JP2004162961A - Air conditioner - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an air conditioner capable of setting a timer in accordance with user's life style. <P>SOLUTION: This air conditioner is operated under a changed operating condition D, when the operating condition is changed from B to D after the switch-on timer set time tb1 of a second timer has passed from the setting of the timer. But the air conditioner is operated under the operating condition B by reading out the operating condition B before the change, at the next switching-on timer set time tb1 of the second timer. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an air conditioner such as an air purifier, an air conditioner, an electric heater or a combustor, and particularly to an air conditioner capable of setting a timer.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, an air conditioner that adjusts room temperature and cleans air is provided with a timer setting function that previously sets ON / OFF times. By providing such a timer setting function, for example, by setting the time at which the user turns on with the timer setting function, the room temperature can be appropriately adjusted to a desired time, or the indoor air can be sufficiently purified. can do. Also, for example, by setting the time at which the user turns off at bedtime or the like with the timer setting function, the indoor state can be kept comfortable until a certain time has elapsed after going to bed.
[0003]
Further, as a prior art, an air conditioner provided with a 24-hour real timer that is turned on / off at the same time every day and a designated time timer that is turned off after a certain time has elapsed is provided (Patent Document 1). Further, as a conventional technique, an on-timer setting unit for setting an on-timer set time for turning on the air conditioner is provided, and an operation start time is set earlier than the on-timer set time to set the room temperature to the target temperature at the on-timer set time. There is provided an air conditioner (Japanese Patent Application Laid-Open No. H11-163873). Further, as a conventional technique, a remote controller having a timer reservation function for turning on / off an air conditioner main body has been provided (Patent Document 3).
[0004]
[Patent Document 1]
JP-A-2002-106908
[Patent Document 2]
JP-A-10-61995
[Patent Document 3]
JP-A-10-281538
[0005]
[Problems to be solved by the invention]
However, in the conventional air conditioner, only the time at which the operation is turned ON / OFF is set, as in Patent Literature 1 and Patent Literature 3, and the operation state is not set. Further, in Patent Literature 2, although a target room temperature at a predetermined time is set, the operation state is not set every time. Therefore, the conventional air conditioner does not set a timer that can flexibly respond to the living condition of the user. Further, in the conventional air conditioner, when the operation state is changed by the user after being turned on according to the timer setting, the changed operation state is stored, and when the operation state is turned on next time according to the timer setting, Operate based on the changed operation state.
[0006]
In view of such a problem, an object of the present invention is to provide an air conditioner capable of setting a timer according to a user's living condition.
[0007]
[Means for Solving the Problems]
In order to achieve the above object, an air conditioner of the present invention is an air conditioner having a timer setting function, wherein a plurality of operation times or times and operating conditions at the operation time or time are set by the timer setting function. An operation setting unit to be set, a storage unit that stores the operation time or time set by the operation setting unit and the operation condition, and a change prevention unit that prevents the operation condition from being changed by the timer setting function. It is characterized by.
[0008]
Further, the air conditioner of the present invention is an air conditioner having a timer setting function, wherein, by the timer setting function, a plurality of operation times or times and an operation setting section for setting operation conditions at the operation times or times. A storage unit that stores the operation time or time set by the operation setting unit and the operation condition; and a selection unit that selects the operation condition stored in the storage unit.
[0009]
Further, the air conditioner of the present invention is an air conditioner having a timer setting function, wherein a plurality of operation times and operation conditions at each operation time are set and recorded by the timer setting function, and are set. In the operation time, when the operation condition set together with the operation time is changed, the changed operation condition is not recorded, but recorded as it is.
[0010]
According to this configuration, a plurality of operation times are set by determining the on-timer set time and the off-timer set time, and operation conditions such as operation parameters and operation states are set for each operation time. Then, when the set operating time is reached and the air conditioner is operating under the set operating conditions and the operating conditions are changed by the user, the operation is performed under the changed operating conditions. At this time, the operating condition before the change is not recorded, but the operating condition before the change is kept recorded. Thereafter, when the same operation time set next time is reached, the same operation condition that has been set is read out and the air conditioner operates.
[0011]
Further, the air conditioner of the present invention is an air conditioner having a timer setting function, wherein a plurality of operation times and operation conditions at each operation time are set and recorded by the timer setting function, and are set. In the operating time, when the operating condition set together with the operating time is changed, the operating condition to be recorded next time for use in the operating time is selected from the operating condition before the change or the operating condition after the change. It is characterized by that.
[0012]
According to this configuration, the set operation time is reached, and when the air conditioner is operating under the set operation conditions and the operation conditions are changed by the user, the operation is performed under the changed operation conditions. At this time, either the changed operating condition or the changed operating condition is selected and recorded as the operating condition for that operating time. Thereafter, when the same operation time set next time is reached, the selected and recorded operation condition is read out, and the air conditioner operates.
[0013]
Further, in such an air conditioner, a plurality of combinations of the plurality of operation times and the operation conditions set in one day are recorded as a set timer pattern. That is, by setting a plurality of operating conditions for each operating time, a combination configured as an operating pattern for one day is recorded as a set timer pattern. By setting a plurality of set timer patterns, a set timer pattern corresponding to the season can be used.
[0014]
Further, in such an air conditioning apparatus, there is provided a notifying unit for notifying the order of the operation time set when setting the operation time and the operation condition. A speaker may be provided as the notification unit, and the number or frequency of the buzzer sound may be switched and notified in each set order. Further, a display unit such as an LED may be provided as the notification unit, and the display may be switched for each set order and the notification may be performed.
