JP6855015B2 - Flush toilet - Google Patents

Description

The present invention relates to a flush toilet, and more particularly to a flush toilet including a water storage tank for storing wash water and a pressure pump for pumping water in the water storage tank to the toilet body.

In recent years, in flush toilets, there are known flush toilets in which the flush water in the water storage tank is pressurized by a pump and supplied to the toilet.

JP-A-2009-2075

In the flush toilet of Patent Document 1, when the upper float switch as the water level detecting means provided in the water storage tank detects the rise in the water level in the water storage tank after the water supply to the water storage tank is started. It is controlled to stop the water supply to the water storage tank. Since an overflow flow path with one end open above the upper float switch is provided, even if the upper float switch fails, the flush water in the water storage tank is jetted from the overflow flow path to the toilet bowl body. It can be escaped to the side water supply channel or the rim side water supply channel.

However, in recent years, in order to reduce the size and improve the performance of the entire flush toilet, the jet spout and the rim spout may be designed to be small. As a result, the maximum flow rate of the washing water that can flow out from the water storage tank to the overflow flow path decreases. Then, when the flow rate of the wash water supplied into the water storage tank is larger than the maximum flow rate of the wash water that can flow out from the water tank to the overflow flow path, the water level is higher than the water stoppage level of the water storage tank. The supplied wash water cannot be reliably escaped from the overflow flow path, and the water level in the water storage tank rises above the opening of the overflow flow path. As a result, if the check valve provided in the water supply channel or the intake port is out of order, the washing water in the water storage tank may flow back to the water supply channel or overflow from the intake port.

The present invention has been made to solve the above-mentioned problems, and even if the water level detecting means fails, the flush water can surely escape the flush water from the overflow flow path to the toilet body. The purpose is to provide a toilet bowl.

The water-washing stool according to one aspect of the present invention is a water-washing stool that is washed with pressurized washing water, and has a rim spout and a jet spout for discharging the washing water, and the rim spout. A rim-side water supply channel for supplying wash water, a jet-side water supply channel for supplying wash water to the jet spout, a water storage tank for storing wash water for cleaning the toilet body, and the wash water. A water supply means for supplying the water storage tank, a pressurizing pump for pumping the wash water stored in the water storage tank to the toilet body via the rim side water supply channel or the jet side water supply channel, and a pressure pump in the water storage tank. An upper water level detecting means provided above and detecting the water level in the water storage tank when wash water is supplied into the water storage tank, and one end thereof opened above the upper water level detecting means by a predetermined amount to store the water. An overflow flow path that allows water in the tank to escape from the rim spout or the jet spout to the toilet body, and wash water is supplied from the water storage tank to the toilet body provided below the water storage tank. In response to the detection of the lower water level detecting means for detecting the water level in the water storage tank, the upper water level detecting means, and the lower water level detecting means, the water supply means is controlled to perform cleaning supplied to the water storage tank. A control means for adjusting the flow rate of water is provided, and the control means detects an abnormality of the upper water level detecting means or the lower water level detecting means when the washing water is supplied into the water storage tank. The water supply means is controlled so that the flow rate of the wash water supplied to the water storage tank is equal to or less than the maximum flow rate of the wash water that can flow out from the water storage tank to the overflow flow path.

According to this configuration, even if the upper water level detecting means or the lower water level detecting means is out of order, the washing water in the water storage tank can be surely escaped from the overflow flow path to the toilet bowl body, so that the washing inside the water storage tank can be cleaned. It is possible to prevent water from flowing back or overflowing to the outside of the water storage tank. Further, since the water storage tank can be surely filled with water, the flush toilet can be used without inconvenience even if the upper water level detecting means or the lower water level detecting means is out of order.

In the water-washing stool according to one aspect of the present invention, preferably, the water supply means switches the water supply channel to adjust the flow rate of the washing water supplied to the rim spout and the flow rate of the washing water supplied to the water storage tank. Having a valve, the control means controls the water supply channel switching valve when an abnormality of the upper water level detecting means or the lower water level detecting means is detected when wash water is supplied into the water storage tank. , At least the flow rate of the wash water supplied to the rim spout and the flow rate of the wash water supplied to the water storage tank are adjusted so as to supply the wash water to the rim spout.

