JP6134946B6 - Washing water supply system, sanitary equipment and cleaning water supply method - Google Patents

Description

  The present invention relates to a cleaning water supply system, a sanitary facility, and a cleaning water supply method.

  A washing water supply system is known in which the water in the bathtub is used as flush water for the toilet bowl by connecting the bathtub and the toilet bowl with piping and feeding the water after bathing in the bathtub to the toilet bowl via a pump (for example, Patent Document 1 and Patent Document 2).

JP 2013-104206 A JP 2013-104207 A

  However, in the above-described washing water supply system, the water in the bathtub is supplied to the toilet via a pipe connecting the bathtub and the toilet. After toilet flushing, the water supplied from the bathtub may accumulate in the pipe connecting the bathtub and the toilet bowl, adhere to the inner surface of the toilet bowl, or stay in the toilet bowl. Here, if the water in the bathtub contains impurities such as scale or dirt, the water in the bathtub will remain in the water supply path in the bathtub, for example, in the pipe connecting the bathtub and the toilet or in the toilet. If it accumulates, impurities may adhere to the inside of the pipe or the toilet, and there is a risk of causing proliferation of germs.

  The present invention has been made in view of such circumstances, and an object thereof is to provide a cleaning water supply system, a sanitary facility, and a cleaning water supply method that suppress adhesion of impurities in a water supply path in a bathtub. It is.

  One aspect of the present invention is a flush water supply system that supplies bathtub water to a toilet through a pipe connected to a bathtub and a toilet, and inputs an instruction to wash the inside of the pipe of the path And a second washing mode for supplying a larger amount of bathtub water than the bathtub water supplied in the first washing mode for supplying the bathtub water to the toilet and discharging the filth in the toilet. And a control unit to be executed.

  Moreover, one aspect of the present invention is the above-described washing water supply system, wherein a temperature determination unit that determines whether a measurement result obtained from a temperature sensor that measures the temperature of the bathtub water is equal to or higher than a temperature reference value. The control unit supplies the bath water in the second cleaning mode based on the instruction when the measurement result is equal to or higher than the temperature reference value based on the determination result of the temperature determination unit. It is characterized by that.

  Further, one aspect of the present invention is the above-described cleaning water supply system, wherein the amount of bathtub water supplied via the path in the second cleaning mode is the amount of the bath water supplied in the first cleaning mode. More than the amount of bathtub water per unit time supplied via the route.

  Moreover, 1 aspect of this invention is the washing water supply system mentioned above, Comprising: The time which supplies the said bathtub water via the said path | route in the said 2nd washing mode is the said washing water in the said 1st washing mode. It is longer than the time for supplying to the toilet.

  One embodiment of the present invention is a sanitary facility that supplies bathtub water to the toilet bowl through a pipe connected to a bathtub and a toilet, and inputs an instruction to clean the inside of the pipe of the path And a second washing mode for supplying a larger amount of bathtub water than the bathtub water supplied in the first washing mode for supplying the bathtub water to the toilet and discharging the filth in the toilet based on the instructions. And a control unit comprising:

  One embodiment of the present invention is a flush water supply method for supplying bathtub water to the toilet bowl via a pipe connected to the bathtub and the toilet, and an instruction to wash the inside of the pipe of the path is input And supplying the bathtub water in the first washing mode for supplying the bathtub water to the toilet and discharging the filth in the toilet based on the instruction. And a control step having a cleaning mode.

  As described above, according to the present invention, the water in the bathtub is supplied from the inside of the bathtub to the toilet bowl at a flow rate higher than usual, or is supplied for a longer time than usual. Thereby, it can suppress that a dirt adheres to the supply path of the water in a bathtub.

It is a figure showing an example of composition of washing water supply system 1 in an embodiment of the present invention. It is a functional block diagram of the control apparatus 19 in embodiment of this invention. It is a flowchart of piping washing in an embodiment of the present invention. It is a figure which shows the structural example of the toilet bowl 3a in other embodiment.

  Hereinafter, a cleaning water supply system 1 according to an embodiment of the present invention will be described with reference to the drawings. FIG. 1 is a diagram illustrating a configuration example of a cleaning water supply system 1 according to an embodiment of the present invention. The washing water supply system 1 according to the embodiment of the present invention is a system that supplies water in a bathtub 2 installed in a house or the like as washing water to a flush toilet 3 and discharges filth from the toilet 3.

  In FIG. 1, a washing water supply system 1 supplies water such as remaining hot water in a bathtub 2 installed in a house or the like as washing water to a western style toilet 3 as a flush toilet. It is a system that can discharge filth. Moreover, the control apparatus 19 in the washing water supply system 1 determines whether the water in the bathtub 2 is supplied to the western-style toilet 3 as washing water (details will be described later). First, the configuration will be described in the order of the Western-style toilet 3, the bathtub 2, and the washing water supply system 1.