[0015]
In such an air conditioner, the set operation times may not overlap. At this time, when the n-th operation time is set, the start time of the n-th operation time is set after the end time of the (n-1) -th operation time, and the end time of the n-th operation time is set. May be set from the start time of the n-th operation time or later.
[0016]
Further, the air conditioning apparatus of the present invention is an air conditioning apparatus provided with a plurality of ion generators, wherein each of the plurality of ion generators is installed in parallel, and the plurality of ion generators are generated according to the amount of ions to be generated. The operation state of each device is set.
[0017]
In such an air conditioner, when not operating all of the ion generators, an ion generator having a longer life may be operated. Further, the operation state of each ion generator may be changed based on the air volume or the degree of air pollution.
[0018]
BEST MODE FOR CARRYING OUT THE INVENTION
<First embodiment>
A first embodiment of the present invention will be described with reference to the drawings. FIG. 1 is a block diagram showing the internal configuration of the air conditioner of the present embodiment.
[0019]
The air conditioner shown in FIG. 1 includes an input unit 1 such as a button or a key, a display unit 2 such as a display or an LED, a speaker 3, a timer 4 for outputting time information by a counting operation such as a counter, and a timer. Memory 5 for recording timer setting information, such as temperature sensor, humidity sensor, dust sensor, etc., driving unit 7 such as fan, electric heater, ion generator, compressor, etc. And a control unit 8 for controlling the
[0020]
The input unit 1 of the air conditioner includes buttons and keys for setting various parameters such as temperature, air flow, wind direction, and generated ion amount, and switching between various operating states according to cooling / heating and the amount of sterilization. Provided. The display unit 2 displays various parameters, various operation states, time, ON / OFF of timer setting, and the like. In addition, the speaker 3 notifies the user of each step in the timer setting, a crisis state, and the like. Further, the current time is obtained by counting by a counter or the like in the timer 4.
[0021]
In addition, the set time, operation state, parameters, and the like set by the timer by operating the input unit 1 are stored in the memory 5. In the sensor section 6, room temperature is measured by a temperature sensor, indoor humidity is measured by a humidity sensor, and dirt of indoor air is measured by a dust sensor or an odor sensor. In the driving unit 7, cool air, warm air and positive / negative ions are blown into the room by a fan, air is heated by an electric heater, ions are generated by an ion generator, and refrigerant gas is compressed by a compressor.
[0022]
The timer setting operation in such an air adjustment device will be described with reference to the flowchart of FIG. In this timer setting operation, it is possible to set for a plurality of time zones (corresponding to the operation time or operation time set by the timer setting function in [Claims]). The state is called an n-th timer. In the following, it is assumed that it is possible to set up to the k-th timer. The start time of the operation state set in the n-th timer is set as the ON timer set time, and the end time is set as the OFF timer set time. First, when the input unit 1 is operated to input a timer setting operation, the control unit 8 recognizes that the timer setting operation is performed. Initialized as 1 (STEP 1).
[0023]
Then, a display and a sound for notifying the setting operation of the n-th timer are output from the display unit 2 and the speaker 3, respectively (STEP 2). At this time, for example, the LED of the display unit 2 may be blinked n times, the LED of the display unit 2 at the position indicating the n-th timer may be turned on, or the n-th timer may be used. This may be displayed on the display of the display unit 2, the buzzer sound may be emitted n times by the speaker 3, or a buzzer sound of a frequency representing the n-th timer may be output by the speaker 3. You may do it.
[0024]
Thereafter, the ON timer setting time is displayed on the display of the display unit 2 so as to set the ON timer setting time for turning ON (STEP 3). The display operation of the input timer set time will be described with reference to the flowchart of FIG. First, it is confirmed whether or not the setting is the setting of the first timer (STEP 31). At this time, if it is the setting of the first timer (Yes), it is checked whether or not the ON timer set time of the first timer is recorded in the memory 5 (STEP 32). At this time, when the ON timer set time of the first timer is not recorded in the memory 5 (No), the current time by the timer 4 is given to the display unit 2 by the control unit 8 (STEP 35).
[0025]
If the first timer is not set in STEP 31 (No), the off timer set time set in the setting of the (n-1) th timer is read from the memory 5 and given to the display unit 2 by the control unit 8 (STEP 34). ). If the ON timer set time of the first timer is recorded in the memory 5 in STEP 32 (Yes), the ON timer set time of the first timer recorded in the memory 5 is read out, and the control unit 8 Is given to the display unit 2 (STEP 33). When the time from the timer 4 or the memory 5 is given to the display unit 2 in STEP33 to STEP35, the ON timer set time is blinked on the display of the display unit 2 (STEP36).
[0026]
When the on-timer set time is displayed on the display unit 2 in this way, the input unit 1 is operated to change the on-timer set time displayed on the display unit 2, and then the user-desired time is displayed. By determining the time, the ON timer set time is set, and the display of the ON timer set time on the display unit 2 stops blinking (STEP 4). Then, the operating condition (the operating condition is a condition including the above-described parameters and the operating state) blinks on the display of the display unit 2 (STEP 5). The operation of displaying the operating conditions will be described with reference to the flowchart of FIG.
[0027]
First, it is confirmed whether or not the setting is the first timer (STEP 51). At this time, if it is the setting of the first timer (Yes), it is confirmed whether or not the operating condition of the first timer is recorded in the memory 5 (STEP 52). At this time, when the operation condition of the first timer is not recorded in the memory 5 (No), the current operation state and the parameters recorded in the memory 5 are read out, and the control unit 8 displays the current operation state and the parameter on the display unit 2. Is given (STEP 55).
