JP2014189997A - Toilet device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a toilet device capable of cleaning a toilet bowl for an extended period in a state where power supply from an external power source is stopped.SOLUTION: A toilet device 100 comprises: a toilet bowl body 200; a sanitary washing device 400 which has a discharge nozzle 420 to clean human body private parts and is installed on an upper surface of the toilet bowl body 200; a nozzle feed-water valve 442 which starts or stops supply of washing water to the discharge nozzle 420; first control means 444 which controls performance of the nozzle feed-water valve 442; a toilet bowl feed-water valve 242 which starts or stops the supply of washing water to the toilet bowl body 200; and second control means 244 which controls the performance of the toilet bowl feed-water valve 242. The first control means 444 and the second control means 244 are driven by power supply from an external power source 600. The toilet device 100 also has an internal power source 800 which supplies power not to the first control means 444 but to the second control means 244 when the power supply from the external source 600 is stopped.

Description

  The present invention relates to a toilet device, and more particularly, to a toilet device including a sanitary washing device having a water discharge nozzle for washing a human body part.

  2. Description of the Related Art Conventionally, a toilet apparatus that includes a plurality of functional units that execute various functions and has a control unit that controls the operation of each functional unit is known (for example, see Patent Document 1). Usually, one of the functional units is supplied with power from an external power source, and the other functional units are supplied with power through a functional unit that receives power supplied from the external power source. In addition, as a toilet device of this type, a sanitary cleaning device having a water discharge nozzle for cleaning a human body part and provided on the upper surface of the toilet body, a nozzle water supply valve capable of supplying cleaning water to the water discharge nozzle, and a nozzle water supply valve There is provided a first control means for controlling the operation, a toilet water supply valve capable of supplying wash water to the toilet body, and a second control means for controlling the operation of the toilet water supply valve.

Japanese Patent Laid-Open No. 11-336160

  In the toilet apparatus as described above, when the power supply from the external power supply is stopped due to a power failure or the like, the operation of the first water supply valve and the toilet water supply valve is controlled by the internal power supply such as a dry battery. When the second control unit is driven together, the power consumption of the internal power supply increases. Therefore, there is a concern that the period during which the toilet bowl can be cleaned becomes shorter in a state where the power supply from the external power supply is stopped due to a power failure or the like due to the power consumption of the internal power supply being consumed earlier.

  The present invention has been made to solve the above-described problems, and provides a toilet device capable of performing toilet cleaning for a longer period in a state where power supply from an external power supply is stopped. With the goal.

  The present invention is a toilet apparatus comprising a toilet main body and a sanitary cleaning device having a water discharge nozzle for cleaning a human body part and provided on the upper surface of the toilet main body, and supplying cleaning water to the water discharge nozzle The nozzle water supply valve to be started or stopped, the first control means for controlling the operation of the nozzle water supply valve, the toilet water supply valve for starting or stopping the supply of cleaning water to the toilet body, and the operation of the toilet water supply valve Second control means for controlling, wherein the first control means and the second control means are driven by power supply from an external power supply, and power supply from the external power supply is stopped In this case, the first control means is a toilet apparatus provided with an internal power source for supplying power without supplying power to the second control means.

  In the present invention configured as described above, when the power supply from the external power supply is stopped due to a power failure or the like, the first control unit is not driven while the second control unit is driven. Therefore, the power consumption of the internal power supply is less than when both the first control means and the second control means are driven. Therefore, the drive time of the 2nd control part by an internal power supply can be lengthened, and when the electric power supply from an external power supply has stopped, a toilet bowl water supply valve is operated for a longer period, and a toilet bowl main body is wash | cleaned. it can.

  The present invention further includes a capacitor that is charged by power supply from at least one of the external power source and the internal power source and that supplies power to the toilet water supply valve, and the internal power source is controlled by the second control unit. The second control means has a regulator that controls the drive and adjusts the power output from the internal power supply, and the power supply from the external power supply is stopped. In this case, the regulator is driven, power is supplied by the internal power supply so that the voltage of the capacitor is equal to or higher than a predetermined voltage, and when the voltage of the capacitor is higher than a predetermined voltage, the regulator is not driven, A configuration may be adopted in which power is not supplied to the capacitor by the internal power supply.