  As shown in FIG. 1, the Western-style toilet 3 is integrally provided with a toilet bowl 4, a rim 5, and a trap portion 7 that communicates the toilet bowl 4 and the drain outlet 6. The rim 5 is provided on the inner surface of the upper edge of the toilet bowl 4.

  The trap portion 7 is a passage having one end opened at the bottom of the toilet bowl 4 and the other end communicating with the drain port 6. The trap part 7 opens to the bottom of the toilet bowl 4 and gradually rises upward from one end to the other end, and a descending area part communicating from the ascending area part 7a downward to the drain port 6 7b and the Western-style toilet bowl 3 is a so-called siphon wash-off toilet bowl.

  The bathtub 2 has a suction port 10 capable of supplying water in the bathtub 2 to the outside of the bathtub 2, a connecting pipe 12 having one end connected to the suction port 10 and the other end connected to the pump 13, and And a pump 13 connected to the connecting pipe 12.

The pump 13 is driven based on a drive signal from the control device 19 so that the water in the bathtub 2 sucked from the suction port 10 via the connection pipe 12 is supplied via the water supply pipe 31 and the rim water supply pipe 15. Then, it is supplied to the inner surface of the rim 5 of the western style toilet 3.
When the pump 13 receives the first drive signal for operating the pump 13 from the control device 19, the pump 13 absorbs the normal amount of the bath water and supplies it to the inner surface of the rim 5 of the Western-style toilet 3. The normal flow rate is a flow rate at which the bathtub water in the bathtub 2 is fed into the pipe when filth is excreted. The flow rate in the present embodiment is the amount of water supplied per unit time.
When the pump 13 receives the second drive signal for operating the pump from the control device 19, the pump 13 absorbs a larger amount of bathtub water than the amount of bathtub water flowing in the pipe at the time of normal toilet flushing. Supply to the inner surface of the rim 5. When the pump 13 does not receive the first drive signal or the second drive signal from the control device 19, the pump 13 does not absorb the bath water and does not feed the bath water into the pipe.

  Further, as shown in FIG. 1, a temperature sensor 100 is provided. The temperature sensor 100 is a sensor whose resistance value changes according to temperature, such as a thermistor, and detects the temperature of water in the bathtub 2. The detection result of the temperature sensor 100 is input to the control device 19. The temperature sensor 100 may be provided on the inner peripheral surface of the bathtub 2 as long as the temperature of the water in the bathtub 2 can be detected, or provided in a pipe connected to the bathtub 2 and supplied with the water in the bathtub 2. May be.

As shown in FIG. 1, the rinsing water supply system 1 includes a rim water supply pipe 15 as a water supply pipe, a water supply water supply section 16, an in-tub water supply section 17, a switch device 18, and a control device 19. I have.
One end of the rim water supply pipe 15 is connected to the rim 5 of the western style toilet 3 and is connected to the western style toilet 3. The rim water supply pipe 15 guides the cleaning water supplied from the water supply section 16 and the in-tub water supply section 17 to the inner surface of the rim 5 and supplies it to the western style toilet 3.

Next, the water supply unit 16 includes a water pipe 20, a rim open / close valve 21 as an on / off valve, a rim vacuum breaker 23 as an open valve, and a rim side connecting pipe 25.
The water supply pipe 20 is supplied with water from the water supply. The water pipe 20 is connected to the rim on-off valve 21, and the water from the water supply is used as cleaning water via the rim on-off valve 21, the rim-side connecting pipe 25, the rim vacuum breaker 23, and the rim water supply pipe 15. Then, water is supplied to the Western-style toilet 3.
The rim on-off valve 21 is provided between the water pipe 20 and the rim water supply pipe 15 by connecting the water pipe 20 and one end of the rim-side connection pipe 25. The rim opening / closing valve 21 opens and closes the flow path of the clean water from the clean water pipe 20 to the rim water supply pipe 15 via the rim side connection pipe 25.

The rim vacuum breaker 23 is connected to the other end of the rim-side connecting pipe 25 and the other end of the rim water supply pipe 15. Thus, the rim vacuum breaker 23 is provided between the upper water pipe 20 and the rim water supply pipe 15 and closer to the western style toilet 3 than the rim on-off valve 21. In the rim vacuum breaker 23, even if the pressure of clean water in the rim side connection pipe 25 is lower than the pressure of water in the rim water supply pipe 15, that is, the rim side connection pipe 25 and the water supply pipe 20 side have negative pressure. However, the water in the rim water supply pipe 15 is prevented from flowing back to the rim side connection pipe 25 or the water pipe 20 side.
The rim-side connection pipe 25 has one end connected to the rim open / close valve 21 and the other end connected to the rim vacuum breaker 23.