[0028]
If the first timer is not set in STEP 51 (No), the operating conditions set by the setting of the (n-1) th timer are read from the memory 5 and given to the display unit 2 by the control unit 8 (STEP 54). When the operation conditions of the first timer are recorded in the memory 5 in STEP 52 (Yes), the operation conditions of the first timer recorded in the memory 5 are read out, and the display unit 2 is displayed by the control unit 8. (STEP 53). When the operating conditions are given to the display unit 2 from the memory 5 in STEP53 to STEP55, the operating conditions are blinked on the display of the display unit 2 (STEP56).
[0029]
When the operating conditions are displayed on the display unit 2 in this manner, the input unit 1 is operated to change the operating conditions displayed on the display unit 2 and then determine when the user's desired condition is displayed. The operating condition is set in the step 2, and the blinking of the display of the operating condition on the display unit 2 stops (STEP 6). Then, the ON timer set time set in STEP 4 is given to the display unit 2 from the control unit 8, and is blinked on the display of the display unit 2 as the OFF timer set time (STEP 7).
[0030]
When the cut-off timer set time is displayed on the display unit 2 in this way, the input unit 1 is operated to change the cut-off timer set time displayed on the display unit 2, and then the user's desired time is displayed. By deciding the time, the operating condition is set, and the display of the operating condition on the display unit 2 stops blinking (STEP 8).
[0031]
When the ON timer setting time, the operating condition, and the OFF timer setting time are set in STEP4, STEP6, and STEP8, the set ON timer setting time, the operating condition, and the OFF timer setting time are given to the memory 5 by the control unit 8. And stored in the memory 5 (STEP 9). After that, the control unit 8 checks whether or not to end the timer setting operation (STEP 10). Confirmation of the end of the timer setting operation is determined by whether or not a button for terminating the operation is pressed on the input unit 1 or whether or not a button for requesting the next timer time setting is pressed.
[0032]
Then, when it is confirmed that the timer setting operation is continued (No), 1 is added to n in order to set the next (n + 1) th timer (STEP 11). The value n thus added by one is compared with the predetermined value k, and it is confirmed whether or not n> k (STEP 12). At this time, when n ≦ k (No), the process proceeds to STEP2, and the above-described operations after STEP2 are performed, and the (n + 1) th timer is set. Further, when the termination is confirmed in STEP 10 (Yes), and when it is confirmed in Step 12 that n> k (Yes), the timer setting operation is terminated.
[0033]
In the above-described timer setting operation, when the operating condition is blinked and displayed, even if n is other than 1, the current operating condition may be given to the display unit 2 from the control unit 8 or may be input. When blinking the timer set time, even if n is other than 1, the previously set ON timer set time and operating conditions are read from the memory 5 and given to the display unit 2 by the control unit 8. It does not matter. Further, when the ON timer setting time is blinkingly displayed, even if n is other than 1, the OFF timer setting time of the (n-1) th timer and the ON timer setting time set last time can be selected. Alternatively, when the operating conditions are displayed in a blinking manner, the present operating conditions and the previous operating conditions may be selected.
[0034]
When the timer is set in this manner, the air conditioner is operated for each time period set under the respective operating conditions set in the timer 5 and stored in the memory 5 (this operation is hereinafter referred to as “timer reservation”). Therefore, the user operates a button or a key of the input unit 1 for setting to perform a timer reservation operation. When the timer reservation operation is set as described above, the current time given by the timer 4 and the input time stored in the memory 5 are set so as to operate under the operating conditions of each time zone stored in the memory 5. The control unit 8 compares the timer set time and the off timer set time.
[0035]
That is, the current time is compared with the on-timer set time of the n-th timer, and when the current time matches the on-timer set time, the drive unit 7 is controlled so as to operate under the operating conditions of the n-th timer. Then, the current time is compared with the cut-off timer set time of the n-th timer, and when the current time matches the cut-off timer set time, the operation of the drive unit 7 is stopped. Thereafter, the controller 8 compares the set time of the on-timer of the (n + 1) th timer with the current time, and the same operation is repeated. When the n-th timer is the last, the control unit 8 compares the set time of the first timer with the current time again.
[0036]
When the timer reservation operation is performed in this manner, if the set time of the on-timer of the n-th timer coincides with the current time, the operation is performed under the operating conditions of the n-th timer. At this time, when the user operates the input unit 1 to change the operating state and the parameters, and the operating conditions are changed, the operation of the driving unit 7 is controlled according to the changed operating conditions. After the air conditioner operates in accordance with the changed operating condition, when the set time of the n-th timer expires and the current time match, the operation of the air conditioner ends. At this time, the operating condition after this change is not recorded in the memory 5, and the operating condition set in the n-th timer when the timer is set remains recorded. Note that the changed operating conditions may be stored in the memory 5 as operating conditions when the timer reservation operation is not performed (during normal operation).
[0037]
As described above, when the driving condition is switched during the driving period set by the n-th timer and the driving operation is completed, the driving condition of the driving period after the (n + 1) -th timer is performed according to the setting. When the operation conditions in all the operation periods set by the timer are performed, and the operation periods set in order from the first timer are confirmed again, the air conditioner operates according to the operation conditions set in each. . At this time, when it is confirmed that the ON timer set time of the n-th timer has come, since the changed operating condition previously changed by the user is not recorded in the memory 5, it is recorded in the memory 5. The air conditioner operates according to the operating conditions at the time when the timer is set (i.e., the operating conditions before the last change by the user).
