JP3764080B2 - Device remote control device - Google Patents

Description

[0001]
[Field of the Invention]
The present invention relates to a remote control device used for operating a device such as a water heater for supplying hot water to a bathroom or kitchen.
[0002]
[Prior art]
In a conventional device such as a water heater, time data displayed on a remote controller, which is a remote control device, is managed by a clock circuit provided in the device body. Specifically, a clock circuit is provided as part of the controller circuit that controls the device body, and is operated by operating means provided on the remote controller to set time, timer operation, etc. It was broken. Such a clock circuit in a conventional device main body needs a backup power source in order to hold time data when the power source of the device main body is turned off.
[0003]
However, since the conventional device has to hold various operation control data in addition to the time data, the power consumption of the backup power source of the device body is large.
[0004]
[Problems to be solved by the invention]
In order to reduce the burden of the backup power source of the device body, it is conceivable to provide a timepiece having a backup power source on the remote control device side.
[0005]
However, when there are a plurality of the remote control devices, if a clock is provided for each remote control device, a time difference occurs. In addition, the time setting must be performed by each remote control device, and the time setting becomes troublesome.
[0006]
The present invention aims to improve a remote control device for operating a device such as a water heater, and more specifically, in order to eliminate the inconvenience, the burden of a backup power source of the device body is reduced, and a plurality of remote control devices are provided. An object of the present invention is to provide a remote control device that can easily match the time.
[0007]
[Means for Solving the Problems]
In order to achieve the above object, a remote control device for a device of the present invention comprises a device main body and a plurality of remote control devices for remotely controlling the device main body, and one of the plurality of remote control devices includes a main clock. And a main time setting means for setting the time of the main clock, and a sub clock and a sub time setting means for setting the time of the sub clock in another remote control device. The main time setting means and the sub time setting means both compare the times of the main clock and the sub clock.
[0008]
Then, the sub time setting means performs a sub adjustment change for changing the time of the sub clock to the time of the main clock when the time difference between the main clock and the sub clock exceeds a predetermined threshold. On the other hand, when the time difference between the main clock and the sub clock exceeds the threshold, the main time setting means regards that the time is set in the sub clock and sets the time of the main clock to the sub clock. Change the main adjustment to be changed at
[0009]
The sub time setting means, when the time of the sub clock is set, changes the time of the sub clock to the set time, and then stops the sub adjustment change for a predetermined waiting time and stops the main adjustment. Wait until the time of the main clock is changed to the set time by the change. On the other hand, when the time setting of the main clock is performed, the main time setting means changes the time of the main clock to the set time, and then stops the main adjustment change for a predetermined waiting time and stops the sub adjustment. The change waits until the time of the sub-clock is changed to the set time.
[0010]
According to the remote control device of the present invention, when there is a difference between the time of the main clock and the time of the sub clock and the threshold value is reached, the sub time setting means sets the time of the sub clock to the time of the main clock. Sub-adjustment changes are made to match. As a result, the time difference between the main clock and the sub clock gradually increases, and when the threshold value is reached, the sub clock matches the time of the main clock. The time difference from the clock is kept below the threshold. Even when there are a plurality of sub clocks, the plurality of sub clocks match the time of the main clock, so that the time difference between all the sub clocks and the main clock is kept below the threshold.
[0011]
On the other hand, as described above, when the time difference between the main clock and the sub clock gradually increases and reaches the threshold value, the sub clock matches the time of the main clock. The difference does not exceed the threshold. For this reason, when the time difference between the two exceeds the threshold value, it can be considered that the time is set in the main clock or the sub clock.
[0012]
Therefore, the main time setting means performs a main adjustment change to make the time of the main clock coincide with the time of the sub clock when the time difference between the main clock and the sub clock exceeds the threshold. Thus, when the time is set in the sub clock, the time of the main clock coincides with the time of the sub clock in which the time is set, so that the user sets the time of the sub clock by setting the time of the sub clock. Can also be set.
[0013]
When the time is set in the main clock and the set time is equal to or greater than the time of the sub clock and the threshold, the sub time setting means sets the time of the sub clock to the time of the main clock. Match. For this reason, since the user can set all the times of the main clock and the sub clock only by setting the time of the main clock or the sub clock, there is no need to set the time of each clock.
