JP2001254984A - Air conditioner, air conditions system, and alteration method of variable region of target temperature - Google Patents

Abstract

PROBLEM TO BE SOLVED: To realize effective energy saving control by preventing temperature from being adjusted to an excess target temperature. SOLUTION: A remote controller 3 of an air conditioner to which a user can set temperature arbitrarily within a variable range of target temperature is provided with a memory 11 in which the variable range of target temperature is stored, a target temperature set which determination switch 8, and a CPU 10 for achieving computing such as narrowing the variable range of target temperature stored in the memory 11.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an air conditioner having a target temperature variable range in which a user can set a temperature, and performing temperature control within this range.

[0002]

2. Description of the Related Art Generally, when controlling an air conditioning system, a local remote controller (hereinafter, referred to as a remote controller) or a centralized controller is installed to operate each air conditioner. FIG. 8 shows a configuration diagram of the air conditioning system. 1a to 1d in the figure are the indoor units of the air conditioner,
a to 2b are outdoor units of an air conditioner. 15a-15c
Denotes a remote controller, and 16 denotes a centralized controller, each of which is connected by the transmission line 5. FIG. 9 is an external view of the remote controller, in which 6 is a display unit for displaying the current operation state and setting state of the air conditioner, and 7 is operation inputs such as an operation stop button, an operation mode switching button, and a room temperature adjustment button. Department.

The air conditioners 1a to 1d, 2a to 2b obtain information set by the operation input unit 7 of the remote controllers 15a to 15c as communication commands via the transmission line 5, and perform air conditioning control based on the information. When the remote controller operator wants to change the target temperature value of the room temperature, the desired temperature value can be changed by operating the room temperature control button up (△) / down (▽) in the operation input unit 7. It is.

However, a target temperature variable range in which room temperature can be adjusted is stored in the remote controller in advance, and the variable temperature range is determined according to the current operation mode (cooling, drying, heating, etc.). Although the temperature range is slightly different, the temperature range which can be usually changed is generally the range as shown in FIG. 10, and is 19 ° C to 30 ° C during cooling / drying and 17 ° C to 28 ° C during heating. .

As described above, in the conventional remote controller, a range in which the user can arbitrarily set the temperature (variable target temperature range) is stored in the remote controller in advance, and there is no means for changing the target temperature variable range. The target temperature variable range is set in a temperature range in which the capacity of the air conditioner can be sufficiently exhibited. However, in the vicinity of the upper and lower limit values of the target temperature variable range, more power is required to exhibit the required performance. Therefore, when the temperature is set by the user near the upper and lower limit values of the target temperature variable range, the power consumption is increased, and it has been difficult to perform efficient energy saving control.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and an excessive target temperature is adjusted by changing a target temperature variable range for indoor temperature adjustment according to a user's request or the like. It is intended to prevent energy consumption from being performed and to realize efficient energy saving control.

[0007]

An air conditioner according to the present invention has a target temperature variable range in which a user can set a temperature, and performs temperature control within this range. The memory includes a memory in which a temperature variable range is stored, a temperature input unit, and a changing unit that changes the target temperature variable range stored in the memory based on an input temperature by the temperature input unit.

The changing means changes the target temperature variable range stored in the memory in advance so as to narrow the range.

Further, there is provided an arithmetic means for calculating a changed target temperature variable range from an input temperature value based on the temperature input value and an upper limit value or a lower limit value of the target temperature variable range stored in the memory. is there.

Further, when the target temperature variable range corresponding to the cooling operation is changed, the calculating means sets the lower limit value of the target temperature variable range for the cooling operation to the input temperature value input by the temperature input means. In the case of changing the target temperature variable range corresponding to the heating operation, the upper limit value of the target temperature variable range for the heating operation is decreased by the input temperature value input by the temperature input means.

The air conditioning system according to the present invention has a target temperature variable range in which a user can set a temperature, a plurality of air conditioners for controlling the temperature within this range, and the plurality of air conditioners. An air conditioning system having a plurality of controllers provided corresponding to the air conditioner and used for controlling the operation of the corresponding air conditioner, a memory in which the target temperature variable range is stored, temperature input means, A change unit that changes the target temperature variable range stored in the memory based on the input temperature by the input unit, and a notifying unit that notifies the controller of the target temperature variable range changed by the change unit. is there.