[0038]
FIG. 5 shows an example of the operation of the air conditioner when a timer reservation operation is performed. Note that the operation example in FIG. 5 is an operation example for two days, and it is assumed that timer settings are made for the first to third timers. In the first timer, the on-timer set time ta1, the operating condition A, and the off-timer set time ta2 are used. In the second timer, the on-timer set time tb1, the operating condition B, and the off-timer set time tb2 are used. , The on-timer set time tb2, the operating condition C, and the off-timer set time tc2 are set.
[0039]
At this time, as shown in FIG. 5A, first, when it is confirmed that the current time coincides with the on-timer set time ta1, it is recognized that the operation of the first timer is performed, and the operation condition A is changed. The drive unit 7 is read from the memory 5 and controlled to operate under the operation condition A. Then, when it is confirmed that the current time coincides with the off timer set time ta2, the air conditioner stops operating. Thereafter, when it is confirmed that the current time coincides with the on-timer set time tb1, it is recognized that the operation of the second timer is performed, and the operation condition B is read from the memory 5, and the operation is performed under the operation condition B. The driving unit 7 is controlled to perform the operation.
[0040]
When the input unit 1 is operated by the user at time tb3 to operate under the operation condition D at the time tb3 while operating under the operation condition B by the second timer, the input operation condition D Is controlled so that the operation of the drive unit 7 is switched so as to operate in the step (1). At this time, the operation condition of the second timer remains recorded as the operation condition B. Thereafter, when it is confirmed that the current time coincides with the off timer set time tb2, the off timer set time tb2 of the second timer is the same as the on timer set time tb2 of the third timer. The driving unit 7 is read from the memory 5 and switched from the operating condition D to the operating condition C, and the driving unit 7 is controlled to operate under the operating condition C. Then, when it is confirmed that the current time coincides with the off timer set time tc2, the air conditioner stops operating.
[0041]
As described above, when the off timer setting time tc2 of the third timer is confirmed and the operation stops, the control unit 8 confirms whether or not the on timer setting time ta1 of the first timer matches the current time. . Then, as shown in FIG. 5B, similarly to the case of FIG. 5A, when it is confirmed that the current time coincides with the on-timer set time ta1, after operating under the operation condition A, the current time becomes When it is confirmed that the time coincides with the off timer set time ta2, the operation of the air conditioner is stopped.
[0042]
Thereafter, when it is confirmed that the current time coincides with the ON timer set time tb1, the operating condition B, which is the operating condition of the second timer, is read from the memory 5 and the operation is performed under the operating condition B. Then, when it is confirmed that the current time coincides with the off timer set time tb2, the operation condition is switched from the operation condition B to the operation condition C, the operation is performed under the operation condition C, and the current time coincides with the off timer set time tc2. When it is confirmed that the operation has been performed, the air conditioner stops operating. As in this example, even if the operating conditions are changed by the user when the operation of the n-th timer (the second timer in the example of FIG. 5) is performed, the n-th timer (the second timer in the example of FIG. 5) is changed again. When the operation period is confirmed, the operation is performed in accordance with the operating condition stored in the memory 5 before the change.
[0043]
<Second embodiment>
A second embodiment of the present invention will be described with reference to the drawings. The configuration of the air conditioner of this embodiment is the same as that of the first embodiment shown in FIG. 1, and the timer setting operation of the air conditioner of this embodiment is also similar to that of the first embodiment shown in FIG. The operation is based on the flowchart of FIG. Therefore, in the present embodiment, an operation of the air conditioner when a timer reservation operation different from the first embodiment is performed will be described below.
[0044]
In the air conditioner of the present embodiment, similarly to the first embodiment, when the input unit 1 is operated to perform the timer reservation operation after performing the timer setting operation based on the flowchart of FIG. The control unit 8 compares the current time given by the timer 4 with the on-timer set time and the off-timer set time stored in the memory 5 so as to operate under the operating conditions of each time zone stored in the memory 5. Is done. When the current time matches the on-timer set time of the n-th timer, the operation under the operating conditions of the n-th timer is started. When the current time matches the off-timer set time of the n-th timer, the operation of the n-th timer is started. Stop operation under conditions. This operation is performed in order from the first timer. When all the operations set in the timer and stored in the memory 5 are performed, the operation is performed again in order from the first timer.
[0045]
When the timer operation similar to that of the first embodiment is performed in this manner, the user operates the input unit 1 to change the operation condition, and the operation when the operation condition is changed will be described with reference to the flowchart of FIG. Will be explained. When the input unit 1 is operated to change the operating conditions and parameters (STEP 101), the current operating conditions are changed based on the operating conditions and parameters input by the input unit 1 (STEP 102). Then, it is confirmed whether or not the operation according to the operation condition of the n-th timer (hereinafter, referred to as “n-th timer operation”) is performed (STEP 103). At this time, when the driving unit 7 is not driven by the n-th timer operation (No), the operating state after the change is stored in the memory 5 as the operating condition in the normal operation (STEP 106), and then the driving unit 7 is changed by the control unit 8. It is controlled to operate under the later operating conditions (STEP 107).
[0046]
When it is confirmed in STEP 103 that the driving is performed by the n-th timer operation (Yes), an instruction to newly store the changed operating condition in the memory 5 as the operating condition of the n-th timer is input to the input unit. It is confirmed whether or not the processing has been performed in step 1 (STEP 104). At this time, when it is instructed to store the changed operating condition as the operating condition of the n-th timer (Yes), the operating condition of the n-th timer is converted into the changed operating condition and stored in the memory 5. (Step 105).
[0047]
When the conversion operation of the operating condition of the n-th timer is completed in STEP 105, or when the operating condition after the change is not instructed to be stored as the operating condition of the n-th timer in STEP 104 (No), After the operating conditions described above are stored in the memory 5 as operating conditions during normal operation (STEP 106), the drive unit 7 operates under the changed operating conditions (STEP 107).