According to this configuration, when an abnormality is detected in the upper water level detecting means or the lower water level detecting means, the flow rate of the washing water supplied to the rim spout by the water supply channel switching valve and the flow rate of the washing water supplied to the water storage tank are determined. By adjusting, the flush water in the water storage tank can be surely escaped from the overflow flow path to the toilet body, and the flush water is discharged at the timing when the flush water should not be discharged from the rim spout, so that the user can move upward. It is possible to notice an abnormality in the water level detecting means or the lower water level detecting means.

According to the present invention, even if the water level detecting means is out of order, the flush toilet can surely allow the flush water to escape from the water storage tank to the toilet body from the overflow flow path.

It is a side view of the flush toilet according to the embodiment of this invention. It is a top view of the flush toilet shown in FIG. It is an overall block diagram which shows the flush toilet by embodiment of this invention. It is a flowchart explaining the tank empty water supply of a flush toilet by embodiment of this invention. It is a flowchart explaining from the start of flushing of a flush toilet to the start of water supply to a tank according to the embodiment of the present invention. It is a flowchart explaining the tank water supply of a flush toilet by embodiment of this invention.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings. In each drawing, similar components are designated by the same reference numerals and detailed description thereof will be omitted as appropriate.

First, the structure of a flush toilet according to the embodiment of the present invention will be described with reference to FIGS. 1 to 3. FIG. 1 is a side view of a flush toilet according to the embodiment of the present invention. FIG. 2 is a plan view of the flush toilet shown in FIG. FIG. 3 is an overall configuration diagram showing a flush toilet according to the embodiment of the present invention.

As shown in FIGS. 1 and 2, the flush toilet bowl 1 according to the embodiment of the present invention is arranged so as to cover the toilet bowl main body 2, the toilet seat 4 arranged on the upper surface of the toilet bowl main body 2, and the toilet seat 4. It includes a cover 6 and a local cleaning device 8 arranged in the upper rear part of the toilet bowl body. Further, a functional portion 10 is arranged behind the toilet bowl main body 2, and the functional portion 10 is covered with a side panel 11.

The toilet bowl body 2 includes a bowl portion 12 that receives filth, a drain trap pipe 14 that extends from the bottom of the bowl portion 12, a drain pipe 15 that is connected to the lower end of the drain trap pipe 14, and a jet that discharges water. A spout 16 and a rim spout 18 for spouting rim water are formed.
The jet spout 16 is formed at the bottom of the bowl portion 12, is arranged substantially horizontally toward the inlet of the drain trap pipe 14, and discharges the washing water toward the drain trap pipe 14. ing. The rim spout 18 is formed behind the upper left side of the bowl portion 12, and discharges washing water along the upper edge of the bowl portion 12.

The drain trap pipeline 14 is composed of an inlet portion 14a, a trap riser pipe 14b rising from the inlet portion 14a, and a trap lowering pipe 14c descending from the trap riser pipe 14b, and the trap riser pipe 14b and the trap lowering pipe 14c. The top is 14d between and. The drainage pipe 15 described above is connected to the lower end of the trap lowering pipe 14c.

The flush toilet 1 according to the present embodiment is directly connected to the water supply that supplies the washing water, and the washing water is discharged from the rim spout 18 by the water supply pressure of the water supply. Regarding jet water discharge, as will be described later, the washing water stored in the water storage tank 20 built in the functional unit 10 is pressurized by the pressurizing pump 22 and discharged from the jet water discharge port 16 at a large flow rate. It has become.

Next, the functional part 10 of the flush toilet 1 according to the present embodiment will be described in detail with reference to FIG.
As shown in FIG. 3, the functional unit 10 is provided with a water supply channel 24 to which wash water is supplied from the tap water, and the water supply channel 24 is provided with a water stop valve 26, a strainer 28, and a branch fitting 30 from the upstream side. , A constant flow valve 32, a diaphragm type electromagnetic on-off valve 34, and a water supply channel switching valve 36 are provided, respectively. The constant flow valve 32 is for limiting the washing water that has flowed in through the water stop valve 26, the strainer 28, and the branch fitting 30 to a predetermined flow rate or less.

As shown in FIG. 3, these constant flow rate valve 32, electromagnetic on-off valve 34, and water supply channel switching valve 36 are integrally assembled as a valve unit 37 (water supply means). Further, on the downstream side of the water supply channel switching valve 36, a rim side water supply channel 38 for supplying wash water to the rim water discharge port 18 and a tank side water supply channel 40 for supplying wash water to the water storage tank 20 are provided. It is connected.