  With the above configuration, when the rim opening / closing valve 21 is opened, the clean water supply section 16 supplies clean water from the clean water pipe 20 via the rim side connection pipe 25, the rim vacuum breaker 23, and the rim supply pipe 15. Water is supplied from the inner surface of the rim 5 of the western-style toilet 3 in the circumferential direction of the western-style toilet 3. The drinking water supply unit 16 causes the drinking water to flow in the circumferential direction on the inner surface of the toilet bowl 4 of the western-style toilet 3, and cleans the inner surface of the toilet bowl 4 of the western-style toilet 3 with the drinking water.

  In this way, the water supply unit 16 is connected to the Western-style toilet 3 via the rim water supply pipe 15 or the like, and supplies the clean water as water to the Western-style toilet 3 via the rim water supply pipe 15 or the like. To do. Moreover, the water supply part 16 is provided with the rim opening / closing valve 21 described above, and can supply water in the bathtub 2 as washing water to the rim 5 of the western style toilet 3. Thus, the western style toilet bowl 3 of the present embodiment is a so-called tankless western style toilet bowl in which the water from the water supply is not once stored in the tank or the like.

Next, the in-tub water supply unit 17 includes the above-described pump 13, a pipe 28, a flow meter 29 as a flow rate detection unit, and a rim-side water supply pipe 31.
The pipe 28 has one end connected to the pump 13 and the other end connected to the flow meter 29. A part of the pipe 28 is raised to a position higher than the western style toilet 3.
The flow meter 29 is provided on the other end side of the pipe 28 and includes an impeller rotated by the water flowing in the pipe 28 and detects the flow rate of water in the pipe 28. The flow meter 29 outputs a flow rate signal indicating the detected flow rate of water in the pipe 28, for example, one pulse signal to the control device 19 every time the impeller rotates once.
The rim-side water supply pipe 31 has one end connected to the flow meter 29 and the other end connected to a part of the path of the rim water supply pipe 15.

  In this way, the rim-side water supply pipe 31 is connected to the rim water supply pipe 15, so that the water supply section 17 in the bathtub has a rim water supply pipe 15 rather than the on-off valve 21 and vacuum breaker 23 of the water supply section 16. Is connected to the Western style toilet 3 side.

The switch device 18 is connected to the control device 19. The switch device 18 is provided on a side wall of the toilet bowl 4 of the toilet 3 or an inner wall surface of a house.
The switch device 18 includes a cleaning button to which a cleaning mode is assigned, a piping route cleaning button to which a piping route cleaning mode is assigned, and a toilet cleaning button to which a toilet cleaning mode is assigned.
The cleaning mode is a mode for discharging filth in the toilet bowl.
The pipe path cleaning mode is at least a part of a path (for example, the pipe 28, the rim-side water supply pipe 31, etc.) until water in the bathtub is supplied into the toilet and discharged outside the toilet using the water in the bathtub. This is a mode in which everything is washed.
The toilet bowl cleaning mode is a mode in which the inside of the toilet bowl 3 is washed using hot bath water in the bathtub 2.
When the user presses any one of the cleaning button, the piping cleaning button, and the toilet cleaning button, the switch device 18 outputs a mode that is a signal corresponding to the button to the control device 19.

FIG. 2 is a functional block diagram of the control device 19 in the embodiment of the present invention.
The control device 19 has a plurality of input ports. At least the flow meter 29, the switch device 18, and the temperature sensor 100 are connected to the input port of the control device 19. At least an on-off valve 21, a vacuum breaker 23, and a pump 13 are connected to the output port of the control device 19. The control device 19 is an arithmetic device including a RAM, a ROM, a CPU, an input / output port, and the like (not shown).
The control device 19 includes an input unit 191, a temperature determination unit 192, a control unit 193, and a flow rate determination unit 194.
The input unit 191 is connected to the switch device 18 and acquires a mode signal output from the switch device 18.

