JP2005016915A - Air-conditioning system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To enable a set temperature to be temporarily changed in accordance with a request from a remote control operator and a resident and to maintain operation at a specified temperature of an indoor unit as long as possible. <P>SOLUTION: This air-conditioning system having one or a plurality of air conditioners and a remote controller for setting a operating condition of the air conditioners is provided with a timer 14 measuring time from when the set temperature of an air-conditioning target of the indoor unit of the air conditioner is changed to the set temperature for the higher power consumption operation comparing to the specified temperature for the lower power consumption operation by the operation of the remote controllers 3a, 3b, 3c, and a CPU 8 for returning the set temperature changed for setting to the specified temperature when the time measured by the timer 14 lapses the precedently set predetermined time. This air-conditioning system is also provided with a specified temperature setting switch 7 for changeably setting the specified temperature and/or the predetermined time. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an indoor room of an air conditioning system having one or more air conditioners and a remote controller for setting the operating state of the air conditioners (hereinafter abbreviated as remote control unless necessary). It relates to temperature control.
[0002]
[Prior art]
Generally, when controlling this type of air conditioning system, a remote controller for setting and operating the operating state of each air conditioner is installed.
FIG. 1 shows a schematic configuration of a general air conditioning system. In the figure, 1a to 1d are indoor units of the air conditioner, and 2a and 2b are outdoor units of the air conditioner. Reference numerals 3 a to 3 c denote remote controllers, and each device is connected via a communication transmission line 4.
FIG. 9 shows the external appearance of the remote controllers 3a to 3c. In the figure, 5 is a display unit for displaying the current operation state / setting state of the air conditioner, 6 is an operation stop button, an operation mode switching button, and room temperature adjustment. An operation input unit having buttons and the like.
[0003]
The indoor units 1a to 1d and the outdoor units 2a and 2b obtain information set by the operation input unit 6 of the remote controllers 3a to 3c as a communication command via the communication transmission line 4, and perform air conditioning control based on the information. When the remote controller operator wants to change the set temperature that is the target of indoor temperature by the indoor unit, the desired setting can be made by operating the up button (△) or the down button (▽) of the room temperature adjustment button in the operation input unit 6. The target temperature is changed. However, the set temperature variable range in which the room temperature can be adjusted is stored in advance in the memories in the remote controllers 3a to 3c, and the temperature range that can be changed for each current operation mode (cooling, dry (dehumidification), heating, etc.) is determined. It has been. Although there are some differences in the temperature range, the temperature range that can be changed is generally the range shown in FIG. 10, 19 ° C. to 30 ° C. during cooling / dry operation, and 17 ° C. to 28 ° C. during heating operation. It has become.
[0004]
In an office or a store where the remote controllers 3a to 3c are installed, for the purpose of energy saving control, the set temperature of the indoor unit is a predetermined set temperature with low power consumption (hereinafter referred to as such setting) based on the operation manual of the management department. The temperature is set to the specified temperature). However, a remote controller operator or a resident may change the set temperature to a set temperature at which power consumption temporarily increases in order to obtain comfort. In this case, although it is necessary to return the set temperature to the original specified temperature, the user often forgets to return it, leading to an increase in power consumption.
[0005]
Thus, for example, in the prior art described in Patent Document 1 below, as a means for performing energy saving control, the set temperature variable range of the remote control is limited to a range where power consumption is reduced in advance, and depending on the remote control operator or resident, The setting was not allowed to change to a temperature that would increase the power. Further, even when the operation mode and the operation / stop setting are changed, the set temperature with high power consumption is maintained. As another means, the remote controller operator cannot change the set temperature of the remote control itself.
[0006]
[Patent Document 1]
JP 2001-254984 A
[0007]
[Problems to be solved by the invention]
As described above, in the prior art described in the literature, it has been impossible to change to the set temperature required by the remote control operator or the resident by performing energy saving control.
