JP2022087481A - Toilet bowl device - Google Patents

Abstract

To provide a toilet bowl device capable of switching jet washing with rim washing without using an exclusive device like a motor.SOLUTION: A toilet bowl device has a switching mechanism part 5 for switching a passage of washing water supplied from a pump (water supply part) 35 to any one of a jet washing flow passage 42 and a rim washing passage. The switching mechanism part 5 switches the passage of washing water flow to any one of the jet washing flow passage 42 and the rim washing passage, by adjusting a flow rate of the washing water supplied from the pump 35.SELECTED DRAWING: Figure 3

Description

The present disclosure relates to a toilet bowl device.

A toilet device capable of switching between jet cleaning in which cleaning water pumped by a pump is discharged from a jet discharge port and rim cleaning in which water is discharged from a rim discharge port is known (see, for example, Patent Document 1). Such a toilet device is provided with a switching valve for switching between jet cleaning and rim cleaning in the flow path of the cleaning water.

Japanese Unexamined Patent Publication No. 2017-66758

In the toilet bowl device of Patent Document 1, the switching valve is driven by a motor. Therefore, it is necessary to install a motor and a device for supplying electric power to the motor in the toilet bowl device, which has a complicated structure.

It is an object of the present disclosure to provide a toilet bowl device capable of switching between jet cleaning and rim cleaning without using a dedicated device such as a motor.

In order to achieve the above object, the toilet bowl device according to the present disclosure has a switching mechanism unit for switching the flow path through which the washing water supplied from the water supply unit flows to either a jet washing flow path or a rim washing flow path. The switching mechanism unit adjusts the flow rate of the cleaning water supplied from the water supply unit to switch the flow path through which the cleaning water flows to either a jet cleaning flow path or a rim cleaning flow path.

It is a perspective view which looked at the toilet bowl device from the front. It is a perspective view which looked at the toilet bowl apparatus which omitted the side wall part from the front. It is a perspective view which looked at the toilet device from one of the rear and the width direction. It is a perspective view which looked at the toilet bowl device from the rear and the other side in the width direction. It is a perspective view of a switching valve. It is sectional drawing of the switching valve in the state where the jet discharge flow rate adjustment valve is closed, and the rim discharge flow rate adjustment valve is open. It is sectional drawing of the switching valve in the open state of a jet discharge flow rate adjustment valve, and the closed state of a rim discharge flow rate adjustment valve. It is sectional drawing of the switching valve in the open state of a jet discharge flow rate adjustment valve, and the open state of a rim discharge flow rate adjustment valve. It is a figure which shows the relationship between the rotation speed of a pump, the opening / closing of a jet discharge flow rate adjustment valve and a rim discharge flow rate adjustment valve, and the discharge flow rate. It is a figure which shows the relationship between the rotation speed of a pump by a modification, opening / closing of a jet discharge flow rate adjustment valve and a rim discharge flow rate adjustment valve, and discharge flow rate. It is a figure which shows the relationship between the rotation speed of a pump by another modification, opening / closing of a jet discharge flow rate adjustment valve and a rim discharge flow rate adjustment valve, and discharge flow rate.

As shown in FIG. 1, the toilet device 1 according to the present embodiment has a toilet body 2, a toilet seat (not shown), a functional unit 3, and a functional unit cover (not shown). In the following description, the front side of the user sitting on the toilet seat is the front side, the rear side on the opposite side is the rear side, and the horizontal direction connecting these is the front-back direction (direction of arrow A in the drawing). The horizontal direction orthogonal to the front-back direction is defined as the width direction (direction of arrow B in the drawing).

FIG. 2 shows the toilet bowl 21 of the toilet bowl main body 2, and the peripheral wall portion 26 (see FIG. 1) of the toilet bowl main body 2 provided around the toilet bowl 21 is omitted. The toilet bowl 21 is located on the front side portion of the toilet bowl main body 2. The toilet bowl 21 has a water storage portion 22 located at the lower part and storing wash water, and a rim 23 located at the peripheral portion of the upper part. The toilet bowl 21 is formed with a jet spout port 24 that discharges wash water to the water reservoir 22 at the time of washing, and a rim spout 25 that discharges wash water to the rim 23 at the time of washing.