Next, the control unit 193 will be described.
The control unit 193 supplies water in the bathtub 2 to a greater amount than the water in the bathtub 2 that is supplied in the first cleaning mode in which the water in the bathtub 2 is supplied to the toilet 3 and the filth in the toilet 3 is discharged. The second cleaning mode is executed based on the mode signal obtained from the input unit 191. For example, the above-described cleaning mode can be used as the first cleaning mode. For example, at least one of the pipe route cleaning mode and the toilet cleaning mode can be used as the second cleaning mode, or both of them can be used.
Here, the amount of water in the bathtub 2 per unit time supplied via the bathtub water piping in the piping path cleaning mode is the amount of bath water per unit time supplied via the bathtub water piping in the cleaning mode. More than. That is, by increasing the flow rate from the cleaning mode, the water in the bathtub 2 can be transferred in the bathtub water pipe with a stronger force than in the cleaning mode.
As another example of transferring a larger amount of water than in the cleaning mode, the supply time can also be used. For example, the time for supplying the water in the bathtub 2 via the bathtub water pipe in the pipe route cleaning mode can be set longer than the time for supplying the water in the bathtub 2 to the toilet 3 in the cleaning mode. That is, by increasing the flow rate from the cleaning mode, the water in the bathtub 2 can be transferred in the bathtub water pipe with a stronger force than in the cleaning mode. By flowing the water in the bathtub 2 for a longer time than in the cleaning mode, the impurities in the bathtub water pipe can be discharged while being dissolved. Moreover, even when the distance of the bathtub water pipe is long to some extent, impurities existing on the upstream side can be reliably discharged downstream.

Next, functions of the above-described three modes in the control unit 193 will be described.
<Washing mode>
In the cleaning mode, the control unit 193 performs the following processing. That is, when acquiring the mode signal from the input unit 191, the control unit 193 outputs a signal (hereinafter referred to as “measurement signal”) indicating that the button has been pressed to the flow rate determination unit 194. Further, the control unit 193 outputs the first drive signal to the pump 13. The first drive signal is a signal for driving the pump 13 in accordance with the flow rate of supplying the water in the bathtub 2 into the toilet bowl 3 and discharging the filth in the toilet bowl 3 via the trap section 7.
In addition, when the control unit 193 acquires a stop signal (described later) from the flow rate determination unit 194, the control unit 193 stops outputting the first drive signal to the pump 13.

<Pipe route cleaning mode>
In the pipe route cleaning mode, the control unit 193 performs the following processing. That is, the control unit 193 outputs a measurement signal to the flow rate determination unit 194 when acquiring the mode signal from the input unit 191. The control unit 193 outputs a second drive signal to the pump 13. The second drive signal is a signal for driving the pump 13 so as to supply a larger amount of water in the bathtub 2 than the amount of water in the bathtub 2 supplied by the first drive signal.
Further, when the control unit 193 acquires the stop signal from the flow rate determination unit 194, the control unit 193 stops outputting the second drive signal to the pump 13.
Moreover, when the control part 193 acquires the mode signal from the input part 191, in the temperature determination part 192, it is temperature whether the bathtub water in the bathtub 2 is sufficient temperature to wash the dirt in bathtub water piping. The determination is made by comparing the detection result of the sensor 100 with the temperature threshold. The control part 193 outputs a measurement signal to the flow volume determination part 194, when the bathtub water in the bathtub 2 is sufficient temperature to wash | clean the dirt in bathtub water piping. Moreover, the control part 193 performs the reheating operation of the bathtub water in the bathtub 2, when the water in the bathtub 2 is not sufficient temperature to wash | clean the dirt in bathtub water piping.

<Toilet bowl cleaning mode>
Next, in the toilet bowl cleaning mode, the controller 193 cleans the toilet bowl by supplying clean water or water in the bathtub 2 via the rim water supply pipe 15. This toilet cleaning mode may be performed regardless of whether or not there is filth in the toilet 3. The control unit 193 outputs a first drive signal or a second drive signal to the pump 13 in the toilet cleaning mode. Moreover, the control part 193 will stop the output of the 1st drive signal with respect to the pump 13, or a 2nd drive signal, if a stop signal is acquired from the flow volume determination part 194. FIG.

Next, the flow rate determination unit 194 will be described.
When a measurement signal is input from the control unit 193, the flow rate determination unit 194 acquires the flow rate signal from the flow meter 29 every unit time. For example, when the flow rate signal is the above-described pulse signal, the flow rate determination unit 194 calculates the number of pulses input per unit time at regular intervals. The flow rate determination unit 194 refers to a flow rate table stored in advance in a storage unit provided inside the flow rate determination unit 194, and acquires a flow rate value corresponding to the number of pulses per unit time for each unit time. . The flow rate table is a table in which the number of pulses per unit time is associated with the flow rate value for each number of pulses per unit time. The flow rate determination unit 194 integrates the flow rate values acquired every unit time.