The present invention makes it possible to temporarily change the set temperature required by a remote control operator or a resident, and keep the operation at the specified temperature of the indoor unit as long as possible, thereby keeping power consumption low and more flexible. The purpose is to provide an air conditioning system. It is another object of the present invention to perform energy saving control using a specified temperature corresponding to a corresponding operation state even when the operation state such as an operation mode or operation / stop is changed.
[0008]
[Means for Solving the Problems]
In order to solve the above problems, an air conditioning system according to the present invention is an air conditioning system having one or more air conditioners and a remote controller for setting an operating state of the air conditioner. When the set temperature, which is the air conditioning target of the indoor unit of the harmony machine, is changed to a preset temperature that enables high power consumption operation from a preset specified temperature for low power consumption operation by operation from the remote controller. Time measuring means for measuring the time since the setting change, and first set temperature changing means for returning the set temperature whose setting has been changed to the specified temperature when a predetermined time set in advance has elapsed. It is equipped with.
[0009]
Further, in the above configuration, a specified temperature-related setting unit that sets the specified temperature and / or the predetermined time to be changeable is provided.
[0010]
In each configuration described above, when the operation mode setting unit provided in the remote controller for setting the operation mode such as the cooling mode, the dehumidification mode, and the heating mode, and the operation mode setting is changed from the operation mode setting unit In addition, the set temperature of the indoor unit is selected from the specified temperatures that are set in advance for each power consumption mode for low power consumption operation, and the specified temperature related to the changed operation mode is selected and set to the selected specified temperature. And a second set temperature changing means for changing.
[0011]
Further, in each configuration described above, when the operation state or the stop state is set from the operation stop state setting means provided in the remote controller for setting the operation state or the stop state, and the operation stop state setting means, Select the specified temperature related to the operating state or the stop state set from the specified temperatures for the low power consumption operation that are set in advance for each of the operating state and the stopped state. And third set temperature changing means for changing the setting.
[0012]
Further, the remote controller is a first set temperature changing means according to claim 1, a second set temperature changing means according to claim 3, a third set temperature changing means according to claim 4, or a claim 2. The specified temperature related setting means is provided.
[0013]
DETAILED DESCRIPTION OF THE INVENTION
Embodiment 1 FIG.
Next, an embodiment according to the present invention will be described with reference to the drawings. FIG. 1 shows a schematic configuration of an air conditioning system according to an embodiment of the present invention.
In the figure, 1a to 1d are indoor units of an air conditioner, and 2a and 2b are outdoor units of the air conditioner. In this case, from the indoor units 1a and 1b, the outdoor unit 2a constituting the refrigerant circuit between the indoor units 1a and 1b, and the remote controller 3a connected to the indoor unit 1a via the communication transmission line 4 The first air conditioner is configured. In addition, the indoor unit 1c, 1d, the outdoor unit 2b constituting the refrigerant circuit between the indoor unit 1c, 1d, the remote controller 3b connected to the indoor unit 1c via the communication transmission line 4, and the indoor unit 1d A second air conditioner is configured from the remote controller 3c that is connected for communication via the communication transmission line 4. The outdoor units 2a and 2b, the indoor units 1a to 1d, and the remote controllers 3a to 3c are communicatively connected by a communication transmission line 4 and communicate with each other to exchange the air conditioner. The operation control is realized. The operating states of the indoor units 1a to 1d and the outdoor units 2a and 2b can be set by any one of the remote controllers 3a, 3b and 3c.
[0014]
FIG. 2 shows one of the remote controllers 3a, 3b, and 3c, and is an external view in a state where an upper cover (not shown) that covers the remote controllers 3a, 3b, and 3c is removed. In the figure, reference numeral 5 denotes a display unit that displays the current operating state, setting state, and the like of the air conditioner. Reference numeral 6 denotes an operation input unit for performing setting operations such as operation / stop, operation mode switching, and air conditioning target temperature, and an operation stop button 6A (an example of operation stop state setting means) for setting an operation state or a stop state. An operation mode switching button 6B (an example of an operation mode setting means) for setting operation modes such as a cooling mode, a dry (dehumidification) mode, and a heating mode, for setting and inputting a set temperature that is an air conditioning target of the indoor unit A room temperature adjustment button 6C (△ button and ▽ button) is provided. Reference numeral 7 denotes a specified temperature setting switch (an example of a specified temperature related setting means) for setting the specified temperature and the predetermined time to be changeable.
