JP2021027953A - Toilet seat device and power saving amount notification system - Google Patents

Abstract

To provide a toilet seat device and a power saving amount notification system for enabling a user to actually feel a power saving effect and improving satisfaction of the user.SOLUTION: A toilet seat device includes a toilet seat, a heater, and a control part. A user of a toilet bowel installed in a toilet room is seated on the toilet seat. The heater warms the toilet seat. The control part controls power supplied to the heater, and has a normal warming mode for holding the temperature of the toilet seat so as to be a setting temperature set in advance, and a power saving mode for reducing a power amount supplied to the heater when the toilet seat is not used. The control part acquires a room temperature of the toilet room and setting temperature information of the toilet seat, calculates an estimated power consumption amount in the case of the normal warming mode corresponding to a period when the power saving mode is executed on the basis of the room temperature information and the setting temperature information, and compares the estimated power consumption amount with a power consumption amount of the power saving mode.SELECTED DRAWING: Figure 4

Description

The disclosed embodiment relates to a toilet seat device and a power saving amount notification system.

Conventionally, a toilet seat device having a function of warming a toilet seat on which a user sits (heating function) is known. Some such toilet seat devices are provided with a heater and heat the toilet seat (seat surface) by supplying electric power to the heater.

In addition, such a toilet seat device has a power saving mode, and by executing the power saving mode, the amount of power supplied to the heater is reduced (including stopping the power supply to the heater), thereby reducing the amount of power consumption (power saving). ) Is possible (see, for example, Patent Document 1).

Japanese Unexamined Patent Publication No. 2004-19170

However, in the conventional toilet seat device as described above, since the user cannot know how much power is saved in the power saving mode, the user cannot realize the power saving effect, and the degree of satisfaction is low.

One aspect of the embodiment is made in view of the above, and provides a toilet seat device and a power saving amount notification system capable of allowing the user to feel the power saving effect and improve the satisfaction of the user. The purpose.

The toilet seat device according to one aspect of the embodiment controls a toilet seat on which the user of the toilet bowl installed in the toilet room sits, a heater for warming the toilet seat, and power supplied to the heater, and is set in advance. The control unit includes a normal heat retention mode that keeps the temperature of the toilet seat so as to be a temperature, and a control unit that has a power saving mode that reduces the amount of electric energy supplied to the heater when the toilet seat is not in use. Expected consumption in the case of the normal heat retention mode corresponding to the period during which the power saving mode is executed based on the room temperature information of the toilet room and the set temperature information of the toilet seat and based on the room temperature information and the set temperature information. The electric energy is calculated, and the expected electric energy and the electric energy in the power saving mode are compared.

According to such a configuration, the expected power consumption when the power saving mode is executed is assumed to be the normal heat retention mode, and the expected power consumption and the power consumption in the power saving mode are compared. , The user can know how much power is saved in the power saving mode. As a result, the user can feel the power saving effect and the satisfaction level of the user can be improved.

Further, since the room temperature information is associated with the expected power consumption, the estimated power consumption can be approximated to the actual power consumption. As a result, it is possible to accurately calculate the comparison result (power saving amount) of the expected power consumption amount and the power consumption amount in the power saving mode.

Further, in the toilet seat device described above, the control unit outputs a comparison result of the expected power consumption amount and the power consumption amount in the power saving mode to the display device. According to such a configuration, the user can know how much power is saved in the power saving mode by looking at the display device. As a result, the user can feel the power saving effect and the satisfaction level of the user can be improved.

Further, in the toilet seat device described above, the control unit calculates the expected power consumption amount based on the calculation formula using the room temperature information and the set temperature information. According to such a configuration, the expected power consumption can be easily calculated.

Further, in the toilet seat device described above, the control unit controls the electric power supplied to the heater in half-wave units with respect to the sine wave of the supply power supply that supplies electric power to the heater. According to such a configuration, the power consumption (and the expected power consumption) can be easily calculated.