Further, the memory, the temperature input means, the changing means and the notifying means are provided in a remote controller, and the notifying means notifies another controller of the changed target temperature variable range.

Further, the memory, the temperature input means,
The change means and the notification means are provided in a centralized controller for centrally managing the plurality of air conditioners, and the communication means notifies another controller of the changed target temperature variable range.

The method for changing the target temperature variable range according to the present invention is a method for changing the target temperature variable range stored in the air conditioner as a range that can be arbitrarily set by a user,
A mode switching step of switching to a target temperature variable range setting mode when a predetermined button on a remote controller of the air conditioner is pressed, and after the mode switching step, whether to change the target temperature variable range during cooling operation or heating operation. A selecting step of selecting whether to change the target temperature variable range at the time, a changing temperature input step of inputting a changing temperature of the target temperature variable range after the selecting step, and a change input by the changing temperature input step. A changing step of changing the target temperature variable range based on the temperature; a storing step of storing the target temperature variable range changed by the changing step; and a target temperature variable range when the predetermined button is pressed. End step of ending the setting mode.

[0015]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiment 1 FIG. 1 is a block diagram showing a configuration of the air conditioning system of the present embodiment. In the figure, 1a to 1d are indoor units of the air conditioner, and 2a to 2b are outdoor units of the air conditioner. Each of the indoor units 1a to 1d has a remote controller 3a to 3d as necessary.
c is connected. Also, a centralized controller 4 for controlling and managing all of the outdoor units 2a to 2b, the indoor units 1a to 1d, and the remote controllers 3a to 3c is connected. The respective devices are connected by a communication transmission line 5, and the operation control of the air conditioner is realized by exchanging communication between the respective devices.

In the air conditioning system configured as described above, the remote controller 3a is used for controlling the operation of the indoor units 1a and 1b, and the remote controller 3b is used for controlling the operation of the indoor unit 1c.
The remote controller 3c is used for operation control of the indoor unit 1d.

FIG. 2 shows remote controllers 3a to 3c of the present embodiment.
FIG. 7 is a diagram showing an upper cover (not shown) covering the remote controller.
It is an external view in the state where it took. In the figure, reference numeral 6 denotes a display unit for displaying a current operation state, a setting state, and the like of the air conditioner. Reference numeral 7 denotes an operation input unit for operating an operation stop button, an operation mode switching button, a room temperature adjustment button, and the like. 8 is
It is a target temperature setting width determination switch provided exclusively for room temperature adjustment. In this embodiment, the target temperature setting width determination switch 8 is provided independently of other operation switches.

The target temperature setting width determination switch 8 is exposed to the surface by removing an upper cover that covers the remote controller, and has a structure that cannot be touched unless the upper cover is removed. Further, the target temperature setting width determination switch 8 is constituted by a four-pole dip switch, and only one to three-pole switches of the dip switch are valid. The setting contents represent a binary temperature value, and are 0 ° C. to 7 ° C. You can set the value. The fourth pole is a spare switch, and the input is invalid.

FIG. 3 is a flowchart for determining the target temperature variable range based on the input temperature value set by the target temperature setting width determination switch 8.

As shown in FIG. 10 of the conventional example, a range in which the room temperature can be adjusted is stored in the memory in advance in the remote controller, and a target range (target temperature variable range) that can be changed according to the current operation mode is determined. ing. Then, the air conditioner performs temperature control within this range. Although the temperature range is slightly different, the temperature range which can be usually changed is generally the range shown in FIG. 10, and is 19 ° C. to 30 ° C. during cooling / drying.
° C and 17 ° C to 28 ° C during heating. This range will be described below as a range (target temperature variable range) that can be changed in each operation mode (cooling / dry operation mode, heating operation mode).

The energy saving control can be realized by increasing the lower limit of the target temperature variable range during the cooling / dry operation, and decreasing the upper limit of the target temperature variable range during the heating operation. Becomes Accordingly, energy saving control can be performed by performing the flow operation of FIG.
The flow will be described. First, the state of the input temperature value N of the target temperature setting width determination switch 8 is read in the state of step 9a, and the processing is divided when the set value is “0 ° C.” or other.

If the input temperature value N is "0.degree. C.", the flow shifts to step 9b to set the target temperature variable range to the temperature width stored in the memory at the time of shipment. That is, the remote controllers 3a to 3c
Is displayed at 19 ° C. to 30 ° C. during the cooling / dry operation.
During the heating operation, the temperature is displayed in a variable range of 17 ° C to 28 ° C. The user can arbitrarily set the temperature within this range.