[0015]
The specified temperature setting switch 7 is exposed to the surface of the remote controls 3a, 3b, 3c by removing the upper cover covering the remote controls 3a, 3b, 3c, and cannot be touched unless the upper cover is removed. . In this case, the specified temperature setting switch 7 is composed of, for example, a six-pole dip switch. Dip switch No. 1 and 2 are used to set a prescribed temperature during cooling / dry (dehumidification) operation from the outside. Dip switch No. Four specified temperatures are assigned in advance by a combination of 1 and 2 ON / OFF, and a desired specified temperature is set from the combinations. Similarly, the dip switch No. The specified temperature during the heating operation is set using 3 and 4. Dip switch No. Four predetermined times (time until returning to the specified temperature) are allocated in advance to the combinations 5 and 6 according to the combination. 5 and 6 are used to set a desired predetermined time.
Examples of setting contents are shown in FIGS. 3 (a), (b), and (c). At this time, the dip switch No. of the specified temperature setting switch 7 is set. Assume that 1 to 6 are in the state shown in FIG. 2 (the position indicated by the black square is the switch position). That is, no. No. 1, 4 and 6 DIP switches are OFF. The dip switches 2, 3 and 5 are ON. When this set state is applied to the relationship shown in FIGS. 3A, 3B and 3C, the specified temperature during cooling / drying operation is 25 ° C. (DIP switch NO.1 = OFF, NO.2 = ON), the specified temperature during heating operation is 21 ° C. (DIP switch NO.3 = ON, NO.4 = OFF), and the time to return to the specified temperature is 20 minutes (DIP switch NO.5). = ON, NO.6 = OFF).
[0016]
In order to perform energy saving control, the temperature is changed to increase the specified temperature during the cooling / dry operation, and conversely to decrease the specified temperature during the heating operation. This change can be made by operating the DIP switch of the specified temperature setting switch 7. It can be set from the outside.
Note that the number of poles of the dip switch in the specified temperature setting switch 7 and the meaning of each setting are not limited to those in FIGS. 2 and 3, and either a specified temperature or a predetermined time may be set. For example, for the time to return to the specified temperature, a predetermined time can be set in advance and stored in the internal memory. In this case, setting of the predetermined time by the dip switch is not necessary.
[0017]
Next, FIG. 4 will be described. FIG. 4 shows the internal configuration of the remote controllers 3a, 3b, 3c. 2, 5 is a display unit, 6 is an operation input unit, and 7 is a specified temperature setting switch. Reference numeral 9 denotes a memory in which a set temperature variable range (see FIG. 10) is stored in advance. The specified temperature set by the specified temperature setting switch 7 and the set content for a predetermined time to return to the specified temperature are sent to the CPU 8, and the CPU 8 performs the flow processing of FIG. Energy saving control of the indoor unit and the outdoor unit is performed via the line 4.
[0018]
Therefore, the control calculation of the CPU 8 for returning to the specified temperature after the elapse of the predetermined time set by the specified temperature setting switch 7 in the present embodiment will be described with reference to the flowchart 1 shown in FIG.
In step 11a of the flowchart 1, the remote controllers 3a, 3b, 3c detect whether or not there is a temperature setting input operation from the room temperature adjustment button 6C. If there is a temperature setting input operation, the process proceeds to step 11b. If there is no input operation, the process proceeds to step 11f. In step 11f, it is detected whether there is an operation mode setting input operation from the operation stop button 6A and an operation mode switching button 6B. If these setting input operations are performed, the process proceeds to step 11e, and if not, the process returns to step 11a.