  The flow rate determination unit 194 determines for each unit time whether or not the integrated flow rate value is greater than or equal to the flow rate value threshold. The flow rate threshold value is a threshold value for determining whether or not a predetermined amount (specified amount) of bathtub water in the bathtub 2 is supplied enough for the discharge operation of filth. The flow rate determination unit 194 outputs a stop signal to the control unit 193 when the flow rate value integrated per unit time is equal to or greater than the flow rate value threshold. On the other hand, the flow rate determination unit 194 does not output a stop signal to the control unit 193 when the flow rate value integrated per unit time is less than the flow rate value threshold.

  The temperature determination unit 192 acquires the temperature of the bathtub water in the bathtub 2 measured by the temperature sensor 100. The temperature determination unit 192 determines whether or not the temperature of the acquired bathtub water in the bathtub 2 is equal to or higher than a preset temperature threshold value. As the temperature threshold, a temperature sufficient for the flow rate determination unit 194 to clean dirt in the bathtub water pipe, for example, a temperature at which impurities accumulated in the bathtub water pipe are easily dissolved can be used.

Next, the operation of the above-described three modes (cleaning mode, piping route cleaning mode, toilet cleaning mode) in the cleaning water supply system 1 of the present embodiment will be described with reference to the flowchart of FIG. Here, in executing the piping route cleaning mode, the amount of water in the bathtub 2 supplied per unit time is supplied in an amount larger than the amount of water in the bathtub 2 supplied per unit time in the cleaning mode. The case will be described.
In step S100, when the user presses the cleaning button, the control unit 193 shifts to the cleaning mode and proceeds to S101.
In step S101, the control unit 193 drives the pump 13 by outputting the first control signal to the pump 13, sucks the bathtub water in the bathtub 2 through the suction port 10, and uses the sucked bathtub water to the toilet 3 Water. Thus, the supplied bathtub water is supplied from the inner surface of the rim 5 in the circumferential direction of the toilet bowl 3 so that the inner surface of the toilet bowl 4 of the toilet bowl 3 is washed with the bathtub water in the bathtub 2 (toilet bowl washing operation). The And the filth in the toilet bowl 4 of the toilet bowl 3 is discharged | emitted through the drain port 6 from the trap part 7. FIG.

In step S102, the flow rate determination unit 194 obtains a flow rate value for each unit time from the information indicating the flow rate of the water flowing in the pipe 28 output from the flow meter 29, integrates the obtained flow rate value for each unit time, It is determined whether or not the integrated flow value is equal to or greater than a flow value threshold value. The flow rate determination unit 194 outputs a stop signal to the control unit 193 when the integrated flow rate value is greater than or equal to the flow rate value threshold. On the other hand, when the integrated flow rate value is less than the flow rate value threshold value, the stop signal is not output to the control unit 193. When the control unit 193 acquires a stop signal from the flow rate determination unit 194, the control unit 193 determines that the specified amount of bathtub water has been supplied to the toilet 3, and stops outputting the first drive signal to the pump 13 (step 102). : YES)
On the other hand, when the control unit 193 does not acquire the stop signal from the flow rate determination unit 194, the control unit 193 determines that the specified amount of bathtub water is not supplied to the toilet 3 (step 102: NO), and proceeds to S101. The control unit 193 repeats step S101 until a stop signal is input from the flow rate determination unit 194.

In step S100, when the user presses the toilet bowl cleaning button, the control unit 193 shifts to the toilet bowl cleaning mode and proceeds to step S111.
In step 111, the control unit 193 outputs the second control signal to the pump 13 to drive the pump 13, so that the flow rate of water in the toilet 3 is larger than the flow rate flowing in the wash water pipe in the wash mode. Supply water.

In step 112, the flow rate determination unit 194 obtains a flow rate value for each unit time from information indicating the flow rate of water flowing in the pipe 28 output from the flow meter 29. The flow rate determination unit 194 integrates the obtained flow rate value for each unit time, and determines whether the integrated flow rate value is equal to or greater than a flow rate value threshold value. The flow rate determination unit 194 outputs a stop signal to the control unit 193 when the integrated flow rate value is greater than or equal to the flow rate value threshold. On the other hand, when the integrated flow rate value is less than the flow rate value threshold value, the stop signal is not output to the control unit 193. When the control unit 193 acquires a stop signal from the flow rate determination unit 194, the control unit 193 determines that the specified amount of bathtub water has been supplied to the toilet 3, and outputs the first drive signal or the second drive signal to the pump 13. Is stopped (step 112: YES). On the other hand, if the control unit 193 does not acquire a stop signal from the flow rate determination unit 194, the control unit 193 determines that the specified amount of bathtub water is not supplied to the toilet 3 and proceeds to S111 (step 112: NO). The control unit 193 repeats step S111 until a stop signal is input from the flow rate determination unit 194.
In step 113, the control unit 193 opens the rim on-off valve 21 to supply the toilet 3 with fresh water, collect the fresh water at the bottom of the toilet 3, and form sealed water at the bottom of the toilet 3.