  In the present invention configured as described above, when the power supply from the external power supply is stopped due to a power failure or the like, the second control means controls the regulator so that the voltage of the capacitor becomes equal to or higher than the predetermined voltage. It becomes possible to operate the toilet water supply valve.

  The present invention further includes a voltage detection means for detecting the voltage of the internal power supply, and the toilet flush valve in the state where the power supply from the external power supply is stopped based on the voltage detected by the voltage detection means. It is good also as a structure provided with the display means which displays the frequency | count which can be driven and the said toilet bowl main body can be wash | cleaned.

  In the present invention configured as described above, the number of times that the toilet body can be washed is displayed by the display means, so that the toilet apparatus can be safely used even when the power supply from the external power supply is stopped due to a power failure or the like. Can be used.

  According to the toilet apparatus of the present invention, toilet cleaning can be performed over a longer period in a state where power supply from an external power supply is stopped.

The lineblock diagram showing roughly the toilet device concerning one embodiment of the present invention. The block diagram which shows the 2nd function part of the toilet apparatus which concerns on one Embodiment of this invention. The flowchart which shows operation | movement when the electric supply from the external power supply of the toilet apparatus which concerns on one Embodiment of this invention stops.

Hereinafter, a toilet apparatus according to an embodiment of the present invention will be described with reference to the drawings.
First, the configuration of a toilet apparatus according to an embodiment of the present invention will be described with reference to FIG. FIG. 1 is a configuration diagram schematically showing a toilet apparatus according to an embodiment of the present invention.

  As shown in FIG. 1, a toilet apparatus 100 according to an embodiment of the present invention includes a toilet body 200 placed on a floor surface (not shown) and a sanitary washing device 400 provided on the upper surface of the toilet body 200. With. The toilet body 200 is formed with a spout (not shown) for discharging cleaning water in order to wash the toilet body 200. Note that only one water discharge port (not shown) may be formed, or a plurality of water discharge ports may be formed. The sanitary washing device 400 includes a water discharge nozzle 420 that cleans the human body part.

  Further, the toilet apparatus 100 includes a first function unit 440 supplied with power from the external power source 600, a second function unit 240 supplied with power from the external power source 600 via the first function unit 440, and the external power source 600. Display means 700 for displaying the number of times the toilet main body 200 can be washed when the power supply is stopped. In addition, the toilet device 100 can be operated when the power supply from the external power supply 600 is stopped due to a power failure or the like, so that flush water can be discharged from a water outlet (not shown) and the toilet body 200 can be washed. A cleaning operation unit 750 is provided.

  The first function unit 440 includes a nozzle water supply valve 442 that starts or stops the supply of cleaning water to the water discharge nozzle 420, and a first microcomputer 444 (first control unit) that controls the operation of the nozzle water supply valve 442. .

  The nozzle water supply valve 442 is an electromagnetic valve, which is driven based on power supply from the external power source 600 and opens and closes a nozzle-side flow path 460 that connects a water supply source (not shown) and the water discharge nozzle 420. The supply of cleaning water to the water discharge nozzle 420 is started or stopped. The first microcomputer 444 is driven by power supply from the external power source 600 and controls the operation of the nozzle water supply valve 442 based on an operation by a user to an operation unit (not shown).

  The second function unit 240 includes a toilet water supply valve 242 that starts or stops the supply of the wash water to the toilet body 200, a second microcomputer 244 (second control unit) that controls the operation of the toilet water supply valve 242, and the And an internal power supply 800 connected to the second microcomputer 244. The second functional unit 240 includes an electrolytic capacitor 246 (capacitor) and a voltage detection IC 248 (see FIG. 2), details of which will be described later.