Further, the power saving amount notification system according to one aspect of the embodiment includes the toilet seat device described above, the toilet bowl on which the toilet seat device is installed, the expected power consumption output from the control unit, and the power consumption in the power saving mode. It is provided with a display device for displaying the comparison result of the quantity.

According to such a configuration, the comparison result of the power consumption amount and the expected power consumption amount in the power saving mode is displayed on the display device, so that the user can know how much power is saved in the power saving mode. As a result, the user can feel the power saving effect and the satisfaction level of the user can be improved.

According to one aspect of the embodiment, the user can feel the power saving effect and the satisfaction level of the user can be improved.

FIG. 1 is an explanatory diagram of a power saving amount notification system according to an embodiment. FIG. 2 is a perspective view showing a toilet device including the toilet seat device according to the embodiment. FIG. 3 is a block diagram showing an example of the toilet seat device according to the embodiment. FIG. 4 is a graph showing an example of the relationship between room temperature and electric energy. FIG. 5 is an explanatory diagram of a method of calculating the amount of power saving. FIG. 6 is a flowchart showing an example of a processing procedure for calculating the amount of power saving. FIG. 7 is a flowchart showing an example of a procedure for processing the output of the power saving amount. FIG. 8 is a flowchart showing an example of a processing procedure for cumulative resetting of the amount of power saved.

Hereinafter, embodiments of the toilet seat device and the power saving amount notification system disclosed in the present application will be described in detail with reference to the accompanying drawings. The present invention is not limited to the embodiments shown below.

<Power saving notification system>
An example of the power saving amount notification system 1 according to the embodiment will be described with reference to FIG. FIG. 1 is an explanatory diagram of the power saving amount notification system 1 according to the embodiment. As shown in FIG. 1, the power saving amount notification system 1 includes a toilet device 2 and a display device 3. The power saving amount notification system 1 passes information between the toilet device 2 and the display device 3.

The power saving amount notification system 1 is configured to pass information between the toilet device 2 and the display device 3 via, for example, a management server 4 such as the Web. The power saving amount notification system 1 notifies the user of the power saving amount in the power saving mode described later by displaying the information on the toilet device 1 side on the display device 3.

The toilet device 2 can execute a normal heat retention mode described later, which keeps the temperature of the toilet seat 12 on which the user sits at a preset temperature (set temperature) so that the user can use it comfortably. The toilet device 2 will be described later with reference to FIG.

The display device 3 is, for example, a terminal device 31 or 32 having display units 31a or 32a such as a liquid crystal screen, and is, for example, a mobile terminal device 31 such as a smartphone or a PC terminal device 32.

In the example shown in FIG. 1, the power saving amount notification system 1 exchanges information via the management server 4. For example, the toilet device 2 and the display device 3 (mobile terminal device 31 or PC terminal device 32). It may be configured to pass information directly.

<Toilet device>
Next, an example of the toilet device 2 including the toilet seat device 10 according to the embodiment will be described with reference to FIG. FIG. 2 is a perspective view showing a toilet device 2 including the toilet seat device 10 according to the embodiment.

Note that FIG. 2 shows a three-dimensional Cartesian coordinate system including the Z-axis whose positive direction is vertically upward (upward). In the following, for convenience of explanation, the positive direction of the X axis is defined as the right, the negative direction of the X axis is defined as the left, the positive direction of the Y axis is defined as the front, the negative direction of the Y axis is defined as the rear, and the X axis direction is the left and right direction. , The Y-axis direction may be referred to as the front-back direction, and the Z-axis direction may be referred to as the up-down direction.

As shown in FIG. 2, the toilet device 2 is installed on the floor surface in the toilet room TR. The toilet device 2 is not limited to the floor-standing type installed on the floor surface, and may be a wall-mounted type installed on the wall surface.

The toilet device 2 includes a toilet bowl 21 and a toilet seat device 10. The toilet bowl 21 is made of pottery. The toilet bowl 21 may be made of resin, or may be a combination of pottery and resin.