In the case of "other than 0 ° C.", the process proceeds to step 9c to determine whether the current operation mode is the cooling / dry operation. If the air conditioner is in the cooling / drying operation, the process shifts to step 9d, where the lowest temperature during cooling / drying is 19 ° C.
The input temperature value (N ° C) of the target temperature setting width determination switch 8
Add a minute. Therefore, in this case, (19 + N) ° C.
The desired target temperature can be set within the range of up to 30 ° C. by using the up / down buttons of the room temperature control button of the operation input unit 7. That is, the display unit 6 of the remote controllers 3a to 3c displays (19 + N) ° C. to 30 during cooling / dry operation.
The temperature is displayed in the variable range of ° C.

If the cooling / dry operation is not being performed, the process proceeds to step 9e to determine whether the heating is being performed. If not during heating, the process returns to the start of the flow. If it is during heating, the process proceeds to step 9f, and the input temperature value (N ° C.) of the target temperature setting width determination switch 8 is subtracted from 28 ° C. which is the maximum value during heating. Therefore, in this case, 17
The desired target temperature can be set within the range of ° C. to (28-N) ° C. by using the up / down buttons of the room temperature adjusting button of the operation input unit 7. That is, the remote controllers 3a to
The display 6 of 3c indicates that the temperature is 17 ° C. to (28−
N) The temperature is displayed in the variable range of ° C.

By the above processing, the target temperature variable range is narrowed in the direction of increasing the lower limit value of the target temperature variable range during the cooling / dry operation, and in the direction of decreasing the upper limit value of the target temperature variable range in the heating operation. Therefore, it is possible to prevent the user from setting an excessive target temperature value by the remote control user, and it is possible to perform energy saving control and reduce running costs.

Further, since the target temperature setting width determination switch 8 is configured so as not to be changed without removing the upper case, the target temperature variable width can be prevented from being changed easily due to mischief or the like. is there.

In the above embodiment, the target temperature setting width determination switch 8 is a four-pole dip switch.
Dip switches other than four poles, decimal rotary switches, or other switches may be used as long as they can set a variable input value.

Each of the remote controllers 3a to 3c is provided with a target temperature setting width determination switch 8, and each air conditioner can have a different target temperature variable range based on each input temperature value N.

Further, in the above embodiment, the set value of the target temperature setting width determination switch 8 can be set to a value between 0 ° C. and 7 ° C. However, a value larger than this can be set.

Next, FIG. 4 shows a remote controller 3a according to this embodiment.
3A to 3C show internal configuration diagrams. As shown in FIG. 2, reference numerals 6, 7, and 8 denote a display unit, an operation input unit, and a target temperature setting width determination switch, respectively. The content set by the target temperature setting width determination switch 8 is sent to the CPU 10 and
The PU 10 performs the flow processing of FIG. 3 based on the contents and determines the target temperature variable width. The remote controller shown in FIG. 4 outputs the determination result of the target temperature variable width to the memory 11 which is a storage element, converts the result into a communication command, and transmits the communication command to the other remote controllers 3 a to 3 c and the centralized controller via the transmission / reception circuit 12. 4 is provided.

The other remote controllers 3a to 3c and the centralized controller 4 discard the target temperature variable width information already held, change the target temperature variable width information newly received by communication to the latest information, and change the memory. 11 is stored. By providing a means for transmitting information in the communication control as described above, if the target temperature variable range information is set by one remote control, the information can be transmitted to another remote control or the centralized controller 4, and the This eliminates the need to change the setting of the target temperature setting width determination switch 8. Further, even if the target temperature setting width determination switch 8 is provided in only one of the remote controllers 3a to 3c, the target temperature variable range of all the air conditioners can be changed.

The CPU 10 in this embodiment executes the processing flow shown in FIG.
Has a function of changing means for changing the target temperature variable range stored in the memory. Further, the CPU 10 operates as a calculating means for calculating the changed target temperature variable range from the input temperature value by the target temperature setting width determination switch 8 and the upper limit value or the lower limit value of the target temperature variable range stored in the memory 11. It also has functions. The transmission / reception circuit 12 is an example of a notification unit that notifies another remote controller or the like of the changed target temperature variable range. In this embodiment, the remote controller 3 and the centralized controller 4 are described separately, but each is an example of the controller.