Here, the washing water that has passed through the constant flow rate valve 32 flows into the electromagnetic on-off valve 34, and the washing water that has passed through the electromagnetic on-off valve 34 is supplied from the rim-side water supply channel 38 on the rim side by the water supply channel switching valve 36. The water is supplied to the rim water discharge port 18 or from the tank side water supply channel 40 on the tank side to the water storage tank 20. The water supply channel switching valve 36 can supply wash water to both the rim side water supply channel 38 and the tank side water supply channel 40 at the same timing, and can arbitrarily change the ratio of the amount of water supplied to the rim side and the tank side. It is a valve.
The opening / closing operation of the electromagnetic on-off valve 34 and the switching operation of the water supply channel switching valve 36 are controlled by the controller 62 (control means) of the functional unit 10. Then, water can be supplied to the water storage tank by opening the electromagnetic on-off valve 34 and allowing the water supply channel switching valve 36 to communicate with the tank-side water supply channel 40.

A jet-side water supply channel 46 is connected to the lower part of the water storage tank 20, and the downstream end of the jet-side water supply channel 46 is connected to the jet spout 16. Further, the above-mentioned pressurizing pump 22 is provided in the middle of the jet-side water supply channel 46. The pressurizing pump 22 is for pressurizing the washing water stored in the water storage tank 20 and discharging it from the jet spout 16. The rotation speed, operating time, and the like of the pressurizing pump 22 are controlled by a controller 62 provided in the functional unit 10.

The jet-side water supply channel 46 is composed of an upstream jet-side water supply channel 46a on the upstream side of the pressurizing pump 22 and a downstream jet-side water supply channel 46b on the downstream side. Here, as shown in FIG. 3, the downstream jet-side water supply channel 46b first extends upward from the pressurizing pump 22, and a pipe is arranged above the water reservoir surface A of the bowl portion 12 of the flush toilet 1. After that, the pipe is configured to extend downward. In the downstream jet-side water supply channel 46b formed in a convex shape upward in this way, the top portion 46c, which is the highest portion of the convex portion, is the jet-side water supply channel from the water storage tank 20 to the jet spout 16. It is the highest part of 46.

Next, the rim side water supply channel 38 described above is provided with a vacuum breaker 48 for rim water discharge to prevent backflow of wash water from the rim water discharge port 18 when a negative pressure is generated in the water supply channel 24. There is. Further, as shown in FIG. 3, the rim discharge vacuum breaker 48 is arranged above the upper end surface of the bowl portion 12, thereby reliably preventing backflow. Further, the washing water overflowing from the open portion of the rim water discharge vacuum breaker 48 to the atmosphere flows into the water storage tank 20 through the return pipe 50.
A vacuum breaker 42, which is a check valve, is also provided in the water supply channel 40 on the tank side to prevent backflow of wash water from the water storage tank.

Here, the water storage tank 20 is a closed type water storage tank, and a check valve 43 is provided at a connection portion between the water supply channel 40 on the tank side and the water storage tank 20. With this check valve 43, even when the water storage tank 20 is full, the check valve 43 floats and closes the connection portion with the tank side water supply channel 40, so that the washing water is flushed with the tank side water supply channel 40. It is designed so that it does not flow back to.
Similarly, a check valve 44 is also provided at the connection portion between the return pipe 50 and the water storage tank 20, so that the washing water flows back to the return pipe 50 even when the water storage tank 20 is full. There is no such thing.

Further, the upstream jet-side water supply passage 46a of the jet-side water supply passage 46 is provided with a jet water discharge flapper valve 56 and a drain plug 58, which are check valves. These jet water discharge flapper valves 56 and drain plugs 58 are arranged at a height near the lower end of the water storage tank 20 below the pressurizing pump 22. Therefore, by opening the drain plug 58, the washing water in the water storage tank 20 and the pressurizing pump 22 can be drained at the time of maintenance or the like.

Further, by arranging the jet water discharge flapper valve 56 between the water storage tank 20 and the pressure pump 22, wash water is added when the water level in the water storage tank 20 becomes lower than the height of the pressure pump 22. It prevents the pressure pump 22 from flowing back to the water storage tank 20, draining the washing water in the pressure pump 22, and causing the pressure pump 22 to run idle. Further, a water receiving tray 60 is arranged below the pressurizing pump 22 so as to receive condensed water droplets and water leakage.