As shown in FIGS. 2 to 4, the functional unit 3 has various functions such as water supply, water storage, and cleaning. The functional unit 3 is arranged on the lower side of the stool bowl 21 and the rear side of the stool bowl 21. In the functional portion 3, the lower side 31 is arranged inside the peripheral wall portion of the toilet bowl main body 2, and the upper side 32 projects upward from the toilet bowl main body 2. The portion of the upper portion 32 of the functional portion 3 protruding upward from the toilet bowl main body 2 is arranged on the rear side of the toilet bowl 21. The functional portion cover is arranged on the toilet bowl main body 2 and covers a portion of the upper side 32 of the functional portion 3 that protrudes upward from the toilet bowl main body 2.

The functional unit 3 has a cleaning water tank 34, a pump (water supply unit) 35 (see FIGS. 3 and 4), and a cleaning mechanism 36. The functional unit 3 also has a function other than the above. In the washing water tank 34, the front side portion 341 is arranged below the toilet bowl 21 (between the toilet bowl 21 and the floor), and the rear side portion 342 is arranged behind the toilet bowl 21. The front side portion 341 and the rear side portion 342 are integrated. The posterior portion 342 is taller than the anterior portion 341 and protrudes upward from the toilet bowl 21. Water is supplied to the washing water tank 34 from a water supply pipe (not shown). The pump 35 pumps the washing water of the washing water tank 34 to the washing mechanism 36.

The discharge flow rate of the washing water is adjusted by adjusting the rotation speed of the pump 35. When the rotation speed of the pump 35 is increased, the flow rate of the washing water is also increased. When the rotation speed of the pump 35 is reduced, the flow rate of the washing water is also reduced. As the rotation speed of the pump 35 increases and the discharge water flow rate of the washing water increases, the water pressure of the washing water pumped from the pump 35 also increases. As the rotation speed of the pump 35 decreases and the discharge water flow rate decreases, the water pressure of the washing water pumped from the pump 35 also decreases.

The cleaning mechanism 36 has a pump connection flow path 41, a jet cleaning flow path 42 (see FIG. 3), a rim cleaning flow path 43 (see FIG. 4), and a switching mechanism portion 5. The pump connection flow path 41 is connected to the pump 35, and the washing water pumped by the pump 35 flows into the pump connection flow path 41. The switching mechanism unit 5 has a switching valve 51 connected to the downstream side of the pump connection flow path 41, and a control unit 55 (see FIG. 3). The control unit 55 adjusts the rotation speed of the pump 35 (pump rotation speed) to adjust the flow rate of the washing water supplied from the pump 35 to the switching valve 51. In FIG. 3, the control unit 55 is shown by a broken line. The control unit 55 may be provided at a desired position. A jet cleaning flow path 42 and a rim cleaning flow path 43 are connected to the downstream of the switching valve 51. The switching valve 51 makes one or both of the jet cleaning flow path 42 and the rim cleaning flow path 43 through the flow path through which the cleaning water from the pump connection flow path 41 flows according to the flow rate of the cleaning water supplied from the pump 35. It is configured to be able to switch between jet cleaning and rim cleaning by switching to either. The washing water flowing through the jet washing flow path 42 is discharged from the jet spout port 24 shown in FIG. 2 to the water reservoir portion 22. The washing water flowing through the rim washing flow path 43 is discharged from the rim spout 25 shown in FIG. 2 to the rim 23. In the following, the discharge of the wash water from the jet spout 24 may be referred to as jet cleaning, and the discharge of the wash water from the rim spout 25 may be referred to as rim cleaning.

As shown in FIG. 5, the switching valve 51 is connected to the inflow section 52 into which the wash water flows from the pump connection flow path 41 (see FIGS. 3 and 4) and the downstream of the inflow section 52, and the wash water is jet-washed. It has a jet water passage part 53 that flows to the road 42 (see FIG. 3) and a rim water passage part 54 that is connected to the downstream of the inflow part 52 and allows the washing water to flow to the rim washing flow path 43 (see FIG. 4). There is. The jet water passage part 53 and the rim water passage part 54 are directly connected to the inflow part 52, respectively. Washing water directly flows into the jet water passage part 53 and the rim water passage part 54 from the inflow part 52.