In this embodiment, the CPU 10 and the transmission / reception circuit 12 notify the changed target temperature variable range. The target temperature variable range after the change may be calculated on the receiving side based on the temperature value.

Embodiment 2 In the first embodiment, the case where the target temperature setting width determination switch 8 is provided exclusively for the remote controller 3 has been described. However, an example will be described in which the same operation is performed without providing the target temperature setting width determination switch 8 exclusively.

FIG. 5 is an external view of the remote controller 3 used in the second embodiment. The difference from FIG. 2 is that the target temperature setting width determination switch 8 is not mounted as a dedicated switch. FIG. 6 shows an internal configuration diagram of the remote controller 3.
The configuration differs from that of FIG. 4 only in that the target temperature setting width determination switch 8 is not mounted as a dedicated switch and that the memory is a nonvolatile memory 13.

Next, the procedure for setting the target temperature variable width when using the remote controller 3 will be described with reference to the flow chart of FIG. First, while the remote controller 3 is powered on and the CPU 10 is operating, it is determined whether or not both specific buttons in the operation input unit 7, for example, both the room temperature adjustment up / down buttons, are simultaneously pressed for a certain period of time. If detected, the process proceeds to the target temperature variable width setting mode (steps 14a and 14b).

The remote controller 3 prompts the user to select an operation mode using the operation mode switching button. For example, switching display of “cooling / dry” and “heating” is performed on the display unit 6 of the remote controller, and the user is allowed to select which operation mode to set the target temperature variable range. In response to this, the user operates the operation mode switching button to select “cooling / dry” and “heating”.
Is selected (step 14c).

If the user selects "cooling / drying" and "cooling / drying" is displayed on the display section 6, the process proceeds to step 14d, where the user selects "heating".
When "heating" is displayed on the display unit 6, the process proceeds to step 14e.

In the processing of step 14d, the minimum value of 1 which is the minimum value in the cooling / dry operation programmed in advance is set to 1
9 ° C. is displayed (however, if the lower limit has already been changed, the latest lower limit during cooling / drying stored in the nonvolatile memory is displayed). In the process of step 14e, a maximum temperature of 28 ° C., which is the maximum value during the heating operation, which is programmed in advance, is displayed. (However, if the upper limit value has already been changed, the latest maximum value at the time of heating stored in the nonvolatile memory is displayed).

Next, the process proceeds to steps 14f and 14g, and displays on the display unit 6 of the remote controller 3 that the room temperature adjustment up or down button should be input in order to change the target temperature variable range. If there is an input of the room temperature adjustment up or down button, the latest minimum value at the time of cooling / drying currently displayed or the latest maximum value at the time of heating is increased or decreased to a desired temperature value. This process is performed until it becomes. However, the desired temperature value that can be varied is 19 ° C. to 30 ° C. for cooling / drying which is programmed in advance and 1 for heating.
Within the range of 7 ° C to 28 ° C.

Thereafter, in order to terminate the process when the desired lower limit value for cooling / drying or the upper limit value for heating is reached, both the room temperature adjustment up / down buttons in the operation input unit 7 are again pressed. At the same time, press for a certain period of time. With this processing, the target temperature variable width setting mode is canceled (steps 14h to 14i). After this, the normal operation becomes possible, but after step 14i, the lowest value in cooling / drying time finally set in steps 14f and 14g, and
The maximum value during heating is stored in the nonvolatile memory (step 14j). The target temperature in each operation mode can be changed based on the lower limit value during cooling / drying and the upper limit value during heating stored in the nonvolatile memory 13.

If another mode is selected by the operation mode switching button in step 14h, a target temperature variable range for the selected mode (cooling / drying or heating) is set (steps 14d to 14f or step 14d). 14e-14g).

By performing the above-described flow operation, the target temperature variable range is increased in the direction of increasing the lower limit value of the target temperature variable range during cooling / drying, and conversely, in the direction of decreasing the upper limit value of the target temperature variable range during heating. By reducing the width, it becomes impossible to set an excessive target temperature value as in the first embodiment, thereby realizing energy saving control.