Further, an overflow flow path 70 is provided above the upper float switch 64a of the water storage tank 20 so that one end thereof is open (opening 70a) and the other end 70b is connected to the downstream jet side water supply channel 46b. A flapper valve 72, which is a check valve, is attached to the overflow flow path 70.
When the water level in the water storage tank 20 is higher than the opening 70a, the overflow flow path 70 allows the water in the water storage tank 20 to escape from the jet spout 16 to the toilet body 2 via the jet side water supply channel 46. , It is intended to prevent water from overflowing from the water storage tank 20.

Further, the overflow flow path 70 and the flapper valve 72 prevent the backflow of the washing water from the jet spout 16 and can cut the edge between them. Further, since the other end 70b of the overflow flow path 70 is provided above the water level of the accumulated water in the bowl portion 12, the backflow of the washing water from the jet spout 16 is more reliably prevented. There is.

The operation contents of the electromagnetic on-off valve 34, the water supply channel switching valve 36, the pressurizing pump 22, and the like described above will be described. The controller 62 operates the electromagnetic on-off valve 34 and the water supply channel switching valve 36 by operating the toilet bowl cleaning switch (not shown) by the user, first discharges water from the rim water discharge port 18, and then continues rim water discharge. The pressurizing pump 22 is operated to start spouting water from the jet spout to generate a siphon action to discharge and wash the accumulated water in the bowl portion 12 together with filth. Further, the controller 62 continues to discharge water from the rim even after the operation of the pressurizing pump 22 is stopped, stores the accumulated water in the bowl portion 12, and finishes cleaning. After the cleaning is completed, the water supply channel switching valve 36 is switched to the water storage tank 20 side to replenish the water storage tank 20 with the cleaning water. When the water level in the water storage tank 20 rises and the upper float switch 64a detects a specified amount of water stored, the controller 62 closes the electromagnetic on-off valve 34 to stop the water supply.

Next, an upper float switch 64a and a lower float switch 64b are arranged inside the water storage tank 20. The upper float switch 64a is an upper water level detecting means for detecting the water level in the water storage tank 20 when the washing water is supplied into the water storage tank 20, and the water level in the water storage tank 20 is higher than the predetermined upper position L1. When it rises upward, it switches from off to on, and the controller 62 detects this and closes the electromagnetic on-off valve 34. As a result, the wash water finally stored in the water storage tank 20 is stored up to the still water level (WFL). The lower float switch 64b is a lower water level detecting means for detecting the water level in the water storage tank 20 when the washing water is supplied from the water storage tank 20 to the jet spout 16, and the water level in the water storage tank 20 is a predetermined lower side. When descending below the position L3, it switches from off to on.

When the water supply channel switching valve 36 is switched to the water storage tank 20 side and all the washing water is supplied to the tank side (tank 100%), the flow rate of the washing water supplied to the water storage tank 20 is the water storage tank 20. It is larger than the maximum flow rate of the washing water that can flow out from the overflow flow path 70. On the other hand, when the water supply channel switching valve 36 is switched to supply 20 to 30% or less of the total wash water to the water storage tank 20 side, the flow rate of the wash water supplied to the water storage tank 20 is the water storage tank 20. The flow rate is equal to or less than the maximum flow rate of the washing water that can flow out from the overflow flow path 70.

Next, the operation flow of the flush toilet according to the present embodiment will be described with reference to FIGS. 4 to 6. FIG. 4 is a flowchart illustrating empty tank water supply of a flush toilet according to the embodiment of the present invention. FIG. 5 is a flowchart illustrating from the start of flushing the flush toilet to the start of water supply to the tank according to the embodiment of the present invention. FIG. 6 is a flowchart illustrating tank water supply of a flush toilet according to the embodiment of the present invention.

First, as shown in FIG. 4, when the toilet bowl cleaning switch (not shown) is pressed by the user, the controller 62 determines whether or not the inside of the water storage tank 20 is empty (S1, S2). Specifically, when the toilet bowl cleaning switch (not shown) is pressed by the user, the controller 62 determines whether or not the upper float switch 64a is off and the lower float switch 64b is on.
The toilet bowl cleaning switch has a state in which the amount of washing water supplied to the toilet bowl main body 2 is large (large washing) and a state in which the amount of washing water supplied to the toilet bowl main body 2 is small (small washing). The user can select either one.