  The toilet water supply valve 242 is a latch-type electromagnetic valve, and is driven by power supply from the external power supply 600 via the first function unit 440, and communicates a water supply source (not shown) and a water outlet (not shown). By opening and closing the toilet-side flow path 260, the supply of the wash water to the toilet body 200 is started or stopped. The second microcomputer 244 is driven by power supply from the external power supply 600 via the first function unit 440 or power supply from the internal power supply 800, and is used for the operation unit (not shown) or the cleaning operation unit 750. Based on the operation by the person, the operation of the toilet water supply valve 242 is controlled. Further, the second microcomputer 244 has a standby mode for stopping power consumption in the second microcomputer 244 by stopping functions other than the minimum necessary functions when it is not necessary to control the operation of the toilet water supply valve 242. This standby mode can be canceled by operating the operation unit (not shown) or the cleaning operation unit 750 by the user.

  Although details will be described later, the internal power supply 800 does not supply power to the first microcomputer 444 but supplies power to the second microcomputer 244 when power supply from the external power supply 600 to the first function unit 440 is stopped. Configured as possible.

  The display means 700 is provided on the wall surface (not shown) of the toilet room or the sanitary washing device 400, and when the power supply from the external power supply 600 to the first function unit 440 is stopped, the internal power supply 800 is displayed. The number of times that the toilet main body 200 can be washed based on the voltage is displayed. Further, the display unit 700 is constituted by an LED or the like, and always displays the number of times that cleaning is possible in a state where the power supply from the external power source 600 is stopped. Note that the number of times that cleaning is possible is not always displayed, but may be displayed only when the number of times that cleaning is possible is several times (for example, three times). Further, the display unit 700 may be provided in an operation unit (not shown).

Next, the 2nd function part of the toilet apparatus which concerns on one Embodiment of this invention with FIG. 2 is demonstrated. FIG. 2 is a block diagram showing a second functional part of the toilet apparatus according to one embodiment of the present invention.
As shown in FIG. 2, the second function unit 240 includes a toilet water supply valve 242, an electrolytic capacitor 246, a voltage detection IC 248, a second microcomputer 244, and an internal power supply 800.

  The electrolytic capacitor 246 is charged by power supply from the external power supply 600 via the first function unit 440 or power supply from the internal power supply 800, and the toilet water supply valve 242 is operated by the charged power. The voltage detection IC 248 detects the voltage of the electrolytic capacitor 246, and based on the detected voltage, the second microcomputer 244 can cause the internal power supply 800 to supply power to the electrolytic capacitor 246.

  The internal power supply 800 includes an electric double layer capacitor 820 charged by power supply from the external power supply 600 via the first function unit 440, a dry battery 840 connected in parallel with the electric double layer capacitor 820, and a second microcomputer. And a regulator 860 whose driving is controlled by the H.244. Note that the internal power supply 800 in the present invention is not limited to such a configuration. For example, a capacitor other than an electric double layer capacitor may be used, and the dry battery 840 may not be used. The configuration of the internal power supply 800 can be determined as appropriate from the magnitude of the voltage required for the internal power supply 800, other configurations of the toilet device 100, and the like.

  The electric double layer capacitor 820 and the dry battery 840 can supply power to the second microcomputer 244 and the electrolytic capacitor 246 via the regulator 860. Further, the voltage of the electric double layer capacitor 820 and the dry battery 840 is detected by the second microcomputer 244. Based on the detected voltage, the second microcomputer 244 determines the power that can be supplied to the electrolytic capacitor 246 and the number of times that the toilet water supply valve 242 can be operated to clean the toilet body 200 using the power, and the display unit 700 To display the number of times. That is, the second microcomputer 244 functions as voltage detection means. In the present embodiment, the internal power supply 800 includes the dry battery 840, but the present invention is not limited to such a configuration, and may be configured without the dry battery 840. In the present embodiment, the voltage of the electric double layer capacitor 820 and the dry battery 840, that is, the internal power supply 800 is detected by the second microcomputer 244, but the present invention is not limited to such a configuration. . For example, the voltage of the internal power supply 800 may be detected by a voltage detection IC.