[0019]
In step 11e, the set temperature is returned to the specified temperature Ts according to the corresponding operation mode. For example, when the operation mode is changed from the cooling operation to the heating operation, the specified temperature Ts related to the heating operation is displayed, and the set temperature of the indoor unit is changed to the specified temperature Ts. When the operation / stop setting state is changed, the operation temperature is changed to the specified temperature Ts in the operation mode after the change, regardless of the set temperature before the change.
That is, when the operation mode is changed from the operation mode switching button 6B, the function of the CPU 8 that executes the above-described steps 11f and 11e sets the set temperature of the indoor unit in advance for each operation mode. It is an example of the second set temperature changing means of the present invention that selects a specified temperature related to the operation mode that has been changed from the specified temperature that is low power consumption operation and changes the setting to the selected specified temperature, In addition, when the operation state or the stop state is set from the operation stop button 6A, the set temperature of the indoor unit is set from the predetermined temperatures that are set in advance for the low power consumption operation for each of the operation state and the stop state. The third set temperature changing means of the present invention selects the specified temperature related to the operated state or the stopped state and changes the setting to the selected specified temperature. It is an example.
[0020]
In step 11b, the set temperature Tr that has been changed based on the operation mode is compared with the stored specified temperature Ts. When the operation mode is the cooling operation and Tr ≧ Ts, or when the operation mode is the heating operation and Tr ≦ Ts, the process returns to Step 11a. When the operation mode is cooling operation and Tr <Ts, or when the operation mode is heating operation and Tr> Ts, the process proceeds to step 11c and the timer for a predetermined time set by the specified temperature setting switch 7 of FIG. Start counting.
That is, the functions of the CPU 8 and the timer 14 that execute the above-described processing of Step 11a and Step 11c are such that the set temperature, which is the air conditioning target of the indoor unit of the air conditioner, is set in advance by the operation from the remote controller. It is an example of the time measuring means of this invention which time-measures the time from the said setting change, when a setting change is carried out to the setting temperature used as high power consumption operation rather than the regulation temperature used as driving | operation.
[0021]
Then, in the next step 11d, it is determined whether the counted timer has reached the predetermined time and the timer count has ended. If not completed, the process returns to step 11a. If completed, the process proceeds to step 11e, and the set temperature of the indoor unit is returned to the specified temperature Ts.
That is, the function of the CPU 8 that executes the above-described steps 11d and 11e returns the set temperature that has been changed to the specified temperature when the time measured by the timer 14 exceeds a predetermined time. It is an example of the 1st preset temperature change means.
[0022]
When the set temperature is changed as described above, energy saving control can be performed by returning the set temperature after the change to the specified temperature for a while.
[0023]
Embodiment 2. FIG.
A second embodiment of the present invention will be described.
In the first embodiment, the case where the specified temperature setting switch 7 for setting from the outside is provided in the remote controller 3 has been described, but in this embodiment, an example in which the same operation is performed without the specified temperature setting switch 7 will be described.
FIG. 6 shows the appearance of the remote controller used in the second embodiment. The difference from the remote controller of the first embodiment shown in FIG. 2 is that the specified temperature setting switch 7 is not mounted. FIG. 7 shows the internal configuration of the remote controller. This remote controller has substantially the same configuration as that shown in FIG. 4. The difference in configuration is that the specified temperature setting switch 7 is not provided and the nonvolatile memory 12 is adopted as a memory.
[0024]
Next, the manner of setting the specified temperature when using the remote controllers 3a, 3b, 3c will be described with reference to the flowchart 2 of FIG.