Also, as in the first embodiment and FIG. 4, if the remote controller 3 is provided with means for transmitting information by communication control, the target temperature variable range information can be set by one remote controller. Thus, information can be transmitted to another remote controller or centralized controller. As in the first embodiment, there is an effect of eliminating the trouble of performing the target temperature variable width setting as the flow operation of FIG. 7 for each device.

In this embodiment, the operation input unit 7
When a certain button in the above, for example, both the room temperature adjustment up / down button is simultaneously pressed for a certain period of time, the mode shifts to the target temperature variable width setting mode (step 14a,
14b), the mode may be shifted to the target temperature variable width setting mode when other buttons are pressed for a fixed time or a plurality of buttons are pressed simultaneously.

The CPU 10 in this embodiment implements the processing flow shown in FIG. 7 and has a function of a changing means for changing the target temperature variable range stored in the nonvolatile memory 13. Further, the CPU 10 also has a function as a calculating means for calculating the changed target temperature variable range from the input value by the room temperature adjustment button and the upper limit value or the lower limit value of the target temperature variable range stored in the memory 11. The transmission / reception circuit 12 is an example of a notification unit that notifies another remote controller or the like of the changed target temperature variable range.

Embodiment 3 In the first and second embodiments, the target temperature variable range is changed using the remote controller.
When the same setting means and communication means are provided in the centralized controller 4, the same can be realized as described above, and the same effects can be obtained.

[0048]

Since the present invention is configured as described above, it has the following effects. The air conditioner according to the present invention has a target temperature variable range that is a range in which a user can set a temperature, and an air conditioner that performs temperature adjustment within this range. , A temperature input means, and a change means for changing the target temperature variable range stored in the memory based on the input temperature by the temperature input means. By changing the target temperature variable range, it is possible to prevent an excessive target temperature from being set.

Further, the changing means changes the target temperature variable range stored in the memory so as to narrow the target temperature variable range. Therefore, it is possible to prevent the air conditioner from operating under excessive conditions, and it is efficient. Energy saving control can be realized.

Further, there is provided arithmetic means for calculating the changed target temperature variable range from the temperature input by the temperature input means and the upper limit or lower limit of the target temperature variable range stored in the memory. The user only needs to input the increase / decrease value.

Further, when the target temperature variable range corresponding to the cooling operation is changed, the calculating means sets the lower limit value of the target temperature variable range for the cooling operation to the input temperature value input by the temperature input means. In the case of changing the target temperature variable range corresponding to the heating operation, the upper limit value of the target temperature variable range for the heating operation is decreased by the input temperature value input by the temperature input means. Energy saving control can be performed efficiently by avoiding a range that places a heavy burden on the machine.

The air conditioning system according to the present invention has a target temperature variable range in which a user can set a temperature, a plurality of air conditioners for controlling the temperature within this range, and the plurality of air conditioners. An air conditioning system having a plurality of controllers provided corresponding to the air conditioner and used for controlling the operation of the corresponding air conditioner, a memory in which the target temperature variable range is stored, temperature input means, Based on the input temperature by the input unit, a change unit that changes the target temperature variable range stored in the memory, and a notification unit that notifies the controller of the target temperature variable range changed by the change unit, It is not necessary to change the target temperature variable range for each air conditioner.

The memory, the temperature input means, the changing means, and the notifying means are provided in a remote controller, and the notifying means notifies another controller of the changed target temperature variable range. By providing the change means and the like in one remote controller, the target temperature variable range can be changed for a plurality of air conditioners constituting the air conditioning system.

Further, the memory, the temperature input means,
The change unit and the notification unit are provided in a centralized controller that centrally manages the plurality of air conditioners, and the communication unit notifies another controller of the changed target temperature variable range. By providing a change means or the like, the target temperature variable range can be changed for a plurality of air conditioners constituting the air conditioning system.

The method of changing the target temperature variable range according to the present invention is a method of changing the target temperature variable range stored in the air conditioner as a range that can be arbitrarily set by a user.
A mode switching step of switching to a target temperature variable range setting mode when a predetermined button on a remote controller of the air conditioner is pressed, and after the mode switching step, whether to change the target temperature variable range during cooling operation or heating operation. A selecting step of selecting whether to change the target temperature variable range at the time, a changing temperature input step of inputting a changing temperature of the target temperature variable range after the selecting step, and a change input by the changing temperature input step. A changing step of changing the target temperature variable range based on the temperature; a storing step of storing the target temperature variable range changed by the changing step; and a target temperature variable range when the predetermined button is pressed. Changing the target temperature variable range for room temperature adjustment to have an end step of ending the setting mode. It can be prevented from being adjusted to excessively target temperature.