As shown in FIG. 6, the jet water passage unit 53 has a jet water discharge flow rate adjusting valve 531. The jet water discharge flow rate adjusting valve 531 is configured to open and close the jet water flow rate 53 and adjust the amount of wash water passing through the jet water flow rate 53 to adjust the jet water flow rate. The jet water discharge flow rate adjusting valve 531 is provided at the upstream end of the jet water passage portion 53. The jet discharge flow rate adjusting valve 531 has a first valve body 532, a first valve seat 533, and a first spring member 534. The first valve body 532 is provided on the downstream side of the first valve seat 533, and is pushed by the first spring member 534 in a direction approaching the first valve seat 533 (direction toward the upstream side).

In the jet water discharge flow rate adjusting valve 531, the first valve body 532 is the first valve in the normal time when the washing water does not flow into the inflow portion 52 and when the water pressure of the washing water flowing into the inflow portion 52 is smaller than the predetermined water pressure. It is in contact with the seat 533 and closes the flow path of the jet water passage portion 53 (closed state). That is, when the flow rate of the washing water flowing into the inflow section 52 is smaller than the predetermined flow rate, the jet water discharge flow rate adjusting valve 531 closes the flow path of the jet water flow rate section 53.

As shown in FIG. 7, when the water pressure of the washing water flowing into the inflow portion 52 becomes equal to or higher than a predetermined water pressure, the water pressure of the washing water pushes the first valve body 532 to the downstream side. As a result, the first spring member 534 is elastically deformed, and the first valve body 532 moves to the downstream side and separates from the valve seat. The jet water discharge flow rate adjusting valve 531 has a gap between the first valve body 532 and the first valve seat 533, and opens the flow path of the jet water passage portion 53 (open state). That is, the jet water discharge flow rate adjusting valve 531 opens the flow path of the jet water passage unit 53 when the flow rate of the washing water flowing into the inflow unit 52 is equal to or higher than a predetermined flow rate.

When the water discharge rate of the washing water is increased from the state where the jet discharge flow rate adjustment valve 531 is closed to increase the water pressure, the first valve body 532 of the jet discharge flow rate adjustment valve 531 separates from the first valve seat 533. The water pressure of the washing water that becomes open is referred to as "jet open water pressure". When the water pressure of the washing water becomes the jet open water pressure, the jet discharge flow rate adjusting valve 531 gradually increases the opening between the first valve body 532 and the first valve seat 533, and is in an open state. When the discharge water flow rate of the washing water is reduced to reduce the water pressure from the jet open water pressure, the opening between the first valve body 532 and the first valve seat 533 gradually becomes smaller and becomes a closed state.

The jet water passage unit 53 has a rectifying unit 535 downstream of the jet water discharge flow rate adjusting valve 531. The rectifying unit 535 is connected to the downstream side of the valve seat. The rectifying unit 535 has, for example, a shape in which plate members extending in the direction in which the washing water flows intersect so as to form a cross shape. The rectifying unit 535 is provided to uniformly flow the cleaning water that has passed through the first valve body 532 and the first valve body 532 of the jet discharge flow rate adjusting valve 531 in the open state and is prone to turbulence toward the jet cleaning flow path 42. There is.

As shown in FIG. 6, the rim water passage portion 54 has a rim water discharge flow rate adjusting valve 541. The rim water discharge flow rate adjusting valve 541 is configured to open and close the rim water passage portion 54 and adjust the amount of wash water passing through the rim water passage portion 54 to adjust the discharge water flow rate for rim cleaning. The rim water discharge flow rate adjusting valve 541 is provided at the upstream end of the rim water passage portion 54. The rim water discharge flow rate adjusting valve 541 has a second valve body 542, a second valve seat 543, and a second spring member 544. The second valve body 542 is provided on the upstream side of the second valve seat 543, and is pushed by the second spring member 544 in a direction away from the second valve seat 543 (direction toward the downstream side).

The rim discharge water flow rate adjusting valve 541 has a second valve body 542 as a second valve during normal times when the washing water does not flow into the inflow portion 52 and when the water pressure of the washing water flowing into the inflow portion 52 is smaller than a predetermined water pressure. Apart from the seat 543, the flow path of the rim water passage portion 54 is open (open state). That is, when the flow rate of the washing water flowing into the inflow section 52 is smaller than the predetermined flow rate, the rim water discharge flow rate adjusting valve 541 opens the flow path of the rim water flow section 54.