First, when the power is turned on to the remote controls 3a, 3b, 3c and the CPU 8 is operating, certain buttons in the operation input unit 6, for example, both the up button and the down button of the room temperature adjustment button 6C are simultaneously activated. If the button is continuously pressed for a certain period of time, the processing by the CPU 8 shifts to the specified temperature setting mode (steps 13a and 13b). In this state, when the operation mode switching button 6B is operated, every time the operation mode switching button 6B is operated, the display unit 5 displays “cooling / dry” and “heating” to indicate which operating mode the specified temperature is set to. Let the user select (step 13c). When “COOLING / DRY” is displayed on the display unit 5, the process proceeds to Step 13d. When “HEATING” is displayed, the process proceeds to Step 13e. In the process of step 13d, 30 ° C., which is the maximum upper limit value related to cooling / dry operation programmed in advance, is displayed. However, when the specified temperature has already been changed, the latest specified temperature related to the cooling / drying operation stored in the nonvolatile memory 12 is displayed. Moreover, in the process of step 13e, 17 degreeC which is the minimum value which concerns on the heating operation programmed beforehand is displayed. However, when the specified temperature has already been changed, the latest specified temperature related to the heating operation stored in the nonvolatile memory 12 is displayed.
[0025]
Then, the process proceeds from Steps 13d and 13e to Steps 13f and 13g, respectively, and if there is an input from the up button or the down button of the room temperature adjustment button 6C, the latest display related to the currently displayed cooling / dry operation is performed. The specified temperature or the latest specified temperature related to the heating operation is increased or decreased, and this processing is performed until the desired specified temperature is reached. However, the desired temperature value that can be changed is within the range of 19 ° C. to 30 ° C. during cooling / dry operation or 17 ° C. to 28 ° C. during heating operation, which is preprogrammed and stored. When another operation mode is selected by the operation mode switching button 6B in step 13h, the specified temperature related to the selected operation mode (cooling / drying or heating) is set (steps 13d to 13f or 13e to 13e). 13g). Then, after the desired specified temperature is set, a predetermined time until the temperature returns to the specified temperature is set in step 13h. When a certain button in the operation input unit 6 (here, for example, the operation stop button 6A that has not been used for the operation for shifting to the specified temperature setting mode) is pressed for a certain period of time, a predetermined time until the temperature is returned to the specified temperature. A transition is made to a time setting mode for setting the time (step 13h).
[0026]
In step 13i, a predetermined time programmed and stored in advance is displayed on the display unit 5. However, if the predetermined time has already been changed, the latest predetermined time stored in the nonvolatile memory 12 is displayed on the display unit 5. Next, the process proceeds to step 13j, and if there is an input from the up button or the down button of the room temperature adjustment button 6C, this process is continued until the latest predetermined time currently displayed is increased or decreased to the desired predetermined time. Execute. The unit of the predetermined time is arbitrarily determined according to the contents programmed in advance. After the predetermined time is set, when both the up button and the down button of the room temperature adjustment button 6C in the operation input unit 6 are simultaneously pressed for a certain period of time (step 13k), the predetermined time setting mode is canceled. Is done. After this, normal operation becomes possible. Prior to that, the specified temperature for each of the cooling / drying operation and the heating operation finally set in step 13f and step 13g and the predetermined time until returning to the specified temperature are stored in the nonvolatile memory 12 (step 13l).
[0027]
If the processing of the above flow is performed, the specified temperature is set to increase in the cooling / dry operation, conversely the decrease is set in the heating operation, and the predetermined time for returning to the specified temperature is set efficiently, the embodiment As in the case of 1, the energy saving control of the air conditioner with low power consumption can be realized according to the desires of the remote control operator and the resident. Note that the processing until the current set temperature is returned to the specified temperature for various setting changes is the same as that in the flowchart 1 of FIG.
[0028]
By providing the remote controller with the energy saving control function by the control means and the setting means as in the first and second embodiments, it is possible to save work and facilitate the work in the system design for energy saving control. Alternatively, even in the case where energy saving control is performed in an existing air conditioning system, it can be carried out with reduced construction.
[0029]
Embodiment 3 FIG.
A third embodiment of the present invention will be described.