[0048]
FIG. 7 shows an example of the operation of the air conditioner when the timer reservation operation is performed. Note that the operation example of FIG. 7 is an operation example of two days as in the operation example of FIG. 5 and that the timer setting is performed for the first to third timers. Also, as in the first embodiment, the first timer sets the on-timer setting time ta1, the operating condition A, and the off timer setting time ta2, and the second timer sets the on-timer setting time tb1, the operating condition B, and the off timer setting. It is assumed that the time tb2 is the third timer, and the on-timer set time tb2, the operating condition C, and the off-timer set time tc2 are respectively set.
[0049]
At this time, as shown in FIG. 7A, first, when it is confirmed that the current time matches the on-timer set time ta1, the drive unit 7 operates under the operation condition A. Then, at time ta3, when the input unit 1 is operated by the user and input so as to operate under the operating condition E, the operation of the driving unit 7 switches so as to operate under the input operating condition E. At this time, it is assumed that there is no instruction to store the operating condition E in the memory 5 as the operating condition of the first timer. Therefore, the operating condition E is recorded in the memory 5 only as the operating condition during the normal operation. Then, when it is confirmed that the current time coincides with the off timer set time ta2, the air conditioner stops operating.
[0050]
Thereafter, at time tx1, when the input unit 1 is operated so that the air conditioner operates, the operating condition E recorded as the normal operating condition is read from the memory 5, and the driving unit 7 operates. Works with E. Then, when it is confirmed that the current time coincides with the on-timer set time tb1, the operation of the drive unit 7 is switched to operate under the operation condition B. At this time, when input is performed at time tb3 to operate under the operating condition D, the operation of the driving unit 7 switches so as to operate under the operating condition D. When the operating condition D is input in this manner, it is assumed that an instruction has been given to store the operating condition D in the memory 5 as the operating condition of the second timer. Therefore, the operating condition D is recorded in the memory 5 only as the operating condition of the second timer and the operating condition during the normal operation.
[0051]
Thereafter, when it is confirmed that the current time coincides with the off timer set time tb2, the operation condition is switched from the operation condition D to the operation condition C, the driving unit 7 operates under the operation condition C, and the current time is changed to the off timer set time tb2. When it is confirmed that tc2 matches, the air conditioner stops operating.
[0052]
As described above, when the off timer setting time tc2 of the third timer is confirmed and the operation stops, the control unit 8 confirms whether or not the on timer setting time ta1 of the first timer matches the current time. . Then, as shown in FIG. 7B, when it is confirmed that the current time coincides with the on-timer set time ta1, the operation condition A of the first timer is read from the memory 5 and the operation is performed under the operation condition A. Thereafter, when it is confirmed that the current time matches the off timer setting time ta2, the air conditioner stops operating.
[0053]
Thereafter, at time ty1, when the input unit 1 is operated so that the air conditioner operates, the operating condition D recorded as the normal operating condition is read from the memory 5, and the driving unit 7 operates. Works with D. Then, when input is made at time ty2 to operate under the operating condition F, the operation of the drive unit 7 is switched to operate under the operating condition F. At this time, the normal operating condition is converted from the operating condition D to the operating condition F, and is recorded in the memory 5.
[0054]
Thereafter, when it is confirmed that the current time coincides with the on-timer set time tb1, the operation of the drive unit 7 is switched to operate under the operation condition D. When it is confirmed that the current time coincides with the off timer set time tb2, the operation condition is switched from the operation condition D to the operation condition C, the operation is performed under the operation condition C, and the current time coincides with the off timer set time tc2. When it is confirmed that the operation has been performed, the air conditioner stops operating. Further, when the input unit 1 is operated so that the air conditioner operates at time tz1, the operating condition F recorded as the normal operating condition is read out from the memory 5, and the driving unit 7 operates the operating condition F Works with
[0055]
As in this example, when the operation condition is changed by the user when the operation of the n-th timer (the first timer and the second timer in the example of FIG. 7) is performed, the operation condition before the change and the operation condition after the change are changed. Can be selected as the operating conditions of the n-th timer (the first timer and the second timer in the example of FIG. 5).
[0056]
<Third embodiment>
A third embodiment of the present invention will be described with reference to the drawings. The configuration of the air conditioner of this embodiment is the same as that of the first embodiment shown in FIG.
[0057]
Unlike the first and second embodiments, the air conditioner of the present embodiment performs the above-described timer setting operation, and thus a plurality of combinations (hereinafter, this combination is referred to as a “set timer pattern”). Can be generated and stored in the memory 5. Hereinafter, the timer setting operation for each set timer pattern will be described with reference to the flowchart in FIG.
[0058]
When the input unit 1 is operated to instruct to perform the timer setting operation (STEP 151), a request is made as to which set timer pattern is to be performed, and the set timer pattern to be set is designated by the input unit 1 ( (Step 152). Note that, when a request for the set timer pattern is made, the “pattern m” representing the set timer pattern may be blinkingly displayed on the display unit 2, and the blinking display may be stopped when determined by the user.
[0059]
When the set timer pattern is specified in this way, a timer setting operation is performed for the specified set timer pattern (STEP 153). The timer setting operation in the set timer pattern is an operation based on the flowchart of FIG. 2, as in the first embodiment. Then, when the timer setting operation for the designated set timer pattern ends, it is confirmed whether or not the end of the timer setting operation has been instructed (STEP 154). At this time, if there is no end instruction (No), the operation after STPE 151 is performed again, and if there is an end instruction (Yes), the setting operation ends.