As shown in FIG. 7, when the water pressure of the washing water flowing into the inflow portion 52 becomes equal to or higher than a predetermined water pressure, the water pressure of the washing water pushes the second valve body 542 to the downstream side. As a result, the second spring member 544 is elastically deformed, and the second valve body 542 moves to the downstream side and comes into contact with the valve seat. The rim water discharge flow rate adjusting valve 541 eliminates the gap between the second valve body 542 and the second valve seat 543, and closes the flow path of the rim water passage portion 54 (closed state). That is, the rim discharge flow rate adjusting valve 541 closes the flow path when the flow rate of the washing water flowing into the inflow section 52 is equal to or higher than a predetermined flow rate.

When the water pressure is increased by increasing the discharge water flow rate of the washing water from the state where the rim water discharge flow rate adjustment valve 541 is open, the second valve body 542 of the rim water discharge flow rate adjustment valve 541 is on the second valve seat 543 side ( The water pressure of the washing water that moves to the downstream side) and comes into a closed state when the second valve body 542 comes into contact with the second valve seat 543 side is referred to as "rim closing water pressure". When the water pressure of the washing water becomes the rim closing water pressure, the opening between the second valve body 542 and the second valve seat 543 of the rim water discharge flow rate adjusting valve 541 gradually becomes smaller and becomes a closed state. When the water pressure of the washing water is reduced from the rim closing water pressure by reducing the discharge water flow rate, the distance between the second valve body 542 and the second valve seat 543 gradually increases, and the state becomes open.

The jet open water pressure is set smaller than the rim closing water pressure. As a result, when the rim water passage portion 54 is opened and the jet water passage portion 53 is closed to increase the water discharge flow rate of the washing water to increase the water pressure, the jet open water pressure is reached and the jet water passage portion 53 is opened. After the open state is reached, the rim closing water pressure is reached and the rim water discharge flow rate adjusting valve 541 is closed. That is, at the time of transition between rim cleaning and jet cleaning, both the flow paths of the jet water passage portion 53 and the rim water passage portion 54 are opened as shown in FIG. For this reason, both the jet cleaning and rim cleaning channels are not closed and the wash water flow path is not blocked, and the wash water flow path is not suddenly switched. Switching can be done smoothly.

The water pressure of the washing water when only the rim washing is performed is defined as the rim washing water pressure. The rim cleaning water pressure is set to be smaller than the jet open water pressure. The water pressure of the washing water when only jet washing is performed is defined as the jet washing water pressure. The jet wash water pressure is set higher than the rim closure water pressure. The rotation speed of the pump 35 at which the water pressure of the washing water becomes the rim washing water pressure is defined as the rim washing rotation speed. The rotation speed of the pump 35 at which the water pressure of the cleaning water becomes the jet cleaning water pressure is the rotation speed of the jet cleaning. In the present embodiment, the water pressure increases in the order of rim washing water pressure, jet opening water pressure, rim closing water pressure, and jet washing water pressure. The jet water discharge flow rate adjusting valve 531 and the rim water discharge flow rate adjusting valve 541 can be independently controlled by setting the rim washing water pressure, the jet opening water pressure, the rim closing water pressure, and the jet washing water pressure, respectively.

The control unit 55 (see FIG. 3) adjusts the rotation speed (pump rotation speed) of the pump 35 to adjust the flow rate of the washing water supplied from the pump 35 to the switching valve 51, whereby the jet water passage unit 53 and the control unit 55 (see FIG. 3) It controls which of the rim water passage portions 54 the washing water flows, and adjusts the water discharge flow rate of the rim washing and the water discharge flow rate of the jet washing.

As shown in FIG. 9, the control unit 55 raises the pump rotation speed from 0 to the rim cleaning rotation speed when it receives the cleaning start signal. As the pump speed increases, so does the discharge flow rate of the wash water. When the pump rotation speed reaches the rim cleaning rotation speed, the water pressure of the washing water becomes the rim washing water pressure, and the rim washing (first rim washing) is performed. As shown in FIG. 6, since the rim water discharge flow rate adjusting valve 541 is open, the rim cleaning is performed even while the pump rotation speed is larger than 0 and reaches the rim cleaning rotation speed. By adjusting the pump rotation speed between 0 and the rim cleaning rotation speed, the flow rate of the washing water can be adjusted.