The toilet seat device 10 is installed on the toilet bowl 21. The toilet seat device 10 includes a main body portion 11, a toilet seat 12, and a toilet lid 13. The main body 11 is arranged in the upper rear part of the toilet bowl 21. The toilet seat 12 is arranged in front of the main body portion 11 and is provided so as to be swingable in the vertical direction with respect to the main body portion 11 about the toilet seat shaft portion (not shown).

The toilet seat 12 has a heating function for warming the seat surface 12a on which the user sits. Specifically, a metal member is provided inside the toilet seat 12 as a heater 13 for warming the seat surface 12a. The metal member is arranged around the opening of the toilet seat 12. By supplying electric power to such a heater 13, the toilet seat 12 is warmed.

As the heater 13 of the toilet seat 12, for example, a tubing heater, a sheathed heater, a halogen heater, a carbon heater and the like are used. The metal member of the heater 13 is made of, for example, aluminum or copper. Further, various shapes such as a sheet shape, a wire shape, and a mesh shape can be adopted for the metal member of the heater 13.

The toilet lid 14 is a lid that covers the upper part of the toilet bowl 21 when the toilet bowl 21 is not in use, and like the toilet seat 12, swings in the vertical direction with respect to the main body portion 11 about the toilet lid shaft portion (not shown). It is provided as possible.

As shown in FIG. 2, the toilet device 2 includes an operation unit 22 for operating the toilet seat device 10. The operation unit 22 is, for example, a remote controller. The operation unit 22 is arranged on the wall surface in the toilet room TR, for example.

By operating the operation unit 22, the user inputs the temperature setting of the toilet seat 12 and various operations of the toilet seat device 10. The operation of the toilet seat device 10 includes, for example, turning on / off the heating function (heater 13), resetting the set temperature of the toilet seat 12, setting the power saving function described later, and the like. The operation unit 22 transmits a signal to the control unit 15 (see FIG. 3), which will be described later, in response to an input operation by the user.

<Toilet seat device>
Next, the toilet seat device 10 according to the embodiment will be described in detail with reference to FIGS. 3 and 4. FIG. 3 is a block diagram showing an example of the toilet seat device according to the embodiment. FIG. 4 shows an example of the relationship between the room temperature (room temperature information) _TTR and the electric energy (estimated power consumption W1, expected total power consumption W1 _all , actual total power consumption W2 _all , power saving WA, total power saving WA _all). It is a graph which shows. In the graph shown in FIG. 4, the set temperature (set temperature information) of the toilet seat 12 is set to 34 ° C.

Further, in the graph shown in FIG. 4, of the left and right vertical axes, the left side is the temperature (° C.) axis, the right side is the watt hour (Wh) axis, and the room temperature information _TTR , using the left side temperature axis, The expected power consumption W1 is shown, and the expected total power consumption W1 _all , the actual total power consumption W2 _all , the power saving WA, and the total power saving WA _all are shown using the watt-hour axis on the right side. Further, in the graph shown in FIG. 4, the horizontal axis is the time (hour).

The toilet seat device 10 includes a control unit 15 as shown in FIG. 3, in addition to the main body portion 11, the toilet seat 12, and the toilet lid 13 described above. The control unit 15 is provided inside the main body 11. The control unit 15 is, for example, an arithmetic unit including an integrated circuit such as a microcomputer and a memory.

The control unit 15 is electrically connected to the heater 13. Further, the control unit 15 is communicably connected to each of the display device 3, the management server 4, and the operation unit 22. The control unit 15 has a normal heat retention mode in which the temperature of the toilet seat 12 is maintained so as to reach a set temperature preset by the user by controlling the amount of electric power supplied to the heater 13.

The control unit 15 includes a drive unit 151, and controls the drive of the heater 13 by controlling the electric power supplied to the heater 13 of the toilet seat 12 by the drive unit 151 in the normal heat retention mode. In this case, the control unit 15 controls the power supplied to the heater 13 based on a sine wave of a power supply (not shown) that supplies power to the heater 13.