  The regulator 860 is driven by power supplied from the electric double layer capacitor 820 and the dry battery 840, and is controlled by the second microcomputer 244 to adjust the power output to the second microcomputer 244 and the electrolytic capacitor 246. Further, the regulator 860 is a standby unit that stops power consumption in the regulator 860 by stopping functions other than the minimum necessary when the toilet water supply valve 242 does not need to be operated, that is, when the electrolytic capacitor 246 is not required to be charged. Has a mode. This standby mode can be canceled based on a signal input from the second microcomputer 244. Specifically, the standby mode of the regulator 860 is canceled by the second microcomputer 244 when the voltage of the electrolytic capacitor 246 detected by the voltage detection IC 248 is less than a predetermined voltage (for example, 4.7 V). The standby mode of the regulator 860 is canceled when the standby mode of the second microcomputer 244 is canceled, that is, when the operation unit (not shown) or the cleaning operation unit 750 is operated by the user.

  Next, with reference to FIGS. 1-3, the operation | movement when the electric supply from the external power supply of the toilet apparatus which is one Embodiment of this invention stops is demonstrated. FIG. 3 is a flowchart showing an operation when the electric supply from the external power supply of the toilet apparatus according to the embodiment of the present invention is stopped.

  As shown in FIG. 3, in a normal state (step S <b> 100) in which power is supplied from the external power supply 600 to the first function unit 440, the second microcomputer 244 is externally connected via the first function unit 444. By stopping the power supply from the power supply 600, the stop of the power supply from the external power supply 600 to the first function unit 440 due to a power failure or the like is detected (step S104).

  When it is detected that the power supply from the external power source 600 to the first function unit 440 is stopped (step S104: Y), the second microcomputer 244 determines the voltage of the electric double layer capacitor 820 and the dry battery 840, that is, The voltage of the internal power supply 800 is detected (step S108). Based on the detected voltage of the internal power supply 800, the second microcomputer 244 determines the power that can be supplied to the electrolytic capacitor 246 and the number of times that the toilet main body 200 can be cleaned by operating the toilet water supply valve 242 using the power. The number of times is displayed on the display means 700 (step S112). At this time, the second microcomputer 244 is driven by power supply from the internal power supply 800.

  Next, the second microcomputer 244 shifts the regulator 860 to the standby mode, and then the second microcomputer 244 itself shifts to the standby mode (step S116).

  If the cleaning operation unit 750 is not operated after shifting to the standby mode (step S118: N), the voltage detection IC 248 detects the voltage of the electrolytic capacitor 246, and the second microcomputer 244 determines whether the detected voltage is less than a predetermined voltage. It is determined whether or not (step S120).

  When the voltage of the electrolytic capacitor 246 is less than the predetermined voltage (step S120: Y), the second microcomputer 244 cancels its standby mode, and then cancels the standby mode of the regulator 860 (step S124). After canceling the standby mode, the second microcomputer 244 drives the regulator 860 to supply power from the internal power supply 800 to the electrolytic capacitor 246 and charge the electrolytic capacitor 246 (step S128). After charging the electrolytic capacitor 246, the second microcomputer 244 detects the voltage of the internal power supply 800 again (step S104: Y) when the stop of the supply of electric energy from the external power supply 600 is still detected (step S104: Y). S108).

  After the transition to the standby mode, if there is an operation on the cleaning operation unit 750 (step S118: Y), the second microcomputer 244 cancels its own standby mode, and then cancels the standby mode of the regulator 860 (step S136). After canceling the standby mode, the second microcomputer 244 drives the regulator 860 to supply power from the internal power supply 800 to the electrolytic capacitor 246 and charge the electrolytic capacitor 246 (step S138). The second microcomputer 244 opens the toilet water supply valve 242 for a predetermined time by the electric power charged in the electrolytic capacitor 246, supplies cleaning water to the toilet body 200, and cleans the toilet body 200 (step S140). After cleaning the toilet main body 200, the second microcomputer 244 detects the voltage of the internal power supply 800 again (step S108) when the stop of the electric power supply from the external power supply 600 is still detected (step S104: Y). .

  When the stop of the power supply from the external power source 600 is not detected (step S104: N), the process shifts to the normal state (step S160). In the present invention, the second microcomputer 244 may detect the operation of the first microcomputer 444 and detect the stop of the power supply from the external power supply 600 based on the detection.