In the first embodiment, the case where the remote controller 3 is provided with the specified temperature setting switch 7 (FIG. 2) has been described. However, the same setting means as the specified temperature setting switch 7 is used as the air conditioner (the outdoor units 2a and 2b and the indoor unit 1a). In the case where the control means having the function shown in the flowchart 1 of FIG. 5 is provided in addition to the remote controller, the same control can be realized and the same effect can be obtained. That is, the function of the first set temperature changing means, the function of the second set temperature changing means, the function of the third set temperature changing means, and the function of the specified temperature related setting means in the present invention are, for example, What was given to the control part of the indoor unit of an air conditioner and the control part of the outdoor unit of an air conditioner is also included in the present invention.
[0030]
Embodiment 4 FIG.
In addition to what has been described so far, several embodiments will be described. First, as a fourth embodiment, the system is provided with a function of canceling “energy saving control for changing a set temperature and returning it to a specified temperature after a predetermined time has elapsed” in a specific period or time zone. With this configuration, the energy saving control is canceled when a specific button on the remote controller is pressed for a certain period of time. In other words, if you want to give priority to comfort temporarily, such as during a visitor's time or lunch time at a school or company, you can save energy without greatly reducing comfort by providing a function that can cancel energy conservation control. Control can be implemented.
Alternatively, with the above configuration, when the outdoor temperature detected by the outdoor unit exceeds the temperature range that can be set by the remote controller, the energy saving control is canceled, and when the outdoor temperature returns to within the set temperature range, the energy saving control is performed. To do. For example, the set temperature range during the cooling operation is 19 ° C to 30 ° C. Therefore, when the outside air temperature exceeds 30 ° C. in summer, the energy saving control is canceled until the outside air temperature returns within the set temperature range. Thus, by canceling only when it is extremely hot or cold, it is possible to perform energy saving control without significantly impairing comfort.
[0031]
Embodiment 5 FIG.
In the fifth embodiment, the system has a function of changing the return time to the specified temperature depending on the difference between the specified temperature and the set temperature. With this configuration, when the difference between the specified temperature and the set temperature of the remote controller is equal to or greater than a certain difference, the return time to the specified temperature is automatically shortened. Therefore, in a place where an air conditioner is already in operation, such as a sales office, when a salesman returns and changes the set temperature to the extreme set temperature he desires, and then goes out immediately. In this case, energy saving control can be performed efficiently. That is, it is effective for energy saving control when there is a lot of people going in and out, or when the person who sets the air conditioning is not decided.
Alternatively, with the above configuration, when the difference between the specified temperature and the set temperature of the remote controller is equal to or greater than a certain difference, the predetermined time for returning to the specified temperature is automatically extended (the reverse pattern). As a result, when it is desired to suddenly lower the indoor temperature, such as when going home in the summer, the return time is automatically extended, so that it is possible to return to the energy saving control without greatly impairing the comfort. Therefore, it is effective when it is desired to air-condition the air conditioner at a temperature higher than the specified temperature in a place where the air conditioner has been stopped. It is also effective in places where there are not many people going in and out, when the person who sets air conditioning is decided, and when comfort is given priority over energy saving.
[0032]
Embodiment 6 FIG.
In the sixth embodiment, the system has a function of changing the specified temperature by changing the set temperature. By configuring in this way, when the changed set temperature is a temperature value at which the power consumption operation is lower than the specified temperature, the changed temperature value is used as a new specified temperature for energy saving control after the change. . For example, during a cooling operation in summer, when the set temperature is changed to 27 ° C. (higher than the specified temperature and requires low power consumption) during operation at the specified temperature of 25 ° C., the specified temperature is changed to 27 after that. Energy saving control is performed at ℃. As a result, when the user changes from the energy-saving operation at the specified temperature once set to the further energy-saving operation, energy-saving control corresponding to the operation after the change can be performed. Can respond to anytime. In addition, by changing the specified temperature easily in the direction of improving the energy saving property, the energy saving property can be further improved even during the energy saving operation.
[0033]
In addition, although the example of the air conditioning system which consists of two air conditioners was shown so far, the air conditioning system which consists of three or more air conditioners, or the air conditioning system which consists of only one air conditioner Needless to say, the present invention also applies.
[0034]
【The invention's effect】
Since the present invention is configured as described above, the following effects can be obtained. That is, the air conditioning system of the present invention includes means for returning to the specified temperature at which the low power consumption operation is performed after a predetermined time has elapsed since the setting change to the set temperature at which the high power consumption operation is performed. Even if the set temperature is temporarily changed to the set temperature for high power consumption operation and then forgotten to return to the specified temperature for low power consumption operation, it can be automatically returned to the specified temperature after a predetermined time. As a result, energy-saving control and running cost can be reduced. In addition, the temporary air conditioning requirements of the remote control operator and residents can be satisfied.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a schematic configuration of an air conditioning system to which the present invention is applied.
FIG. 2 is an external view of a remote controller applied to the first embodiment.
FIG. 3 shows an example of setting using a specified temperature setting switch applied to the first and third embodiments, (a) is a diagram showing a relationship between a dip switch and a specified temperature for cooling / dry operation; ) Is a diagram showing the relationship between the dip switch and the specified temperature related to the heating operation, and (c) is a diagram showing the relationship between the dip switch and the time required to return to the specified temperature.
FIG. 4 is an internal configuration diagram of a remote controller applied to the first embodiment.
FIG. 5 is a flowchart of control for returning a set temperature applied to the first, second, and third embodiments to a specified temperature after a predetermined time has elapsed.
FIG. 6 is an external view of a remote controller applied to the second embodiment.
FIG. 7 is an internal configuration diagram of a remote controller applied to the second embodiment.
FIG. 8 is a flowchart for setting a prescribed temperature applied to the second embodiment and a predetermined time for returning to the prescribed temperature.
FIG. 9 is an external view of a conventional remote controller.
FIG. 10 is an explanatory diagram showing a set temperature variable range for each operation mode pre-programmed in the conventional and the remote controller of the present invention.
[Explanation of symbols]
1a to 1d air conditioner indoor unit, 2a and 2b air conditioner outdoor unit, 3a to 3c remote control, 4 communication transmission line, 5 display unit, 6 operation input unit, 6A operation stop button, 6B operation mode switching button, 6C room temperature adjustment button, 7 specified temperature setting switch, 8 CPU, 9 memory, 10 transmission / reception circuit, 11a-11f step, 12 non-volatile memory, 13a-13l step, 14 timer.

Claims (5)

In an air conditioning system having one or more air conditioners and a remote controller for setting an operating state of the air conditioner, a set temperature that is an air conditioning target of the indoor unit of the air conditioner is When the setting is changed to a preset temperature at which the power consumption operation is higher than the preset temperature at which the low power consumption operation is set by the operation from the remote controller, the time measuring means for measuring the time from the setting change, Air conditioning, comprising: a first set temperature changing means for returning the set temperature changed to the specified temperature when a predetermined time set in advance by the time measuring means has elapsed. system. 2. The air conditioning system according to claim 1, further comprising a specified temperature-related setting unit configured to change the specified temperature and / or the predetermined time. The operation mode setting means provided in the remote controller for setting the operation mode such as the cooling mode, the dehumidification mode, the heating mode, and the setting of the indoor unit when the operation mode is changed from the operation mode setting means A second temperature is selected from the preset temperatures that are set in advance for each operation mode to be the low power consumption operation, and the set temperature is changed to the selected specified temperature. The air conditioning system according to claim 1, further comprising a set temperature changing unit. The operation stop state setting means provided in the remote controller for setting the operation state or the stop state, and the set temperature of the indoor unit when the operation state or the stop state is set from the operation stop state setting means, The specified temperature related to the set operation state or stop state is selected from the specified temperatures at which the low power consumption operation is set in advance for each of the operation state and the stop state, and the setting is changed to the selected specified temperature. The air conditioning system according to any one of claims 1 to 3, further comprising third set temperature changing means. The remote controller is a first set temperature changing means according to claim 1, a second set temperature changing means according to claim 3, a third set temperature changing means according to claim 4, or a claim 2 according to claim 2. An air-conditioning system comprising a specified temperature-related setting unit.

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