The control unit 15 has a power saving mode that reduces the amount of electric power supplied to the heater 13 when the toilet seat 12 is not in use during the execution of the normal heat retention mode. The control unit 15 calculates the power saving amount WA (see FIG. 4) in the power saving mode, and displays the calculated power saving amount WA on the display device 3. As shown in FIG. 3, the control unit 15 includes an acquisition unit 152, a calculation unit 153, a comparison unit 154, a cumulative unit 155, and an output unit 156 for calculating and outputting the power saving amount WA.

_{The acquisition unit 152 acquires the room temperature information T TR} (see FIG. 4) output from the room temperature sensor 40 that detects the temperature in the toilet room TR. The acquisition unit 152 acquires the set temperature information output from the set temperature output unit 221 of the operation unit 22 and set to a predetermined temperature (for example, 34 ° C.) by the user. The acquisition unit 152 outputs the acquired room temperature information _TTR and the set temperature information to the calculation unit 153.

Based on the input room temperature information _TTR and set temperature information, the calculation unit 153 consumes power (referred to as expected power consumption) W1 (referred to as expected power consumption) in the normal heat retention mode corresponding to the period during which the power saving mode is executed. 4) is calculated. That is, the calculation unit 153 calculates the expected power consumption W1 when the power saving mode is being executed in the normal heat retention mode based on _{the room temperature information TTR and the set temperature information.}

The calculation unit 153 calculates the expected power consumption W1 based on a predetermined calculation formula using the _{room temperature information TTR and the set temperature information.} The calculation unit 153 calculates the expected power consumption WA by, for example, "expected power consumption WA = α (room temperature-set temperature) + β". Note that α and β in this formula are constants.

The calculation unit 153 may have a table in which the room temperature and the set temperature are associated with each other, and may be configured to derive the expected power consumption WA from the values of the room temperature and the set temperature.

Here, as shown in FIG. 4, the expected power consumption W1 depends on the room temperature information _TTR . That is, when the day is viewed every hour, for example, the _{power supplied to the heater 13 increases during the time period when the room temperature information TTR} is low (the temperature at which the room temperature is low), so that the expected power consumption W1 is calculated. growing. On the other hand, _{during the time period when the room temperature information TTR} is high (the temperature at which the room temperature is high), the power supplied to the heater 13 decreases, so that the expected power consumption W1 becomes small.

Further, the calculation unit 153 calculates the actual power consumption (referred to as the actual power consumption) in the power saving mode based on the set temperature information. The calculation unit 153 outputs the calculated estimated power consumption W1 and the actual power consumption to the comparison unit 154.

The comparison unit 154 compares the input expected power consumption W1 and the actual power consumption. The comparison unit 154 calculates the difference between the expected power consumption W1 and the actual power consumption, that is, the power saving amount WA. The comparison unit 154 outputs the comparison result, that is, the power saving amount WA, to the cumulative unit 155.

The accumulation unit 155 accumulates the input power saving amount WA. It is preferable that the accumulation unit 155 accumulates the power saving amount WA at every time (for example, 1 hour) in a day (24 hours). The cumulative unit 155 outputs the power saving amount WA to the output unit 156. The cumulative unit 155 may output the power saving amount WA at predetermined time intervals (for example, 1 hour) or at any time.

The control unit 15 can reset (referred to as a cumulative reset) _{the total amount of power saving WA all} accumulated in the cumulative unit 155 after a predetermined period (for example, one week) has elapsed. The cumulative reset of the power saving amount WA _all will be described later with reference to FIG.

The output unit 156 outputs the input power saving amount WA toward the display device 3. In this case, the output unit 156 may be configured to output (transmit) the power saving amount WA to the management server 4 and output it to the display device 3 via the management server 4, or directly output to the display device 3. It may be configured to do so.

Further, as the power saving amount output from the output unit 156, there are an hourly power saving amount WA and a total power saving amount WA _all (see FIG. 4). Further, the expected total power consumption W1 _all and the actual total power consumption W2 _all may be further output from the output unit 156 (see FIG. 4). By displaying the information on the power consumption on the display device 3, the user can know how much power is saved in the power saving mode.