In step S1, when the inside of the water storage tank 20 is not empty, that is, when the upper float switch 64a is on and the lower float switch 64b is off, the controller 62 starts cleaning the toilet bowl body 2. Is determined to have been instructed by the user, and proceeds to the step of starting toilet bowl cleaning (S3). The flow after the start of toilet bowl cleaning will be described in detail in FIGS. 5 and 5 and thereafter.
On the other hand, in step S2, when the inside of the water storage tank 20 is empty, that is, when the upper float switch 64a is off and the lower float switch 64b is on, the controller 62 has the water storage tank 20 in an empty state. At this time, it is determined that the tank empty water supply for starting the supply of the washing water to the water storage tank 20 has been instructed by the user, and the process proceeds to step S4.
It should be noted that this empty tank water supply is used when water is supplied to the water storage tank 20 for the first time after the flush toilet 1 is installed, or when all the water in the water storage tank 20 is drained once due to reasons such as freezing or sticking, and then the water storage tank is restarted. This is the case of supplying water to 20.

Then, before the tank empty water supply is started, in step S4, the controller 62 determines whether or not the tank empty water supply is the first time after the flush toilet 1 is installed.
If it is determined in step S4 that the tank is empty water for the first time after the flush toilet 1 is installed, the process proceeds to step S5, and the controller 62 switches and controls the water supply channel switching valve 36 to supply all the flush water. It is in a state of supplying to the rim side (rim 100%). As a result, wash water is supplied to the drain trap pipeline 14 of the toilet bowl main body 2 to form a pool surface A in the drain trap pipeline 14. After that, the controller 62 switches and controls the water supply channel switching valve 36 to supply all the washing water to the tank side (tank 100%), and supplies water to the water storage tank 20 until the water storage tank 20 is full (the water storage tank 20 is supplied). Steps S6 and 7). In step S7, when the inside of the water storage tank 20 is full, the water supply to the water storage tank 20 is stopped (step S10), and the empty tank water supply is completed.

In step S4, when it is determined that the tank is empty water supply for the second time or later after the flush toilet bowl 1 is installed, the controller 62 switches and controls the water supply channel switching valve 36 to move to the tank side of all the wash water. 20 to 30% and 70 to 80% are supplied to the rim side (tank 20 to 30%, rim 70 to 80%), and the water storage tank 20 is supplied until a predetermined time T0 elapses after the start of empty tank water supply. Water is supplied to fill the water storage tank 20 (steps S8 and 9). This is because the upper float switch 64a and the lower float switch 64b have failed during the second and subsequent empty tank water supply, and only the detection result is that the inside of the water storage tank 20 is empty. In fact, the inside of the water storage tank 20 has already been filled. Is controlled in this way because there is a possibility that it is full. In step S9, when a predetermined time T0 elapses after starting the empty tank water supply, the water supply to the water storage tank 20 is stopped (step S10), and the empty tank water supply is ended.

Next, the flow after the start of toilet bowl cleaning will be described. As shown in FIG. 5, when the toilet bowl cleaning is started in step S3 in FIG. 4, rim water discharge from the rim water discharge port 18 is started (step S11). That is, the controller 62 switches and controls the water supply channel switching valve 36 to supply all the washing water to the rim side (rim 100%), and supplies the washing water from the rim side water supply channel 38 to the rim water discharge port 18. The rim water discharge from the rim water discharge port 18 is continuously performed until before the tank water supply is started (step S22).

When a predetermined time T1 has elapsed since the rim water discharge from the rim water discharge port 18 was started in step S11, the jet water discharge from the jet water discharge port 16 is started (steps S12 and 13). That is, the controller 62 operates the pressurizing pump 22 to supply the washing water stored in the water storage tank 20 to the jet spout 16 via the jet side water supply channel 46.

When the jet water discharge from the jet water discharge port 16 is started in step S13, the flow changes depending on whether the type of the toilet bowl cleaning switch pressed by the user in step S1 of FIG. 4 is large cleaning or small cleaning. Divide (step S14).