[0060]
When a plurality of set timer patterns are set and recorded in the memory 5, when the user operates the input unit 1 to instruct a timer reservation operation, the plurality of set timer patterns are set. A display for selection is made on the display unit 2. Then, when the set timer pattern for performing the timer reservation operation is selected by operating the input unit 1, the air conditioner is set for each set time zone according to the selected set timer pattern. It operates under the operating conditions. The operation of the air conditioner when this timer reservation operation is instructed is the same as the operation of any of the first and second embodiments. Therefore, the detailed description is omitted.
[0061]
In the present embodiment, since a plurality of set timer patterns, which are a combination pattern of a recording time zone and an operation condition, are recorded in the memory 5, an optimum one at the time of use can be selected from these set timer patterns. Therefore, in the air conditioner in which the optimal operating conditions differ from season to season, the set timer pattern can be set and recorded for each season, and the optimum set timer pattern can be selected according to the season to be used.
[0062]
<Example using air purifier>
An embodiment using an air purifier will be described below with reference to the drawings. In this embodiment, the operation based on the air conditioner in the first embodiment is performed. FIG. 9 is a block diagram illustrating a partial configuration of the air purifier of the present embodiment.
[0063]
The air purifier shown in FIG. 9 includes a filter 10 for removing dust from the intake air, a fan 11 rotating for inhaling the outside air through the filter 10, an air passage 12a for passing the air passing through the fan 11 and branching. To 12c, and ion generators 13a to 13c provided in the ventilation passages 12a to 12c and generating ion clusters by corona discharge.
[0064]
In the air cleaner having such a configuration, when the ion clusters generated by the ion generators 13a to 13c are only negative ions, the sterilization effect is lower than when both positive ions and negative ions are generated. . Hereinafter, the operation when only negative ions are generated is referred to as “relaxation operation”, and the operation when both positive ions and negative ions are generated is referred to as “sterilization operation”.
[0065]
That is, when the above-described sterilization operation is performed, the ion generating units 13a to 13c, for example, ⁺ (H ₂ O) _m (M is an arbitrary natural number) and, for example, O ₂ (H ₂ O) _n (N is an arbitrary natural number). The positive and negative ions adhere to the surface of airborne bacteria and cause a chemical reaction, so that hydrogen peroxide (H ₂ O ₂ ) Or a hydroxyl radical (.OH) is generated. This hydrogen peroxide or hydroxyl radical exhibits extremely strong activity, and its decomposing action destroys floating bacteria. Therefore, by generating both positive and negative ions, airborne bacteria in the air can be inactivated and removed efficiently.
[0066]
Further, chemical substances such as formaldehyde and ammonia can be rendered harmless by the positive and negative ions serving as the active species. In addition, viruses such as influenza virus and coxsackie virus can be inactivated by both positive and negative ions, and contamination due to virus contamination can be prevented. Furthermore, the molecules that cause the odor can be decomposed by the positive and negative ions, and deodorization can be performed.
[0067]
In this air purifier, portions corresponding to the input unit 1 and the display unit 2 in FIG. 1 are configured as shown in FIG. It is composed of buttons 1a to 1d serving as an input unit 1, LEDs 2a to 2f serving as a display unit 2, and a display 2g. The button 1c is an input button for adding a set time, the button 1b is an input button for determining a setting, the button 1a is an input button for subtracting a set time, and the button 1d is a time setting button. Are provided as input buttons for performing the operations. The LEDs 2a to 2c indicate that the current time, the on-timer set time, and the off-timer set time are displayed on the display 2g. It is installed as a display to notify. In addition, the time and the operating conditions are displayed on the display 2g.
[0068]
Furthermore, in this air purifier, an air volume and a sterilization degree (corresponding to an ion generation amount corresponding to dirt) are set as operating conditions. Then, the air volume is set in three stages of high, medium, and weak, and the sterilization degree is set in nine stages of 1 to 9. As for the degree of sterilization, 1 is weak and 9 is strong, and the degree of sterilization is set by changing the operation mode of the ion generators 13a to 13c.
[0069]
That is, for example, when the degree of sterilization is 1, one ion generating unit performs a relaxation operation, and when the degree of sterilization is 2, two ion generating units perform a relaxation operation, and the degree of sterilization is reduced. At 3, the three ion generating units perform the relaxation operation. When the degree of sterilization is 4, one ion generating section performs a sterilizing operation, and when the degree of sterilizing is 5, one ion generating section performs a sterilizing operation and another ion generating section. When the sterilization degree is 6, one ion generator performs the sterilization operation and the other two ion generators perform the relaxation operation. When the degree of sterilization is 7, the two ion generators perform the sterilization operation, and when the degree of sterilization is 8, the two ion generators perform the sterilization operation and the remaining one ion generation is performed. The unit performs the relaxation operation, and when the sterilization degree is 9, the three ion generating units perform the sterilization operation.
[0070]
In addition, for each of the ion generators 13a to 13c, the operation time for each of the relaxation operation and the disinfection operation is integrated, and the operation life is calculated from the accumulated time for each of the relaxation operation and the disinfection operation. Shall be stored. Then, of the ion generators 13a to 13c, the one having the longer operating life is controlled so as to be preferentially driven. The reason why the longer the operation time is, the shorter the operation life is because the electrodes are etched by the ions when the ions are generated by discharging.
[0071]
The timer setting operation in such an air purifier will be described below. When the timer setting operation is not being performed, the current time is displayed on the display 2g, and the LED 2d indicating that the current time is being displayed is lit. When the button 1d is pressed, the timer setting operation starts, the buzzer sounds once from the speaker 3 (FIG. 1), and the LED 2a indicating the setting of the first timer is turned on. At this time, the blinking of the LED 2e indicates the on-timer set time on the display 2g and indicates that the on-timer set time is set.