The control unit 15 may calculate the power saving amount WA based on the output of the power supply that supplies power to the heater 13. Here, an example of a method for calculating the power saving amount WA will be described with reference to FIG. FIG. 5 is an explanatory diagram of a method of calculating the power saving amount WA. The control unit 15 controls (pattern control) the power supplied to the heater 13 in half-wave units with respect to the output watt (sine wave) of the power supply, for example.

As shown in FIG. 5, the control unit 15 controls the heater 13 by pattern control with 16 half waves as one unit. The control unit 15 calculates the actual power consumption by counting the number of half waves during the execution of the power saving mode, and counts the number of half waves reduced during the execution of the power saving mode to save the power. WA can be calculated.

The method of calculating the actual power consumption is a software method based on the output wattage of the power supply as described above, or a hardware method such as mounting a power measuring instrument and measuring with the power measuring instrument. May be good.

Next, a processing procedure for calculating the power saving amount WA by the control unit 15 will be described with reference to FIG. FIG. 6 is a flowchart showing an example of a processing procedure for calculating the power saving amount WA. When calculating the power saving amount WA, as shown in FIG. 6, the control unit 15 determines whether or not the power saving mode is being executed (step S101).

When the control unit 15 determines that the power saving mode is being executed in the process of step S101 (step S101: Yes), the control unit 15 _{acquires the room temperature information TTR} and the set temperature information (step S102). When the control unit 15 determines that the power saving mode is not executed in the process of step S101 (step S101: No), the control unit 15 ends the power saving amount WA calculation process.

When the control unit 15 _{acquires the room temperature information TTR} and the set temperature information, it acquires the actual power consumption (step S103) and the expected power consumption W1 (step S104). Either the process of step S103 or the process of step S104 may come first.

When the control unit 15 acquires the actual power consumption amount and the expected power consumption amount W1, they are compared (step S105). The control unit 15 compares the two power consumption amounts and acquires a difference (power saving amount WA).

Then, the control unit 15 accumulates the difference between the actual power consumption amount and the expected power consumption amount W1, that is, the power saving amount WA (step S106), and ends the calculation process of the power saving amount WA. The control unit 15 preferably accumulates the power saving amount WA in a predetermined period such as one day or one week.

Next, a procedure for processing the output of the power saving amount WA by the control unit 15 will be described with reference to FIG. 7. FIG. 7 is a flowchart showing an example of a procedure for processing the output of the power saving amount WA. When outputting the power saving amount WA, as shown in FIG. 7, the control unit 15 determines, for example, whether or not the output of the power saving amount WA is requested from the display device 3 or the like by the operation of the user (step). S201).

When the control unit 15 determines that the output of the power saving amount WA is requested in the process of step S201 (step S201: Yes), the control unit 15 outputs the power saving amount WA to the display device 3 (step S202), and the power saving amount WA is output. The WA output process ends. When the control unit 15 determines that the output of the power saving amount WA is not required in the processing of step S201 (step S201: No), the control unit 15 ends the power saving amount WA output processing.

Next, a procedure for processing the cumulative reset of the power saving amount WA by the control unit 15 will be described with reference to FIG. FIG. 8 is a flowchart showing an example of a processing procedure for cumulative reset of the power saving amount WA. The power saving amount WA calculated by the control unit 15 is stored in, for example, a storage unit (not shown) of the control unit 15.

Then, when the cumulative reset of the power saving amount WA stored in the control unit 15 is performed, as shown in FIG. 8, the control unit 15 cumulatively resets the power saving amount WA from the display device 3 or the like by the operation of the user, for example. Is determined (step S301).

When the control unit 15 determines that the cumulative reset of the power saving amount WA is requested in the process of step S301 (step S301: Yes), the control unit 15 performs the cumulative reset of the power saving amount WA (step S302), and the cumulative power saving amount WA is accumulated. The reset process ends. When the control unit 15 determines that the cumulative reset of the power saving amount WA is not requested in the process of step S301 (step S301: No), the control unit 15 ends the cumulative reset process of the power saving amount WA.