When the large cleaning is performed in step S14, that is, when the type of the toilet bowl cleaning switch pressed by the user in step S1 is large cleaning, until the water level in the water storage tank 20 reaches the dead water level at the time of the large cleaning. After supplying the washing water from the water storage tank 20 to the jet spout 16 (steps S15, 16, 20), the jet spout is stopped.
Specifically, the controller 62 determines whether or not the lower float switch 64b in the water storage tank 20 is switched on (step S15). If it is determined in step S15 that the lower float switch 64b has not been switched on, the controller 62 determines whether or not a predetermined time T2 has elapsed since the start of jet water discharge (step S16). This step S16 is a safety timer when the lower float switch 64b has failed and is not switched off. In step S16, when it is determined that the predetermined time T2 has elapsed since the start of jet water discharge, or when it is determined in step S15 that the lower float switch 64b is switched on, the jet water discharge is stopped (step S20). .. That is, the controller 62 stops the pressurizing pump 22 to stop the supply of wash water from the water storage tank 20 to the jet spout 16 via the jet-side water supply channel 46.
In the present embodiment, the jet water discharge is stopped when the lower float switch 64b is switched on in step S15 (step S20), but the present invention is not limited to this, and the jet water discharge from the water storage tank 20 is not limited to this. Depending on the amount of wash water supplied to the water port 16 and the position where the lower float switch 64b is provided, the jet water discharge may be stopped when a predetermined time elapses after the lower float switch 64b is switched on in step S15. ..

When the small cleaning is performed in step S14, that is, when the type of the toilet bowl cleaning switch pressed by the user in step S1 is small cleaning, until the water level in the water storage tank 20 reaches the dead water level at the time of small cleaning. After supplying the washing water from the water storage tank 20 to the jet spout port 16, the jet spout is stopped (steps S17 to 20).
Specifically, the controller 62 determines whether or not the upper float switch 64a in the water storage tank 20 has been switched off (step S17). When it is determined in step S17 that the upper float switch 64a is switched off, the jet water discharge is stopped after a predetermined time T3 has elapsed since the upper float switch 64a was switched off (steps S18 and 20). If it is determined in step S17 that the upper float switch 64a has not been switched off, the controller 62 determines whether or not a predetermined time T4 has elapsed since the start of jet water discharge (step S19). This step S19 is a safety timer when the upper float switch 64a is out of order and cannot be switched off. In step S19, when the predetermined time T4 has elapsed from the start of jet water discharge, the process proceeds to step S20 to stop jet water discharge.

If timer control is performed from the start to the stop of the supply of wash water from the water storage tank 20 to the toilet body 2, the amount of wash water supplied from the water storage tank 20 to the toilet body 2 will vary due to the influence of the manufacturing error of the toilet bowl. There is a risk that it will end up.
However, unlike the present embodiment, the supply of the washing water from the water storage tank 20 to the jet spout 16 is not stopped by timer control at the time of small washing, but the water level in the water storage tank 20 reaches a predetermined water level. By using the upper float switch 64a for detecting the water level of the water storage tank 20 when the wash water is originally supplied into the water storage tank 20, the descent is performed from the water storage tank 20 to the toilet body 2 at the time of small washing. It is possible to suppress variations in the amount of wash water supplied.

After a predetermined time T5 has elapsed since the jet water discharge was stopped in step S20, the rim water discharge from the rim water discharge port 18 is stopped, and tank water supply for supplying wash water to the water storage tank 20 is started (steps S21 to 23). ). That is, when T5 elapses for a predetermined time after the jet water discharge is stopped, the controller 62 switches and controls the water supply channel switching valve 36 to completely wash from the state of supplying all the washing water to the rim side (rim 100%). Switch to the state of supplying water to the tank side (tank 100%) and start tank water supply.

Next, the flow after the start of tank water supply will be described with reference to FIG.

First, a case where the upper float switch 64a and the lower float switch 64b are in a normal state without failure will be described with reference to FIG.
After a certain period of time has passed from the start of tank water supply, the water level in the water storage tank 20 first rises to the lower position L3, and the lower float switch 64b is turned off (step S24). After that, when a certain period of time elapses, the water level in the water storage tank 20 rises to the upper position L1, and this time, the upper float switch 64a is turned on (step S25). As a result, the process proceeds from step S25 to step S30, and the tank water supply is stopped (step S30).

Next, a case where the lower float switch 64b has an abnormality such as a failure and remains on without switching from on to off will be described.
After a certain period of time has passed from the start of tank water supply, the water level in the water storage tank 20 rises, and the water level in the water storage tank 20 rises to the lower position L3. However, as described above, the lower float switch 64b has an abnormality such as a failure and remains on without being switched off. Then, if the lower float switch 64b is not switched off until the predetermined time T6 elapses from the start of tank water supply, the controller 62 detects an abnormality in the lower float switch 64b (step S26). When an abnormality in the lower float switch 64b is detected, the controller 62 switches and controls the water supply channel switching valve 36 to supply 20 to 30% of the total wash water to the tank side and 70 to 80% to the rim side. The state (tank 20 to 30%, rim 70 to 80%) is set, tank water is supplied until a predetermined time T8 elapses from the start of tank water supply, and then tank water supply is stopped (steps S28 to 30).