[Brief description of the drawings]

FIG. 1 is a block diagram of an air conditioning system according to Embodiment 1.

FIG. 2 is an external view of a remote controller applied to the first embodiment.

FIG. 3 is a flowchart showing a processing procedure for setting a target temperature variable range in the first embodiment.

FIG. 4 is an internal configuration diagram of a remote controller applied to the first embodiment.

FIG. 5 is an external view of a remote controller applied to the second embodiment.

FIG. 6 is an internal configuration diagram of a remote controller applied to the second embodiment.

FIG. 7 is a flowchart showing a processing procedure for setting a target temperature variable range in the second embodiment.

FIG. 8 is a block diagram of a conventional air conditioning system.

FIG. 9 is an external view of a conventional remote controller.

FIG. 10 is a diagram showing a target temperature variable range pre-programmed in the remote controller according to the related art and the present invention.

[Explanation of symbols]

1a-1d Air conditioner indoor unit, 2a-2b Air conditioner outdoor unit, 3a-3c remote control, 4 centralized controller, 5 transmission line, 6 remote control display unit, 7 remote control operation input unit, 8 target temperature setting Width determination switch,
9a-9f Each part of the target temperature variable range determination flow,
10 Remote control CPU, 11 Remote control memory, 1
2 Remote control transmission / reception circuit, 13 Remote control non-volatile memory, 14a to 14j Each part of the flow for setting the target temperature variable range.

Claims (8)

[Claims] 1. An air conditioner having a target temperature variable range in which a user can set a temperature, and performing temperature adjustment within this range, a memory storing the target temperature variable range, and a temperature input. An air conditioner comprising: means for changing the target temperature variable range stored in the memory based on the temperature input by the temperature input means. 2. The air conditioner according to claim 1, wherein the change unit changes the target temperature variable range stored in the memory in advance so as to narrow the range. 3. An arithmetic unit for calculating a changed target temperature variable range from an input temperature value by the temperature input unit and an upper limit value or a lower limit value of the target temperature variable range stored in the memory. 2. The air conditioner according to 1. 4. When the target temperature variable range corresponding to the cooling operation is changed, the calculating means sets the lower limit value of the target temperature variable range for the cooling operation by the input temperature value input by the temperature input means. In the case of changing the target temperature variable range corresponding to the heating operation, the upper limit value of the target temperature variable range for the heating operation is decreased by the input temperature value input by the temperature input means. The air conditioner according to claim 3. 5. A plurality of air conditioners having a target temperature variable range in which a temperature can be set by a user and controlling the temperature within this range, and a plurality of air conditioners provided corresponding to the plurality of air conditioners. In the air conditioning system having a plurality of controllers used for controlling the operation of the corresponding air conditioner, a memory in which the target temperature variable range is stored; a temperature input unit; and an input temperature by the temperature input unit. An air conditioning system, comprising: changing means for changing the target temperature variable range stored in the memory, and notifying means for notifying the controller of the target temperature variable range changed by the changing means. . 6. A remote controller comprising the memory, the temperature input means, the changing means, and the notifying means, wherein the notifying means notifies another controller of the changed target temperature variable range. The air conditioning system according to claim 5, wherein 7. The memory, the temperature input unit, the change unit, and the notification unit are provided in a centralized controller that centrally manages the plurality of air conditioners, and the communication unit is configured to perform the change with respect to another controller. The air conditioning system according to claim 5, wherein the notified target temperature variable range is notified. 8. A method for changing a target temperature variable range stored in an air conditioner as a range that can be arbitrarily set by a user, the target temperature being set when a predetermined button on a remote controller of the air conditioner is pressed. A mode switching step of switching to the variable range setting mode, and after the mode switching step, a selection step of selecting whether to change the target temperature variable range during the cooling operation or the target temperature variable range during the heating operation, After the selection step, a change temperature input step of inputting a change temperature of the target temperature variable range, and a change step of changing the target temperature variable range based on the change temperature input in the change temperature input step. A storing step of storing the target temperature variable range changed by the changing step; and a storing step when the predetermined button is pressed. Target temperature variable range method changes and having a termination step of terminating the temperature variable range setting mode.