In step S100, when the user presses the piping route cleaning button, the control unit 193 shifts to the piping route cleaning mode, and proceeds to step S121.
In step S121, the temperature determination unit 192 determines whether or not the temperature of the bath water in the bathtub 2 is equal to or higher than the temperature threshold by shifting to the pipe route cleaning mode. When the temperature of the bathtub water in the bathtub 2 is equal to or higher than the temperature threshold, the control unit 193 proceeds to step S123 (step S121: YES). On the other hand, when the temperature of the bathtub water in the bathtub 2 is less than the temperature threshold value, the control unit 193 proceeds to step S122 (step S121: NO).
In step S122, the control unit 193 performs the reheating operation of the water in the bathtub 2, and when reaching the specified temperature, stops the reheating operation and returns to step S121.

In step 123, the control unit 193 outputs the first drive signal or the second drive signal to the pump 13 to drive the pump 13, and from the flow rate of the bath water flowing in the wash water pipe in the wash mode. A large flow of bathtub water is supplied into the toilet 3.
In step 124, the flow rate determination unit 194 obtains a flow rate value for each unit time from information indicating the flow rate of the water flowing in the pipe 28 output from the flow meter 29. The flow rate determination unit 194 integrates the obtained flow rate value for each unit time, and determines whether the integrated flow rate value is equal to or greater than a flow rate value threshold value. The flow rate determination unit 194 outputs a stop signal to the control unit 193 when the integrated flow rate value is greater than or equal to the flow rate value threshold. On the other hand, when the integrated flow rate value is less than the flow rate value threshold value, the stop signal is not output to the control unit 193. When the control unit 193 acquires a stop signal from the flow rate determination unit 194, the control unit 193 determines that the specified amount of bathtub water has been supplied to the toilet 3, and stops outputting the second drive signal to the pump 13 (step 124). : YES) On the other hand, when the control unit 193 does not acquire the stop signal from the flow rate determination unit 194, the control unit 193 determines that the specified amount of bathtub water is not supplied to the toilet 3 and proceeds to step S123 (step 124: NO). The control unit 193 repeats step S123 until a stop signal is input from the flow rate determination unit 194.
In step 125, the control unit 193 opens the rim on-off valve 21 to supply clean water to the toilet 3, accumulates it at the bottom of the toilet 3, and forms sealed water at the bottom of the toilet 3.

According to this embodiment mentioned above, it was made to supply the water in the bathtub 2 in the toilet bowl 3 via bathtub water piping by 2nd washing | cleaning mode. Thereby, adhesion of impurities can be suppressed in at least one of the inside of the bathtub water pipe, the inner surface of the toilet 3, and the bottom of the toilet 3.
Further, according to the present embodiment, in the pipe route cleaning mode, the bathtub water having a flow rate higher than that in the cleaning mode is supplied into the bathtub water pipe, thereby suppressing the accumulation of foreign matters and the adhesion of dirt in the pipe. Can do. In the toilet cleaning mode, when the pump 13 is driven by the second drive signal, the toilet 3 can be cleaned and the piping can be cleaned.

  Moreover, according to this embodiment, when the temperature of the bath water in the bathtub 2 measured by the temperature sensor 100 provided in the bathtub 2 is equal to or higher than the temperature threshold, the control unit 193 performs the cleaning in the pipe path cleaning mode. Water in the bathtub 2 having a flow rate higher than that in the mode is supplied into the bathtub water pipe. From this, control part 193 supplies bathtub water of temperature more than a temperature threshold in bathtub water piping, and supplies a bathtub water of temperature less than a temperature threshold in bathtub water piping (for example, washing mode). Dirt in the bathtub water piping can be easily removed, and accumulation of foreign matters and adhesion of dirt in the piping can be suppressed. Moreover, it is possible to prevent and sterilize bacteria in the bathtub water pipe.

  Moreover, in this embodiment, also when performing toilet bowl cleaning mode, you may make it judge whether the water in the bathtub 2 is more than a temperature threshold value, and you may make it transfer. Thereby, since the inner surface of the toilet bowl 4 can be wash | cleaned with the water more than a temperature threshold value, the filth deposit in the toilet bowl 3 can be suppressed. Moreover, at this time, in the state where the water of the temperature threshold value or more is poured and the inner surface of the toilet bowl 4 is warmed, the user can easily remove the dirt by cleaning the toilet bowl 3.