As shown in FIG. 9, the control unit 55 further increases the pump rotation speed to the jet cleaning rotation speed after the lapse of the first rim cleaning for a predetermined time. When the pump rotation speed increases and the water pressure of the washing water reaches the jet open water pressure, the jet water discharge flow rate adjusting valve 531 is opened while the rim water discharge flow rate adjusting valve 541 is open as shown in FIG. Both jet cleanings are done. The range in which both the rim cleaning and the jet cleaning are performed is the range of reference numeral C in FIG. As shown in FIG. 9, when the pump rotation speed increases and the water pressure of the washing water reaches the rim closing water pressure, the rim water discharge flow rate adjusting valve 541 is closed and only jet washing is performed. When the pump rotation speed becomes the jet cleaning rotation speed and the water pressure of the cleaning water reaches the jet cleaning water pressure, only the jet cleaning is continuously performed. When the pump rotation speed reaches the jet cleaning rotation speed, the rim water discharge flow rate adjusting valve 541 is completely closed. By adjusting the pump rotation speed between the rim cleaning rotation speed and the jet cleaning rotation speed, the discharge flow rate of the washing water can be adjusted.

The control unit 55 reduces the pump rotation speed to the rim cleaning rotation speed after the jet cleaning has elapsed for a predetermined time. As the pump speed decreases, so does the discharge flow rate of the wash water. When the pump rotation speed is reduced and the water pressure becomes smaller than the rim closing water pressure, the rim discharge flow rate adjusting valve 541 is opened while the jet discharge flow rate adjusting valve 531 is open as shown in FIG. 8, for jet cleaning and rim cleaning. Both are done. The range in which both the rim cleaning and the jet cleaning are performed is the range of reference numeral D in FIG. As shown in FIG. 9, when the pump rotation speed is reduced and the water pressure becomes smaller than the jet open water pressure, the jet water discharge flow rate adjusting valve 531 is closed and only rim cleaning is performed. When the pump rotation speed reaches the rim cleaning rotation speed, rim cleaning (second rim cleaning) is continuously performed. When the pump rotation speed reaches the rim cleaning rotation speed, the jet discharge flow rate adjusting valve 531 is completely closed. By adjusting the pump rotation speed between the jet cleaning rotation speed and the rim cleaning rotation speed, the discharge flow rate of the washing water can be adjusted. The control unit 55 reduces the pump rotation speed to 0 after the second rim cleaning has elapsed for a predetermined time. When the pump rotation speed decreases, the amount of wash water pumped from the pump 35 decreases, and the water pressure of the wash water also decreases. When the pump rotation speed becomes 0, rim cleaning is stopped.

In the above-mentioned toilet device 1, the switching mechanism unit 5 drives the switching valve 51 by adjusting the flow rate of the washing water supplied from the pump 35, and the flow path through which the washing water flows is the jet washing flow path and the rim washing flow. I'm switching to one of the roads. That is, the switching mechanism unit 5 adjusts the flow rate of the washing water supplied from the pump 35 to switch between jet washing and rim washing. In the above-mentioned toilet device 1, since the switching valve 51 is driven by adjusting the flow rate of the washing water, it is not necessary to install a motor or a power supply device for driving the switching valve 51. As described above, in the toilet bowl device 1 described above, it is possible to switch between jet cleaning and rim cleaning without using a dedicated device such as a motor, and the device can be simplified and downsized.

In the toilet bowl device 1 described above, the switching mechanism unit 5 adjusts the rotation speed of the pump 35 to adjust the discharge flow rate of the washing water. Thereby, the flow rate of the washing water can be easily and surely adjusted.

In the toilet bowl device 1 described above, the switching mechanism portion 5 has a jet water discharge flow rate adjusting valve 531 capable of adjusting the water discharge flow rate for jet cleaning. This makes it possible to adjust the flow rate of water discharged from the jet wash.