[0014]
Here, when the time is set in the main clock, the predetermined standby time main adjustment change is stopped during the standby time by the sub time setting means by the sub time setting means. This is to change the time of the above to the time of the main clock. On the other hand, when the time is set in the sub timepiece, the main adjustment setting is similarly performed by the main time setting means, so that the sub adjustment change is stopped during a predetermined waiting time.
[0015]
When there are a plurality of sub-clocks, the time of the sub-clock is made to coincide with the time of the main clock by the sub-time setting means in the other sub-clocks for which the time has not been set. Matches. For this reason, the user can change the time of another clock to the set time by setting the time of one subclock, so that it is not necessary to set the time of each clock.
[0016]
In addition, according to the remote control device of the present invention, since each remote control device is provided with a clock, it is not necessary to provide a clock on the device body. In addition, each remote operation device only needs to hold time data of each clock, so that the burden on the backup power source is small. Therefore, it is possible to reduce the burden of the backup power source of the device main body and each remote control device.
[0017]
In the remote control device according to the present invention, the main clock includes a backup power source that maintains time data when the power is turned off, and the sub time setting means includes the time of the main clock when the power is turned on. Is preferably the time of the sub-clock. According to this, the backup power source can be provided only to the main clock, and the backup power source can be dispensed with for the sub clock, so the burden of the backup power source in the remote control device having the sub clock can be removed. it can.
[0018]
DETAILED DESCRIPTION OF THE INVENTION
Next, an example of an embodiment of the remote control device of the present invention will be described with reference to FIGS. FIG. 1 is a configuration diagram showing a remote control device and a water heater as an example of an embodiment of the present invention, FIG. 2 is a flowchart showing the time setting operation in the sub-remote control, and FIG. 3 shows the time setting operation in the main remote control. It is a flowchart.
[0019]
As shown in FIG. 1, the remote control device of this embodiment includes two remote controllers, a main remote controller 1 and a sub-remote controller 2, and each is electrically connected to a water heater (apparatus body) 3. In the present embodiment, the main remote controller 1 is a bathroom remote controller installed in the bathroom, and the sub-remote controller 2 is a kitchen remote controller installed in the kitchen.
[0020]
The main remote controller 1 includes a main clock circuit 4, main display means 5 for displaying time, a main backup power supply 6 for holding time data of the main clock circuit 4 when the main remote controller 1 is turned off, and a time Main time setting means 7 for performing the above setting, and main communication means 8 for communicating time data and other data with the water heater 3 and the sub-remote controller 2.
[0021]
The sub-remote controller 2 communicates time data and other data with the sub-clock circuit 9, the sub-display means 10 for displaying time, the sub-time setting means 11 for setting time, the water heater 3, the main remote controller 1, and so on. And sub-communication means 12 for performing. In the present embodiment, there is no sub backup power source for protecting the time data of the sub clock circuit 9 when the power of the sub remote controller 2 is turned off.
[0022]
The water heater 3 includes a communication means 13 for communicating operation control data and the like with the main remote controller 1 and the sub remote controller 2, and a combustor such as a burner (not shown) according to operation instruction data transmitted from the main remote controller 1 or the sub remote controller 2. The operation control means 14 to control is provided. In the present embodiment, the water heater 3 is not provided with a clock circuit. Therefore, since it is not necessary to provide a clock circuit in the water heater 3, the burden on the backup power source for other circuits is reduced. Further, in the main remote controller 1, the burden is small because it is a backup of only the main clock circuit 4. As described above, in the present embodiment, the burden of the backup power source is distributed to the water heater 3 and the main remote controller 1 and the backup power source is not provided in the sub-remote controller 2, thereby reducing each burden.
[0023]
Next, management of time data between remote controllers in this embodiment will be described. In the present embodiment, the main remote controller 1 and the sub-remote controller 2 transmit / receive time data to / from each other at intervals of several times per second by the main communication unit 8 and the sub-communication unit 12, respectively. Further, when an operation switch (not shown) is turned on in the main remote controller 1 or the sub remote controller 2, the power is turned on in all the remote controllers, and the operation switch is operated with any of the remote controllers when the operation is not performed in each water heater or the like. When is turned off, the power is turned off in all remote controllers.
[0024]
First, management of time data in the sub-remote controller 2 will be described with reference to FIG. In the sub-remote controller 2, when the power is turned on by turning on an operation switch (not shown) (STEP 1), all the remote controllers including the main remote controller 1 are turned on. At this time, the sub time setting means 11 reads the time data of the main clock circuit 4 in the main remote controller 1 received by the sub communication means 12 and sets it as the time data of the sub clock circuit 9 (STEP 2). Then, the time data is displayed on the sub display means 10 (STEP 3). Here, the sub time setting means 11 checks whether or not the time is set by the user (STEP 4).
[0025]
Here, when the time is not set by the user (NO in STEP 4), the time data of the main clock circuit 4 in the main remote control 1 received by the sub time setting means 11 by the sub communication means 12 and the time data in the sub remote control 2 The time data of the sub clock circuit 9 is compared. Then, it is checked whether the time data in the main remote controller 1 and the time data in the sub-remote controller 2 exceed the threshold value of 1 minute (STEP 5). Thereby, the time is set by the main remote controller 1, and it is checked whether or not both time data exceeds a threshold value.
[0026]
If the difference between the time data is equal to or less than the threshold value of 1 minute (NO in STEP 5), the sub time setting means 11 further checks whether or not the difference between the time data is the threshold value of 1 minute. (STEP 6). When the difference between the two time data is the threshold value of 1 minute (YES in STEP 6), the sub-adjustment change for rewriting the time data in the sub-remote controller 2 to the time data in the main remote controller 1 is performed in principle.
[0027]
Specifically, during the period from the time when the difference between both time data is 1 minute to 2 seconds (NO at STEP 7), the difference between both time data is not other than 1 minute (NO at STEP 8). Further, if the user does not set the time (NO in STEP 9), after 2 seconds have passed (YES in STEP 7), the sub time setting means 11 uses the sub clock circuit 9 to send the time data in the main remote controller 1 received by the sub communication means 12 to the sub clock circuit 9. To the time data in the sub-remote controller 2 (STEP 13). Then, the time data changed in the sub display means 10 is displayed (STEP 3).
[0028]
On the other hand, the time data was corrected in the main remote controller 1 for 2 seconds (NO in STEP 7) after the time data difference between the two became 1 minute, and the time data difference between the two became other than 1 minute. In this case (YES in STEP 8), when the difference between the time data is less than 1 minute, the sub time setting means 11 does not change the time data of the sub clock circuit 9 (the loop of STEP 3 to 6). If the time data difference between the two is other than 1 minute (YES in STEP 8) and the time data difference between the two exceeds 1 minute (YES in STEP 5), the main remote controller 1 will be described later. Is transmitted to the sub-clock circuit 9 to be time data in the sub-remote controller 2 (STEP 13).
[0029]
Alternatively, when the time setting is performed in the sub-remote controller 2 during the period from the time when the difference between the time data becomes 1 minute to 2 seconds (NO in STEP 7) (YES in STEP 9), the sub time setting means 11 The time is set as described later without changing the sub-adjustment (STEP 10, 11, 12).
[0030]
When the time is set in the sub remote controller 2 (YES in STEP 4), the time is set by the operation of the sub time setting means 11 by the user, and the time data of the sub clock circuit 9 is rewritten (STEP 10). Then, after the operation of the sub time setting means 11 by the user is completed, the sub adjustment change is prohibited in a standby state for 5 seconds (NO in STEP 11). Here, the sub-adjustment change for 5 seconds is prohibited because a main adjustment change described later is made in the main remote controller 1 during this 5 seconds, and the time data of the main clock circuit 4 of the main remote controller 1 is rewritten to the time data set now. (STEP 24: YES, STEP 32). If an operation for setting the time is performed on the sub-remote controller 2 during this 5 seconds (YES in STEP 12), the time data of the sub-remote controller 2 is changed to the changed time data (STEP 10), and again. It is in a standby state for 5 seconds (NO in STEPs 11 and 12).
[0031]
On the other hand, if the difference in time data between the sub-remote controller 2 and the main remote controller 1 exceeds the threshold value of 1 minute (YES in STEP 5), the time is set in the main remote controller 1, so the sub-time setting means 11 performs a sub-adjustment change. Specifically, the time data in the main remote controller 1 received by the sub-communication means 12 is transmitted to the sub-clock circuit 9 to be used as time data in the sub-remote controller 2 (STEP 13). Then, the time data of the sub clock circuit 9 changed by the sub display means 10 is displayed (STEP 3).
[0032]
Next, management of time data in the main remote controller 1 will be described. In the main remote controller 1, as shown in FIG. 3, when the power is turned on by turning on a not-shown operation switch (STEP 21), the time data of the main clock circuit 4 held by the main backup power source 6 is displayed as a main display. It is displayed on the means 5 (STEP 22). Here, the main time setting means 7 checks whether or not the time is set by the user (STEP 23).
[0033]
If the time is not set by the user (NO in STEP 23), the main time setting means 7 receives the time data of the sub clock circuit 9 in the sub remote control 2 received by the main communication means 8 and the main remote control 1 The time data of the main clock circuit 4 is compared. At this time, it is checked whether or not the time data in the sub remote controller 2 and the time data in the main remote controller 1 exceed the threshold value of 1 minute (STEP 24). Thereby, the time is set by the sub-remote controller 2, and it is checked whether or not the time data of both exceeds the threshold value.
[0034]
If the difference between the time data is equal to or less than the threshold value of 1 minute (NO in STEP 24), the main time setting means 7 further checks whether or not the difference between the time data is the threshold value of 1 minute. (STEP 25). Here, even when the difference between the time data of both is one minute which is the threshold value (YES in STEP 25), the time data in the main remote controller 1 is not rewritten to the time data in the sub remote controller 2 in principle, and the sub remote controller is not rewritten. 2 is rewritten to time data in the main remote controller 1.
[0035]
Specifically, the time data in the main remote controller 1 is not rewritten to the time data in the sub-remote controller 2 for 5 seconds from the state where the difference between the time data of both is 1 minute which is the threshold value (NO in STEP26). Then, as described above, in the sub-remote controller 2, the time data is updated to the time data in the main remote controller 1 when 2 seconds have elapsed from the state where the difference between the time data of both is 1 minute (STEPs 7 and 13). The difference between the time data is less than 1 minute (YES in STEP 27). Thus, in principle, time data in the main remote controller 1 is not rewritten to time data in the sub-remote controller 2.
[0036]
Exceptionally, the time is set in the sub-remote controller 2 within 5 seconds after the time data difference between the two becomes 1 minute (STEP 10 and 11), and the time data difference between the two becomes 1 minute. There is a case (NO in STEP27). In this case, on the condition that the time is not set in the main remote controller 1 (NO in STEP 28), the time data in the sub-remote controller 2 received by the main time setting means 7 by the main communication means 8 is used as the main clock circuit 4. To the time data in the main remote controller 1 (STEP 32). Then, the time data of the main clock circuit 4 is displayed by the main display means 5 (STEP 22). Alternatively, when the time is set in the main remote controller 1 within 5 seconds from the state in which the difference between the time data is 1 minute (YES in STEP 28), the main time setting means 7 sets the time data of the main clock circuit 4 The time is set as described later without changing to the time data in the sub-remote controller 2 (STEP 29, 30, 31).
[0037]
When the time is set in the main remote controller 1 (YES in STEP 23), the time is set by the operation of the main time setting means 7 by the user, and the time data of the main clock circuit 4 is rewritten (STEP 29). Then, after the operation of the main time setting means 7 by the user is completed, the main adjustment change described later is prohibited in a standby state for 5 seconds (NO in STEPs 30 and 31). Here, the main adjustment change is prohibited for 5 seconds in order to wait for the sub-adjustment change in the sub-remote controller 2 during this 5 seconds (YES in STEP 5 and STEP 13). If an operation for setting the time is performed on the main remote controller 1 during these 5 seconds (YES in STEP 31), the time data of the main remote controller 1 is changed to the changed time data (STEP 29), and again. It is in a standby state for 5 seconds (NO in STEPs 30 and 31).
[0038]
On the other hand, if the difference between the time data in the main remote controller 1 and the sub remote controller 2 exceeds the threshold value of 1 minute (YES in STEP 24), the time is set in the sub remote controller 2; The main adjustment is changed to match the time data of the sub-remote controller 2. Specifically, the main time setting means 7 transmits the time data in the sub-remote controller 2 received by the main communication means 8 to the main clock circuit 4 to be the time data in the main remote controller 1 (STEP 32). Then, the time data of the main clock circuit 4 changed by the main display means 5 is displayed (STEP 22).