In addition, this invention is not restricted to the above-mentioned embodiment, In the range which does not deviate from the meaning of this invention, what added the various change to the above-mentioned embodiment is included.
For example, in the present embodiment, the control unit 193 outputs a second drive signal to the pump 13 to absorb a larger amount of bath water than in the cleaning mode and supply it to the inner surface of the rim 5 of the western-style toilet 3. However, it is not limited to this. For example, the control unit 193 supplies the bathtub water into the bathtub water pipe for a longer time than the cleaning mode by outputting the second drive signal to the pump 13. Alternatively, by setting the above-described flow rate threshold value higher than that in the cleaning mode, the bathtub water is supplied into the bathtub water pipe for a longer time than in the cleaning mode. Thereby, accumulation of foreign matter in the pipe and adhesion of dirt can be suppressed.

  Moreover, in this embodiment, when the toilet bowl 3 is a tankless western style toilet bowl, the piping path washing mode and the toilet bowl cleaning mode were applied, but this embodiment is not limited to this, and the toilet bowl 3 has a tank. Even in the case of a Western style toilet, the pipe route cleaning mode and the toilet cleaning mode may be applied.

  Moreover, in this embodiment, you may make it change the quantity which supplies the water in the bathtub 2 to the toilet bowl 3 according to the said temperature based on the temperature signal obtained from the temperature sensor 100 in piping route washing | cleaning mode. For example, the control unit 193 acquires the temperature of the bathtub water of the bathtub 2 from the temperature sensor 100. The control unit 193 refers to the pump table stored in advance in the illustrated storage unit, and acquires the discharge amount of the pump 13 corresponding to the temperature of the bath water. The pump table is a table in which the temperature of the bathtub water is associated with the discharge amount of the pump 13 for each temperature of the bathtub water. The discharge amount of the pump table is set so that the discharge amount of the pump 13 is smaller (however, the discharge amount is larger than the discharge amount in the cleaning mode) as the temperature of the bath water is higher. This is because the higher the temperature of the bathtub water in the bathtub 2, the easier it is to remove dirt, that is, the higher the temperature of the bathtub water in the bathtub 2, the smaller the amount of bathtub water that can be removed. The control unit 193 outputs the acquired discharge amount to the pump 13. The pump 13 sends the bathtub water into the bathtub water pipe with a smaller discharge amount as the temperature of the bathtub water is higher. Thereby, when the temperature of the bathtub water in the bathtub 2 is high, it is possible to suppress the accumulation of foreign matters and the adhesion of dirt in the bathtub water pipe with a small amount of bathtub water.

Further, in the present embodiment, in the pipe route cleaning mode, the flow rate determination unit 194 has been described to determine whether or not the flow rate value integrated per unit time is equal to or greater than the flow rate value threshold. However, in the present embodiment, It is not limited to this. For example, the flow rate determination unit 194 acquires the temperature of water in the bathtub 2 from the temperature sensor 100 via the control unit 193 at regular intervals. The flow rate determination unit 194 refers to a flow rate threshold value table stored in advance in a storage unit (not shown), and acquires a flow rate threshold value corresponding to the temperature of the bath water at regular intervals. The flow rate threshold value is a table in which the temperature of the bath water is associated with the flow rate threshold value for each temperature of the bath water. In the flow rate threshold value table, the flow rate threshold value is set such that the higher the bath water temperature, the lower the value (however, the higher the integrated flow rate value in the cleaning mode).
In the pipe cleaning mode, the time for supplying water in the bathtub 2 is longer than that in the cleaning mode. However, the higher the temperature of the water in the bathtub 2, the longer the time for supplying water can be prevented. . This is because the higher the temperature of the water in the bathtub 2 is, the more easily the dirt is removed, that is, the higher the temperature of the water in the bathtub 2 is, the shorter the dirt can be removed.

  Furthermore, although this embodiment demonstrated on the assumption that there was enough water in the bathtub 2, you may perform the above-mentioned process, detecting the quantity of water in the bathtub 2. FIG. For example, when detecting the amount of water in the bathtub 2, the amount of water in the bathtub 2 according to the time when this signal is obtained based on a signal indicating the flow rate of water in the pipe 28 from the flow meter 29. Is detected. Moreover, you may detect the quantity of the water in the bathtub 2 using a water level sensor. When using a water level sensor, the control part 193 acquires the water level of the bathtub water in the bathtub 2 which the water level sensor detected. The control part 193 determines with there being no bathtub water in the bathtub 2, when the water level of the bathtub water in the bathtub 2 acquired from the water level sensor becomes less than the preset predetermined value. When it determines with the control part 193 having no water in the bathtub 2, the pump 13 is stopped. Further, the control unit 193 supplies the water from the water supply to the toilet 3 through the inner surface of the rim 5.