The toilet bowl device 1 has a rectifying unit 535 downstream of the jet water discharge flow rate adjusting valve 531. As a result, the washing water that passes through the first valve body 532 and the first of the jet water discharge flow rate adjusting valve 531 in the open state and tends to cause turbulence can be uniformly flowed toward the jet washing flow path 42.

In the above-mentioned toilet device 1, the switching mechanism portion 5 has a rim water discharge flow rate adjusting valve 541 capable of adjusting the water discharge flow rate for rim cleaning. This makes it possible to adjust the flow rate of water discharged from the rim cleaning.

In the above-mentioned toilet device 1, the jet water discharge flow rate adjusting valve 531 and the rim water discharge flow rate adjusting valve 541 can be controlled independently. In the above-mentioned toilet device 1, the rim washing water pressure, the jet opening water pressure, the rim closing water pressure, and the jet washing water pressure are set respectively, and the jet water discharge flow rate adjusting valve 531 and the rim water discharge flow rate adjusting valve 541 are individually controlled. Therefore, the opening / closing timing of each of the jet discharge flow rate adjusting valve 531 and the rim discharge flow rate adjusting valve 541 can be set individually, and an arbitrary cleaning pattern can be set by a combination of rim cleaning and jet cleaning.

In the above-mentioned toilet device 1, the switching mechanism unit 5 controls the switching valve 51 so that the washing water is discharged from both the jet washing flow path 42 and the rim washing flow path 43 when the water pressure of the washing water reaches a predetermined value. is doing. As a result, when switching between rim cleaning and jet cleaning, both channels are not closed and the wash water flow path is not blocked, or the wash water flow path is not suddenly switched, and the rim is not used. Switching between cleaning and jet cleaning can be performed smoothly.

The present disclosure is not limited to the above embodiment, and can be appropriately modified without departing from the spirit of the present invention. For example, in the above embodiment, the switching mechanism unit 5 adjusts the rotation speed of the pump 35 to adjust the water pressure of the washing water. On the other hand, the adjustment of the water pressure of the washing water may be performed by a method other than the adjustment of the rotation speed of the pump 35, such as adjusting the supply amount from the water supply pipe.

In the above-mentioned toilet device 1, the switching mechanism portion 5 has a switching valve 51 having a jet water discharge flow rate adjusting valve 531 and a rim water discharge flow rate adjusting valve 541. On the other hand, if the configuration is such that the jet cleaning and the rim cleaning can be switched by adjusting the discharge flow rate of the cleaning water, the switching valve 51 as described above may not be provided. The toilet device 1 may not be provided with a rectifying unit 535 downstream of the jet discharge flow rate adjusting valve 531. The shape of the rectifying unit 535 may be other than the above. A rectifying unit 535 may be provided downstream of the rim water discharge flow rate adjusting valve 541.

In the above-mentioned toilet device 1, the jet water discharge flow rate adjusting valve 531 and the rim water discharge flow rate adjusting valve 541 can be controlled independently. On the other hand, the jet water discharge flow rate adjusting valve 531 and the rim water discharge flow rate adjusting valve 541 may be interlocked with each other.

In the toilet bowl device 1 described above, the switching mechanism unit 5 performs both jet cleaning and rim cleaning when the discharge water flow rate of the washing water reaches a predetermined value and the water pressure value of the washing water falls within a predetermined range. On the other hand, switching between jet cleaning and rim cleaning may be performed at the same timing. That is, the rim closing water pressure and the jet opening water pressure may be the same water pressure.

In the above-mentioned toilet device 1, when switching from rim cleaning to jet cleaning, the pump rotation speed is increased from the rim cleaning rotation speed to the jet cleaning rotation speed, and when switching from jet cleaning to rim cleaning, the pump rotation speed is jet-cleaned. The number of rotations is reduced from the number of rotations to the rim cleaning rotation. On the other hand, as shown in FIG. 10, when switching from rim cleaning to jet cleaning, the pump rotation speed is returned from the rim cleaning rotation speed to 0 and then increased to the jet cleaning rotation speed, and the jet cleaning is switched to the rim cleaning. At that time, the pump rotation speed may be returned from the jet cleaning rotation speed to 0 and then increased to the rim cleaning rotation speed. By doing so, it is possible to suppress the discharge flow rate of the washing water.