Finally, a case where the upper float switch 64a has an abnormality such as a failure and remains off without switching from off to on will be described.
After a certain period of time has passed from the start of tank water supply, the water level in the water storage tank 20 rises, and the water level in the water storage tank 20 rises to the lower position L3. At this time, if the lower float switch 64b is normal, the lower float switch 64b is turned off (step S24). After that, when a certain period of time elapses, the water level in the water storage tank 20 further rises, and the water level in the water storage tank 20 rises to the upper position L1. However, as described above, the upper float switch 64a has an abnormality such as a failure and remains off without being switched on. Then, if the upper float switch 64a is not turned on by the time T7 elapses from the switching of the lower float switch 64b to off in step S24, the controller 62 detects an abnormality of the upper float switch 64a ( Step S27). When an abnormality in the upper float switch 64a is detected, the controller 62 switches and controls the water supply channel switching valve 36 to supply 20 to 30% of the total wash water to the tank side and 70 to 80% to the rim side. In the state (tank 20 to 30%, rim 70 to 80%), tank water supply is performed until a predetermined time T8 elapses from the start of tank water supply, and then tank water supply is stopped (steps S28 to 30).

Next, the action and effect of the flush toilet in the present embodiment will be described.

In the present embodiment, the flush urinal 1 supplies all the wash water to the tank side when an abnormality of the upper float switch 64a or the lower float switch 64b is detected during the tank water supply in which the wash water is supplied into the water storage tank 20. Water supply channel switching from the state of water supply (tank 100%) to the state of supplying 20 to 30% of the total washing water to the tank side and 70 to 80% to the rim side (tank 20 to 30%, rim 70 to 80%). The valve 36 is switched to supply wash water to the water storage tank 20. That is, when the controller 62 detects an abnormality in the upper float switch 64a or the lower float switch 64b during tank water supply, the flow rate of the washing water supplied to the water storage tank 20 can flow out from the water storage tank 20 to the overflow flow path 70. The water supply channel switching valve 36 is switched and controlled so that the flow rate is equal to or less than the maximum flow rate of the washing water. As a result, even if the upper float switch 64a or the lower float switch 64b is out of order, the washing water in the water storage tank 20 can be surely released from the overflow flow path 70 to the toilet bowl main body 2, so that the water in the water storage tank 20 can be discharged. It is possible to prevent the washing water from flowing back to the water supply channel 40 on the tank side or overflowing the washing water to the outside of the water storage tank 20.
In addition, since the wash water supplied to the water storage tank 20 can be reliably stored up to the water stop water level WFL when the tank is supplied with water, even if the upper float switch 64a or the lower float switch 64b is out of order, the flush toilet bowl 1 can be used without inconvenience.

Further, in the present embodiment, when an abnormality of the upper float switch 64a or the lower float switch 64b is detected during tank water supply, wash water is also discharged from the rim spout 18 (tank 20 to 30%, rim 70 to 80%). Since the rim water is discharged at the timing when the rim water is not discharged at the time of tank water supply, the user can notice the abnormality of the upper float switch 64a or the lower float switch 64b.

Further, in the present embodiment, the controller 62 of the flush urinal 1 constructs the flush urinal 1 when the tank is empty to start supplying the flush water to the water storage tank 20 when the water storage tank 20 is empty. In the case of the first empty water supply to the tank, the water supply channel switching valve is set so that the flow rate of the wash water supplied to the water storage tank 20 is larger than the maximum flow rate of the wash water that can flow out from the water storage tank 20 to the overflow flow path 70. 36 is switched and controlled (tank 100%). On the other hand, in the case of the second and subsequent tank empty water supply after the flush toilet bowl 1 is installed, the flow rate of the flush water supplied to the water storage tank 20 is from the water storage tank 20. The water supply channel switching valve 36 is switched and controlled so that the flow rate of the flush water that can flow out to the overflow flow path 70 is equal to or less than the maximum flow rate (tank 20 to 30%, rim 70 to 80%). As a result, when the inside of the water storage tank 20 is surely empty, which is the first time when the flush toilet 1 is installed and the tank is empty for the first time, the flow rate of the washing water supplied into the water storage tank 20 is increased as much as possible. By filling the water storage tank 20 with water as soon as possible, it is possible to shorten the time required from the construction of the flush toilet 1 to the state in which the flush toilet 1 can be used.