Furthermore, in this embodiment, the input part 191 inputs the instruction | indication which wash | cleans the inside of piping of the path | route with which the toilet bowl and the bathtub were connected. This instruction may be an instruction indicating that cleaning is performed in the pipe path cleaning mode. This instruction may be, for example, an instruction by pressing a pipe path cleaning mode button of the switch device 18, or a time that has elapsed in advance since the previous pipe path cleaning mode was performed. It may be a signal indicating that it has been determined by a timer that it has reached or a signal indicating that it has been detected that a predetermined time has arrived.
Furthermore, in this embodiment, the bathtub water which wash | cleaned piping by piping path | route washing | cleaning mode is discharged | emitted from the toilet bowl 3 through the trap part 7 to a drain outlet. Therefore, the filth in the toilet bowl 3 can be discharged by the piping path cleaning mode.
Furthermore, in this embodiment, it can also be used for a toilet having a jet function. At this time, when supplying wash water to the toilet, the bathtub water can be supplied as jet water.

  Further, in a Western style toilet having a tank, a toilet having a water storage part on the bottom side in the toilet may be applied to the above-described flush water supply system so that the water level in the tank is lowered and the momentum of the water flow is not reduced. . FIG. 4 is a view showing a cross section of another toilet 3a. A water reservoir 71 is provided between the bottom of the toilet bowl 3a and the toilet bowl, and a pump 72 for supplying the water in the water reservoir 71 into the toilet bowl is provided. The pump 72 supplies the water in the water reservoir 71 at a constant rate when the water level of the tank drops when the toilet is washed with the water in the tank. Thereby, the waste in the toilet bowl can be discharged without dropping the momentum of water. Such a toilet and the above-described flush water supply system can be combined.

DESCRIPTION OF SYMBOLS 1 Washing water supply system 2 Bathtub 3 Toilet bowl 4 Toilet bowl 5 Rim 6 Drain port 7 Trap part 10 Suction port 12 Connection pipes 13 and 72 Pump 15 Rim water supply pipe 16 Water supply part 17 Bath water supply part 18 Switch device 19 Control device 20 Water pipe 21 Rim open / close valve 23 Rim vacuum breaker 25 Rim side connection pipe 29 Flow meter 31 Rim side water supply pipe 100 Temperature sensor 191 Input unit 192 Temperature determination unit 193 Control unit 194 Flow rate determination unit

Claims (6)

A washing water supply system for supplying bathtub water to the toilet bowl through a pipe connected to the bathtub and the toilet bowl,
An input unit for inputting an instruction to clean the inside of the piping of the path;
Based on the instruction, a second washing mode is provided for supplying a larger amount of bathtub water than the bathtub water supplied in the first washing mode for supplying the bathtub water to the toilet bowl and discharging the filth in the toilet bowl. A control unit;
A cleaning water supply system characterized by comprising: A temperature determination unit that determines whether a measurement result obtained from a temperature sensor that measures the temperature of the bathtub water is equal to or higher than a temperature reference value;
The control unit supplies the bath water in the second cleaning mode based on the instruction when the measurement result is equal to or higher than the temperature reference value based on the determination result of the temperature determination unit. The washing water supply system according to claim 1. The amount of bath water per unit time supplied via the path in the second cleaning mode is greater than the amount of bath water per unit time supplied via the path in the first cleaning mode. The washing water supply system according to claim 1 or 2, wherein The time for supplying the bathtub water via the path in the second cleaning mode is longer than the time for supplying the bathtub water to the toilet in the first cleaning mode. Item 5. A cleaning water supply system according to item 2. A sanitary facility for supplying bathtub water to the toilet bowl through a pipe connected to the bathtub and the toilet bowl,
An input unit for inputting an instruction to clean the inside of the piping of the path;
A second washing mode for supplying a larger amount of bathtub water than the bathtub water supplied in the first washing mode for supplying the bathtub water to the toilet and discharging the filth in the toilet based on the instructions; Control unit,
Sanitary equipment characterized by having. A cleaning water supply method for supplying bathtub water to the toilet bowl through a pipe connected to the bathtub and the toilet bowl,
An input step for inputting an instruction to clean the inside of the pipe of the path;
A second washing mode for supplying a larger amount of bathtub water than the bathtub water supplied in the first washing mode for supplying the bathtub water to the toilet and discharging the filth in the toilet based on the instructions; Control process,
A method for supplying cleaning water, comprising:

Images