When switching from rim cleaning to jet cleaning, rim cleaning and jet cleaning should be performed independently by making the jet opening water pressure higher than the rim closing water pressure instead of returning the pump rotation speed from the rim cleaning rotation speed to 0. May be possible.

As shown in FIG. 11, when switching from rim cleaning to jet cleaning, the pump rotation speed is returned from the rim cleaning rotation speed to 0 and then increased to the jet cleaning rotation speed, and when switching from jet cleaning to rim cleaning. , The pump rotation speed may be reduced from the jet cleaning rotation speed to the rim cleaning rotation speed. When switching from rim cleaning to jet cleaning, the pump rotation speed is increased from the rim cleaning rotation speed to the jet cleaning rotation speed, and when switching from jet cleaning to rim cleaning, the pump rotation speed is changed from the jet cleaning rotation speed to 0. After returning it, the rim cleaning rotation speed may be increased.

When the jet opening water pressure is higher than the rim closing water pressure, when switching from rim cleaning to jet cleaning, the pump rotation speed is gradually increased from the rim cleaning rotation speed to the jet cleaning rotation speed between rim cleaning and jet cleaning. When switching from jet cleaning to rim cleaning with a waiting time, the pump rotation speed is sharply reduced from the jet cleaning rotation speed to the rim cleaning rotation speed so that there is no waiting time between jet cleaning and rim cleaning. You may do it.

In the above embodiment, the jet open water pressure is set to be smaller than the rim closing water pressure. On the other hand, the jet open water pressure may be set higher than the rim closing water pressure. As a result, when the rim water passage portion 54 is opened and the jet water passage portion 53 is closed to increase the water discharge flow rate of the washing water to increase the water pressure, the jet open water pressure is reached and the jet water passage portion 53 is opened. Before the open state, the rim closing water pressure is reached and the rim water discharge flow rate adjusting valve 541 is closed. That is, at the time of transition between rim cleaning and jet cleaning, both the flow paths of the jet water passage portion 53 and the rim water passage portion 54 are closed. Therefore, jet cleaning and rim cleaning can be performed independently, and the flow rate of the cleaning water can be suppressed.

1 Toilet bowl device, 5 Switching mechanism, 35 pump (water supply), 42 jet cleaning flow path, 43 rim cleaning flow path, 513 jet discharge flow rate adjustment valve, 535 rectifying unit, 541 rim discharge flow rate adjustment valve

Claims (7)

It has a switching mechanism unit that switches the flow path through which the cleaning water supplied from the water supply unit flows to either the jet cleaning flow path or the rim cleaning flow path.
The switching mechanism unit is a toilet device that adjusts the flow rate of the cleaning water supplied from the water supply unit to switch the flow path through which the cleaning water flows to either a jet cleaning flow path or a rim cleaning flow path. The water supply unit has a pump for pumping the washing water.
The toilet device according to claim 1, wherein the switching mechanism unit adjusts the rotation speed of the pump to adjust the flow rate of the washing water. The toilet bowl device according to claim 1 or 2, wherein the switching mechanism unit has a jet discharge flow rate adjusting valve capable of adjusting the discharge flow rate of the washing water discharged from the jet cleaning flow path. The toilet bowl device according to claim 3, further comprising a rectifying unit downstream of the jet discharge flow rate adjusting valve. The toilet bowl device according to any one of claims 1 to 4, wherein the switching mechanism portion has a rim discharge flow rate adjusting valve capable of adjusting the discharge flow rate of the washing water discharged from the rim cleaning flow path. The switching mechanism unit has a jet discharge flow rate adjusting valve capable of adjusting the discharge flow rate of the washing water discharged from the jet cleaning flow path, and the cleaning flow rate of the washing water discharged from the rim cleaning flow path. The toilet bowl device according to any one of claims 1 to 2, further comprising a rim water discharge flow rate adjusting valve that can be adjusted independently of the adjustment by the jet discharge flow rate adjusting valve. One of claims 1 to 6, wherein the switching mechanism unit controls to discharge the washing water from both the jet washing flow path and the rim washing flow path when the flow rate of the washing water reaches a predetermined value. Toilet bowl device as described in the section.

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