioning operation in the trip ignoring mode, the control device 40 performs control to stop the air-conditioning operation. Since the air-conditioning operation in the trip ignoring mode can be stopped by operating the emergency operation switch 30, there is no need to separately provide a switch for operation stop in the main body 12A (FIG. 2). As described above, since the trip ignoring mode is provided, power can be forcibly supplied to the outdoor unit 11 at the time of maintenance work, so that the maintainability can be improved.
[0086]
In the switching between the operation stop mode and the trip ignoring mode, switching from the operation stop mode to the forced stop release mode is performed by pressing the maintenance switch 31. Then, the transition from the trip ignoring mode to the operation stop mode is automatically performed. That is, the maintenance switch 31 can switch in one direction from the operation stop mode to the trip ignoring mode.
[0087]
When the processing operation in step S15 ends, the mode is switched from the maintenance mode to the normal operation mode, and the process returns to the determination operation in step S11 to perform the processing again.
[0088]
If it is determined in step S14 that the operation is stopped, the control device 40 transmits the abnormality information (error of the indoor sensor 29, error of the fan motor 23A of the indoor unit 12, error of the communication error) stored in the storage unit 42 (EEPROM). , And control to switch to an erasing mode for erasing (clearing) error information such as an error of the outdoor unit 11 (step S20). When the mode is switched to the erase mode, the abnormality information stored in the storage unit 42 (EEPROM) is erased. At this time, the control device 40 performs control to delete (clear) the address of the air-conditioning apparatus main body stored in the storage unit 42 (EEPROM).
[0089]
Next, the control device 40 performs control to switch to an address setting mode in which the address of the air-conditioning apparatus main body is set to the address transmitted by the remote controller 34 (step S21). Specifically, the control device 40 checks the address of the air-conditioning apparatus main body stored in the storage unit 42 with the address transmitted when the remote controller 34 is operated, and if the addresses match. Since the operation of the remote controller 34 is received, the control device 40 sets the address by storing the address transmitted by the remote controller 34 in the storage unit 42 when switching to the address setting mode. ing.
[0090]
The time is started by the address setting timer 43C when the mode is switched to the address setting mode, and when a second predetermined time (for example, 5 seconds) elapses, the control device 40 controls to release the address setting mode. I have. That is, after the second predetermined time (for example, 5 seconds) has elapsed, even if an address is transmitted by the remote controller 34, the address is not set. As described above, since the transition to the address setting mode involves the pressing operation of the maintenance switch 31 and the time, the word setting of the address hardly occurs, and the maintainability is improved.
[0091]
When the processing operation in step S21 ends, the mode is switched from the maintenance mode to the normal operation mode, and the process returns to the determination operation in step S11 to perform the processing again.
[0092]
As described above, according to the present embodiment, the cooling / heating operation mode can be cyclically switched with one emergency operation switch 30, so that a slide switch that requires a plurality of positions corresponding to the operation mode is used. In comparison with the above, the occupied area can be narrowed, and the cooling / heating operation can be performed even when the remote controller 34 cannot be operated, such as when the remote controller 34 is lost, so that the air conditioning can be improved.
[0093]
Further, according to the present embodiment, when a predetermined operation mode is selected by the emergency operation switch 30, the set temperature in the selected operation mode is automatically set to a value lower than the indoor temperature in the cooling operation mode. Set, when in the heating operation mode, since it is automatically set to a value higher than the room temperature, the emergency operation switch cooling operation mode or heating operation mode can be selected, furthermore, any of the cooling and heating operation mode Is selected, the compressor 16 can be operated, so that the air conditioning can be improved.
[0094]
Further, according to the present embodiment, one maintenance switch 31 is used to release the forced stop mode according to the pressing time of the switch 31, the test operation mode or the trip ignoring mode if the air conditioning operation is being performed, or the air conditioning operation being stopped. In this case, the mode is switched to the self-diagnosis mode or the erasing mode. Therefore, one switch 31 can be used to switch among the forced stop release mode, the test operation mode, the trip ignoring mode, the self-diagnosis mode, and the erasing mode. Therefore, the maintainability can be further improved. Furthermore, since the address data in the storage unit 42 is erased in the erase mode and the mode shifts to the address setting mode, the maintainability can be further improved.
[0095]
Further, according to the present embodiment, since the emergency operation switch 30 is provided on the air conditioner main body 12A, the operation mode can be switched even when the remote controller 34 cannot be operated, so that the air conditioning can be improved. Can be.
[0096]
Further, according to the present embodiment, since the air conditioner body 12A is provided with the two switches of the emergency operation switch 30 and the maintenance switch 31, the operation mode is switched by the emergency operation switch 30 and switched by the maintenance switch 31. Since the mode can be switched to the trip ignoring mode corresponding to the set operation mode, the number of operations of the remote controller 34 during the maintenance work can be further reduced, and the maintainability can be further improved.
[0097]
In this embodiment, the case where the emergency operation switch is a push button switch has been described. However, the present invention is not limited to this, and a slide switch may be used. In this case, the operation mode can be switched by sliding the switch.
[0098]
Although the present invention has been described based on one embodiment, it is apparent that the present invention is not limited to this.
[0099]
【The invention's effect】
According to the air conditioner of the present invention, air conditioning can be improved.
[Brief description of the drawings]
FIG. 1 is a circuit diagram showing an embodiment of an air conditioner according to the present invention.
FIG. 2 is a perspective view illustrating an appearance of a wall-mounted indoor unit.
FIG. 3 is a schematic diagram showing an electric circuit for supplying power to an outdoor unit.
FIG. 4 is a diagram showing validity / invalidity of an error in each operation state.
FIG. 5 is a flowchart showing a control operation in an emergency operation mode by the control device when an emergency operation switch is pressed.
FIG. 6 is a flowchart showing a control operation in a maintenance mode by the control device when a maintenance switch is pressed.
[Explanation of symbols]
10 air conditioner 11 outdoor unit 12 indoor unit 12A main unit (air conditioner main unit)
29A Temperature sensor 30 Emergency operation switch 40 Controller (set temperature setting means, air conditioning means)

Claims (5)

In an air conditioner that performs air conditioning operation according to the operation mode,
A switch for switching the operation mode,
A temperature sensor for detecting the indoor temperature,
Set temperature setting means for setting a set temperature corresponding to the room temperature according to the operation mode;
An air conditioner, comprising: an air conditioner that performs an air conditioning operation so that the room temperature detected by the temperature sensor reaches the set temperature. The air conditioner according to claim 1,
The air conditioner according to claim 1, wherein the operation mode includes a cooling operation mode for cooling the room and a heating operation mode for heating the room. The air conditioner according to claim 2,
The air conditioner is characterized in that the set temperature is set to a value lower than the room temperature in the cooling operation mode, and set to a value higher than the room temperature in the heating operation mode. In an air conditioner that performs air conditioning operation according to the operation mode,
An air conditioner, comprising: an emergency operation switch that switches the operation mode cyclically. The air conditioner according to claim 4,
An air conditioner characterized in that, when a predetermined operation mode is selected by the emergency operation switch, a set temperature in the selected operation mode is automatically set.

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