[0039]
In the remote control device according to the present embodiment, each remote controller performs the above-described control. Therefore, the time data difference spreads without the time setting being made in each remote controller, and the time data difference is a threshold value of 1 minute. In this case, in principle, the sub-remote control 2 performs a sub-adjustment change that matches the time data of the main remote control 1. Therefore, even when the time is not set in each remote controller, the time data in each remote controller is in a consistent state.
[0040]
When the time is set in the main remote controller 1 or the sub-remote controller 2 and the difference between the time data exceeds the threshold value, the remote controller that has not been set matches the time data of the remote controller that has been set. For this reason, the user can set the time data of all the remote controllers to the newly set time data only by setting the time with one of the remote controllers.
[0041]
In the above embodiment, the case where one sub-remote controller 2 is provided in addition to the main remote controller 1 has been described. However, the present invention is not limited to this, and a plurality of sub-remote controllers 2 may be provided. When there are a plurality of sub-remote controllers 2, if the time is set in the main remote controller 1, the time data is matched in all the sub-remote controllers 2 as described above. When the time is set in one of the sub remote controllers 2, the main remote controller 1 matches the time data, so that the other sub remote controllers 2 also match the time data of the main remote controller 1. Accordingly, the user can set the time data of the other remote controllers to be the same only by setting the time on the main remote controller 1 or one sub-remote controller 2.
[0042]
In the above embodiment, the main remote controller 1 is provided with the main time setting means 7, and the sub remote controller 2 is provided with the sub time setting means 11, so these means are provided in the water heater 3. It can also be used when programming a reserved operation or the like in the operation control means 14 provided. According to this, the reserved operation or the like of the water heater 3 can be performed not only in the main remote controller 1 but also in the sub-remote controller 2, so that user convenience is improved.
[0043]
In the above embodiment, the sub-remote controller 2 is not provided with a backup power source. However, the sub-remote controller 2 is also provided with a backup power source. The time data saved by the means 10 may be displayed.
[0044]
Moreover, in the said embodiment, although the water heater 3 was demonstrated as an apparatus main body, if it is an apparatus provided with a some remote control, this invention can be suitably applied also to another apparatus.
[Brief description of the drawings]
FIG. 1 is a configuration diagram showing a remote control device and a water heater as an example of an embodiment of the present invention.
FIG. 2 is a flowchart showing time setting operation in the sub-remote controller.
FIG. 3 is a flowchart showing a time setting operation in the main remote controller.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Main remote control (remote control device), 2 ... Sub remote control (remote control device), 3 ... Water heater (equipment main body), 4 ... Main clock circuit, 7 ... Main time setting means, 9 ... Sub clock circuit, 11 ... Sub time setting means.

Claims (2)

A device body, and a plurality of remote control devices for remotely operating the device body,
One of the plurality of remote control devices is provided with a main clock and a main time setting means for setting the time of the main clock, and a sub time setting for setting the sub clock and the time of the sub clock on another remote control device Means are provided,
The main time setting means and the sub time setting means both compare the time of the main clock and the sub clock,
The sub-time setting means performs a sub-adjustment change to change the time of the sub-clock to the time of the main clock when the time difference between the main clock and the sub-clock becomes equal to or greater than a predetermined threshold, and the main time When the time difference between the main clock and the sub clock exceeds the threshold value, the setting means regards that the time is set in the sub clock and changes the time of the main clock to the time of the sub clock. Change the main adjustment
When the time of the sub clock is set, the sub time setting means changes the time of the sub clock to the set time, and then stops the sub adjustment change and changes the main adjustment by a predetermined waiting time. Wait for the time of the main clock to change to the set time,
The main time setting means, when the time of the main clock is set, changes the time of the main clock to the set time, and then stops the main adjustment change for a predetermined waiting time, and changes the sub adjustment. A remote control device for equipment, which waits for the time of the subclock to be changed to a set time. The main clock includes a backup power source that maintains time data when the power is turned off, and the sub time setting means sets the time of the main clock as the time of the sub clock when the power is turned on. The remote control device for a device according to claim 1.

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