[0072]
Then, by operating the buttons 1a and 1c, the ON timer set time is set. Thereafter, when the button 1b is pressed, the ON timer set time displayed on the display 2g is determined as the ON timer set time of the first timer, and the ON timer set time of the first timer is determined. To indicate, LED 2e is illuminated.
[0073]
As described above, when the LED 2e is turned on, the air volume and the sterilization degree are displayed on the display 2g, and the operating conditions are set. At this time, first, after the buttons 1a and 1c are operated, the button 1b is pressed and the air volume is determined, and then, after the buttons 1a and 1c are operated, the button 1b is pressed and the sterilization degree is determined. As a result, the operating condition of the first timer is set. Then, when the button 1d is pressed, the LED 2f blinks, thereby indicating that the off timer setting time is displayed on the display 2g and that the off timer setting time is set. The display 2g shows the set time of the set first timer.
[0074]
At this time, after the buttons 1a and 1c are operated, the button 1b is pressed, and the set time of the first timer is set. When the off timer setting time of the first timer is set in this way, the LED 2f is turned on to indicate that the off timer setting time of the first timer has been determined. When the button 1d is pressed, the buzzer sounds twice from the speaker 3 (FIG. 1), the LED 2b indicating the setting of the second timer is turned on, and the LED 2e blinks. At this time, the on-timer set time, operating conditions, and off-timer set time of the first timer are stored in the memory 5 (FIG. 1). In addition, the set timer set time of the first timer is displayed on the display 2g.
[0075]
Thereafter, the same operation as when the first timer is set is performed, so that the ON timer set time, the operating conditions, and the OFF timer set time of the second timer are set in order. After the ON timer set time, the operating condition, and the OFF timer set time of the second timer are set in this way, when the button 1d is pressed, the buzzer sounds three times from the speaker 3 (FIG. 1), and The LED 2c indicating the setting of the third timer lights up, and the LED 2e blinks. At this time, the on-timer set time, operating conditions, and off-timer set time of the second timer are stored in the memory 5 (FIG. 1).
[0076]
Then, by performing the same operation as when the first timer and the second timer are set, the on-timer set time, the operating condition, and the off-timer set time of the third timer are set in order. After the ON timer setting time, the operating condition, and the OFF timer setting time of the third timer are set in this way, when the button 1d is pressed, the buzzer sounds once from the speaker 3 (FIG. 1), and The LED 2d is turned on, and the current time is displayed on the display 2g. At this time, the on-timer set time, operating conditions, and off-timer set time of the third timer are stored in the memory 5 (FIG. 1).
[0077]
When the timer setting operation is performed in this manner, in the first timer, the on-timer set time 7:00, the off-timer set time 9:00, and the low air volume and sterilization degree 3 as operating conditions are set in the second timer. In the third timer, the ON timer setting time 17:30, the OFF timer setting time 20:00, and the ON timer setting time 9:00 and the OFF timer setting time 16:00, It is assumed that the air flow and the sterilization degree 5 which are the operation conditions are set.
[0078]
After such a timer setting operation is performed, the timer reservation setting is performed by pressing the button 1b. Then, when the current time indicates 7:00, the weak air volume and the sterilization degree 3, which are the operating conditions of the first timer, are read. Thus, the fan 11 operates with a low strength, and all the ion generating units 13a to 13c perform the relaxation operation. Thereafter, when the current time indicates 9:00, the operating condition of the first timer is switched to the operating condition of the second timer, and the operating condition of the second timer, ie, the strong air volume and the sterilization degree 8, are read. Therefore, when the fan 11 operates strongly and the operating life of the ion generator 13a is the shortest, the ion generator 13a performs a relaxation operation, and the ion generators 13b and 13c perform a sterilization operation.
[0079]
When the operation is performed based on the operating condition of the second timer, the user operates at the current time 13:00 to change the sterilization degree as the operating condition to 6. At this time, the operating conditions are recorded in the memory 5 as operating conditions during normal operation, and when the operating life of the ion generating unit 13b is the longest, the ion generating unit 13c switches from the sterilization operation to the relaxation operation. Then, when the current time indicates 16:00, the operations of the fan 11 and the ion generators 13a to 13c are stopped.
[0080]
Then, when the user operates to drive at the current time of 17:10, the strong air volume and the sterilization degree 6, which are the operating conditions during normal operation, are read. Therefore, when the fan 11 operates strongly and the operating life of the ion generator 13b is the longest, the ion generators 13a and 13c perform a relaxation operation, and the ion generator 13b performs a sterilization operation.
[0081]
Thereafter, when the current time indicates 17:30, the air conditioner and the sterilization degree 5 which are the operating conditions of the third timer are read. Therefore, while the fan 11 is switched to the inside and the operating life of the ion generating unit 13a is the shortest, the ion generating unit 13a stops. When the current time indicates 20:00, the operations of the fan 11 and the ion generators 13b and 13c are stopped.
[0082]
Then, when the current time indicates 7:00 again, similarly to the previous day, the operating condition of the first timer, the weak air volume and the sterilization degree 3, are read. Thus, the fan 11 operates with a low strength, and all the ion generating units 13a to 13c perform the relaxation operation. Thereafter, when the current time indicates 9:00, the operating condition of the first timer is switched to the operating condition of the second timer, and the operating condition of the second timer, that is, the strong air volume and the sterilization degree 8, are read out as in the previous day. It is. Therefore, when the fan 11 operates strongly and the operating life of the ion generator 13b is the shortest, the ion generator 13b performs a relaxation operation, and the ion generators 13a and 13c perform a sterilization operation.