Although the embodiments of the technology disclosed in the present application have been described above, the technology disclosed in the present application is not limited to the above.

For example, in the above embodiment, the washing water in the water storage tank 20 is supplied to the jet spout 16 via the jet side water supply channel 46, but the present invention is not limited to this, and the washing in the water storage tank 20 is not limited to this. The configuration may be such that water is supplied to the rim spout 18. Similarly, the washing water that has flowed into the overflow flow path 70 may be allowed to escape from the rim spout 18 to the toilet body 2.

Further, in the above embodiment, the water supply channel switching valve 36 is switched and controlled to adjust the ratio of the cleaning water supplied to the rim side and the ratio of the cleaning water supplied to the tank side among the total cleaning water. Although it was decided to adjust the flow rate of the washing water supplied to the water storage tank 20, the present invention is not limited to this, and for example, the flow rate of simply supplying the washing water supplied from the water supply source to the water storage tank 20 can be adjusted. A flow control valve may be provided.

The elements included in each of the above-described embodiments can be combined as technically possible, and the combination thereof is also included in the scope of the present invention as long as the features of the present invention are included.

1 Toilet bowl 2 Toilet bowl body 4 Toilet seat 6 Cover 8 Local cleaning device 10 Functional part 11 Side panel 12 Bowl part 14 Drain trap pipeline 14a Inlet 14b Trap rise pipe 14c Trap lower pipe 14d Top 15 Drain pipe 16 Jet spout Rim spout 20 Water storage tank 22 Pressurized pump 24 Water supply channel 26 Water stopcock 28 Strainer 30 Branch fitting 32 Constant flow valve 34 Electromagnetic on-off valve 36 Water supply channel switching valve 37 Valve unit (water supply means)
38 Rim side water supply channel 40 Tank side water supply channel 42 Vacuum breaker 43 Check valve 44 Check valve 46 Jet side water supply channel 46a Upstream jet side water supply channel 46b Downstream jet side water supply channel 48 Rim water discharge vacuum breaker 50 Return pipe 56 Jet Flapper valve for water discharge 58 Drain plug 60 Water receiving tray 62 Controller (control means)
64a Upper float switch (upper water level detecting means)
64b Lower float switch (lower water level detecting means)
70 Overflow flow path 70a Opening 70b Other end A Reservoir surface

Claims (2)

A flush toilet that is washed with pressurized wash water.
Toilet bowl body with rim spout and jet spout to discharge wash water,
A rim-side water supply channel that supplies wash water to the rim spout, and
A jet-side water supply channel that supplies wash water to the jet spout, and
A water storage tank that stores washing water for cleaning the toilet bowl body, and
A water supply means for supplying wash water to the water storage tank,
A pressurizing pump that pumps the wash water stored in the water storage tank to the toilet body via the rim side water supply channel or the jet side water supply channel.
An upper water level detecting means provided above the water storage tank and detecting the water level in the water storage tank when wash water is supplied into the water storage tank.
An overflow flow path whose one end opens a predetermined amount above the upper water level detecting means and allows water in the water storage tank to escape from the rim spout or the jet spout to the toilet body.
A lower water level detecting means provided below the water storage tank and detecting the water level in the water storage tank when wash water is supplied from the water storage tank to the toilet body.
A control means that controls the water supply means to adjust the flow rate of the washing water supplied to the water storage tank in response to the detection of the upper water level detecting means and the lower water level detecting means.
Is equipped with
When the control means detects an abnormality in the upper water level detecting means or the lower water level detecting means when the washing water is supplied into the water storage tank, the flow rate of the washing water supplied to the water storage tank is the said. A water-washing stool that controls the water supply means so that the flow rate of the washing water that can flow out from the water storage tank to the overflow flow path is equal to or less than the maximum flow rate. The water supply means has a water supply channel switching valve that adjusts the flow rate of the wash water supplied to the rim spout and the flow rate of the wash water supplied to the water storage tank.
When the control means detects an abnormality in the upper water level detecting means or the lower water level detecting means when the washing water is supplied into the water storage tank, the control means controls the water supply channel switching valve to at least discharge the rim. the washing water to supply to Mizuguchi, flush toilet according to claim 1 for adjusting the flow rate of the washing water supplied to the flow rate and the water storage tank of the washing water supplied to the rim water spouting port.

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