As described above, according to the toilet seat device 10 according to the embodiment, the expected power consumption W1 and the power consumption in the power saving mode are compared when the period in which the power saving mode is executed is the normal heat retention mode. By doing so, the user can know how much power is saved in the power saving mode. As a result, the user can feel the power saving effect and the satisfaction level of the user can be improved.

Further, since the estimated amount of power consumption W1 associated climate information T _TR toilet room TR, may correspond like local climate and seasons toilet seat apparatus 10 is used, the expected power consumption W1 It can be approximated to the actual power consumption. As a result, the power saving amount WA can be calculated accurately.

Further, the user can know how much power is saved in the power saving mode by looking at the display device 3. As a result, the user can feel the power saving effect and the satisfaction level of the user can be improved.

Further, by calculating the expected power consumption W1 based on the calculation formula using the room temperature information _TTR and the set temperature information, the expected power consumption W1 can be easily calculated. Further, by performing pattern control in which the control unit 15 controls the heater 13 in half-wave units with respect to the sine wave of the power supply, the power consumption amount and the expected power consumption amount W1 can be easily calculated.

Further, according to the power saving amount notification system 1 according to the embodiment, the power saving amount WA in the power saving mode is displayed on the display device 3, and the user can know how much power is saved in the power saving mode. As a result, the user can feel the power saving effect and the satisfaction level of the user can be improved.

Although the above-mentioned toilet seat device 10 has a heating function for warming the toilet seat 12, the toilet seat device 10 has a heating function for the toilet seat 12, a cleaning function (cleaning unit) for cleaning the human body, and a toilet. It may have a deodorizing function (deodorizing unit) for removing the malodor of the chamber TR and the toilet bowl 21.

Further, the toilet seat device 10 may be configured to calculate the power saving amount of the power supplied to each function including the cleaning function and the deodorizing function in the power saving mode, and display the power saving amount on the display device 3.

Further, in the toilet seat device 10 and the power saving amount notification system 1 described above, the toilet seat device 10 basically holds the date and time data, but for example, the elapsed time is recognized from the communication with the display device 3 and the management server 4. It may be configured in.

Further effects and variations can be easily derived by those skilled in the art. For this reason, the broader aspects of the invention are not limited to the particular details and representative embodiments expressed and described above. Therefore, various modifications can be made without departing from the spirit or scope of the general concept of the invention as defined by the appended claims and their equivalents.

1 Power saving notification system 10 Toilet seat device 12 Toilet seat 13 Heater 15 Control unit 21 Toilet bowl TR Toilet room T _TR Room temperature information W1 Estimated power consumption

Claims (5)

The toilet seat on which the user of the toilet installed in the toilet room sits,
A heater that warms the toilet seat and
A normal heat retention mode that controls the electric power supplied to the heater and keeps the temperature of the toilet seat so as to reach a preset set temperature, and reduces the amount of electric power supplied to the heater when the toilet seat is not in use. A control unit with a power saving mode and
With
The control unit acquires the room temperature information of the toilet room and the set temperature information of the toilet seat, and based on the room temperature information and the set temperature information, the normal heat retention mode corresponding to the period during which the power saving mode is executed. A toilet seat device that calculates the expected power consumption in the case of The toilet seat device according to claim 1, wherein the control unit outputs a comparison result of the expected power consumption amount and the power consumption amount in the power saving mode to the display device. The toilet seat device according to claim 1 or 2, wherein the control unit calculates the expected power consumption based on a calculation formula using the room temperature information and the set temperature information. The toilet seat device according to any one of claims 1 to 3, wherein the control unit controls the electric power supplied to the heater in half-wave units with respect to a sine wave of the supply power supply that supplies electric power to the heater. The toilet seat device according to any one of claims 1 to 4,
The toilet bowl on which the toilet seat device is installed and
A display device that displays a comparison result of the expected power consumption and the power consumption in the power saving mode output from the control unit.
A power saving notification system equipped with.