[0083]
Then, when the current time indicates 16:00, the operations of the fan 11 and the ion generators 13a to 13c are stopped. Thereafter, when the current time indicates 17:30, the air conditioner and the sterilization degree 5 which are the operating conditions of the third timer are read out as in the previous day. Therefore, when the fan 11 is switched to the inside and the operating life of the ion generating unit 13b is the shortest and the operating life of the ion generating unit 13a is the longest, the ion generating unit 13a performs the disinfection operation and the ion generating unit 13c relaxes. Perform the operation. Thereafter, when the current time indicates 20:00, the operations of the fan 11 and the ion generators 13a and 13c are stopped.
[0084]
In the air purifier of this embodiment, the timer reservation operation in the first embodiment is performed, but the timer reservation operation in the second embodiment may be performed. Also, a plurality of set timer patterns may be set as in the third embodiment.
[0085]
Further, the air purifier of the present embodiment includes a dirt sensor including a dust sensor and an odor sensor for detecting air pollution, and ion generators 13a to 13c according to the air pollution state detected by the dirt sensor. Each operation state may be controlled. Further, in the air purifier of the present embodiment, the operation state of each of the ion generators 13a to 13c may be controlled according to the air volume of the fan 11.
[0086]
【The invention's effect】
According to the present invention, the operating conditions for a plurality of operating times can be set, so that the operating conditions can be set according to the time zone. Also, when the operating conditions for the set operating time are switched, the set operating conditions are kept recorded along with the operating time, so that the set operating conditions are changed each time the operating conditions are switched. Can be prevented. Further, when the operating condition for the set operating time is switched, the operating condition to be recorded is selected from the operating condition before the change and the operating condition after the change, so that the optimal operating condition can be set. it can.
[0087]
In addition, since a plurality of ion generators can be operated independently to adjust the amount of ions to be generated, an optimum amount of ions can be generated according to the degree of air pollution. Further, when all the ion generators are not operated, the operation is started from the one with the longest life, so that the life of the air conditioner can be maintained long. In addition, since the number of the timer can be confirmed by the buzzer, the space for the operation unit can be reduced by eliminating the LED.
[Brief description of the drawings]
FIG. 1 is a block diagram showing an internal configuration of an air conditioner according to first to third embodiments.
FIG. 2 is a flowchart showing a timer setting operation of the air conditioner of the first embodiment.
FIG. 3 is a flowchart illustrating a time display operation.
FIG. 4 is a flowchart showing an operation condition display operation.
FIG. 5 is a diagram showing an operation example of the air conditioner of the first embodiment.
FIG. 6 is a flowchart showing the operation of the air conditioner of the second embodiment when the operating conditions are changed.
FIG. 7 is a diagram showing an operation example of the air conditioner of the second embodiment.
FIG. 8 is a flowchart showing a timer setting operation of the air conditioner of the third embodiment.
FIG. 9 is a block diagram showing an internal configuration of an air purifier to which the present invention is applied.
FIG. 10 is a view for explaining an input unit and a display unit of the air purifier of FIG. 9;
[Explanation of symbols]
1 Input section
2 Display
3 Speaker
4 Timer
5 memory
6 Sensor section
7 Drive unit
8 Control part

Claims (10)

In an air conditioner with a timer setting function,
By the timer setting function, a plurality of operation times or times, and an operation setting unit that sets operation conditions at the operation times or times,
A storage unit that stores the operation time or time and the operation condition set by the operation setting unit,
A change prevention unit for preventing a change in operating conditions by the timer setting function,
An air conditioner, comprising: In an air conditioner with a timer setting function,
By the timer setting function, a plurality of operation times or times, and an operation setting unit that sets operation conditions at the operation times or times,
A storage unit that stores the operation time or time and the operation condition set by the operation setting unit,
A selection unit for selecting the operating conditions stored in the storage unit,
An air conditioner, comprising: In an air conditioner with a timer setting function,
By the timer setting function, a plurality of operating times and operating conditions at each operating time are set and recorded,
In the set operation time, when the operation condition set together with the operation time is changed, the changed operation condition is not recorded, but the set operation condition is recorded as it is. And air conditioner. In an air conditioner with a timer setting function,
By the timer setting function, a plurality of operating times and operating conditions at each operating time are set and recorded,
In the set operation time, when the operation condition set together with the operation time is changed, the operation condition to be recorded next time for use in the operation time is the operation condition before the change or the operation condition after the change. An air conditioner selected from the group consisting of: The air conditioner according to claim 3 or 4, wherein a plurality of combinations of the plurality of operation times and the operation conditions set in one day are recorded as a set timer pattern. The air conditioner according to any one of claims 3 to 5, further comprising a notification unit configured to notify an order of the operation time set when the operation time and the operation condition are set. The air conditioner according to any one of claims 3 to 6, wherein the set operation times do not overlap. When the n-th operation time is set, the start time of the n-th operation time is set from the end time of the (n-1) -th operation time, and the end time of the n-th operation time is set to the n-th operation time. The air conditioner according to claim 7, wherein the air conditioner is set from a start time of a second operation time or later. In an air conditioner equipped with a plurality of ion generators,
While each of the plurality of ion generators is installed in parallel,
An air conditioner, wherein an operation state of each of the plurality of ion generators is set according to an amount of ions to be generated. 10. The air conditioner according to claim 9, wherein when all of the ion generators are not operated, the ion generator having a longer life is operated.

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