  According to the toilet apparatus 100 according to the embodiment of the present invention described above, when the power supply from the external power supply 600 is stopped due to a power failure or the like, the first microcomputer 444 is not driven while the second microcomputer 244 is driven. Therefore, the power consumption of the internal power supply 800 is less than when both the first microcomputer 444 and the second microcomputer 244 are driven. Therefore, the driving time of the second microcomputer 244 and the toilet water supply valve 242 by the internal power supply 800 can be lengthened, and the toilet water supply valve 242 is operated for a longer period in a state where the power supply from the external power supply 600 is stopped. The toilet body 200 can be cleaned.

  Furthermore, according to the toilet device 100 according to the embodiment of the present invention described above, when the power supply from the external power supply 600 is stopped due to a power failure or the like, the second microcomputer 244 causes the voltage of the electrolytic capacitor 246 to be less than a predetermined voltage. Since the regulator 860 is controlled so that it does not become necessary, the operation of the toilet water supply valve 242 that is required at least is possible even when a power failure occurs. Further, since the regulator 860 has a standby mode, power consumption in the electric double layer capacitor 820 and the dry battery 840 can be suppressed, and the driving time of the second microcomputer 244 and the toilet water supply valve 242 by the internal power supply 800 can be extended. In the state where the power supply from the external power source 600 is stopped, the toilet body water supply valve 242 can be operated for a longer period of time, and the toilet body 200 can be cleaned.

  Further, according to the toilet apparatus 100 according to the embodiment of the present invention described above, the display unit 700 displays the number of times that the toilet body 200 can be washed, thereby supplying power from the external power source 600 due to a power failure or the like. The toilet apparatus 100 can be used with peace of mind even when the toilet stops.

DESCRIPTION OF SYMBOLS 100 ... Toilet apparatus 200 ... Toilet bowl main body 240 ... 2nd function part 242 ... Toilet bowl water supply valve 244 ... 2nd microcomputer 246 ... Electrolytic capacitor 248 ... Voltage detection IC
260: Toilet side water supply channel 400 ... Sanitary washing device 420 ... Water discharge nozzle 440 ... First functional unit 442 ... Nozzle water supply valve 444 ... First microcomputer 460 ... Nozzle side water supply channel 600 ... External power supply 700 ... Display means 750 ... Cleaning operation unit 800 ... Internal power source 820 ... Electric double layer capacitor 840 ... Dry cell 860 ... Regulator

Claims (3)

A toilet device comprising a toilet body and a sanitary washing device provided on the upper surface of the toilet body having a water discharge nozzle for cleaning a human body part,
A nozzle water supply valve for starting or stopping the supply of cleaning water to the water discharge nozzle, and first control means for controlling the operation of the nozzle water supply valve;
A toilet water supply valve for starting or stopping the supply of washing water to the toilet body, and second control means for controlling the operation of the toilet water supply valve,
The first control means and the second control means are driven by power supply from an external power source,
A toilet apparatus including an internal power source that supplies power to the second control unit without supplying power to the first control unit when power supply from the external power source is stopped. A capacitor that is charged by power supply from at least one of the external power supply and the internal power supply and that supplies power to the toilet water supply valve;
The internal power supply has a regulator whose drive is controlled by the second control means to adjust the power output from the internal power supply,
In a state where the power supply from the external power supply is stopped, the second control means is
When the voltage of the capacitor is less than a predetermined voltage, the regulator is driven, and power is supplied from the internal power supply so that the voltage of the capacitor is equal to or higher than a predetermined voltage.
2. The toilet apparatus according to claim 1, wherein when the voltage of the capacitor is equal to or higher than a predetermined voltage, the regulator is not driven, and power is not supplied to the capacitor by the internal power source. Voltage detection means for detecting the voltage of the internal power supply;
Display means for displaying the number of times the toilet flushing valve can be driven and the toilet main body can be washed in a state where power supply from the external power supply is stopped based on the voltage detected by the voltage detection means; The toilet device according to claim 1 or 2, further comprising: