JP7475237B2 - Toilet equipment - Google Patents

Description

This disclosure relates to a toilet device.

Conventionally, toilet devices equipped with a valve device that supplies flush water are known (see, for example, Patent Document 1). The valve device described in Patent Document 1 has a vacuum breaker mechanism. In the vacuum breaker mechanism, flush water overflows if a malfunction occurs, such as when a foreign object is caught. The flush water that overflows from the vacuum breaker mechanism is drained from an overflow water storage section that temporarily stores the overflow water into a water storage tank via a drainage channel.

JP 2014-190489 A

In a configuration in which water that overflows from the vacuum breaker mechanism is drained from the overflow water storage section into the water storage tank via a drainage channel, there is a possibility that the user will not notice the water overflowing from the vacuum breaker mechanism and will not notice a malfunction of the vacuum breaker mechanism. For this reason, there is a need for the user to be able to easily notice a malfunction of the vacuum breaker mechanism.

The present disclosure aims to provide a toilet device that allows users to easily notice malfunctions in the vacuum breaker mechanism.

The present disclosure relates to a toilet apparatus comprising a water supply passage that supplies flushing water to a toilet bowl, a communication passage that connects the water supply passage with the outside, a vacuum breaker mechanism that is disposed in the communication passage and has an opening/closing part that can open and close the communication passage, and a discharge part that has a drain outlet that is disposed above the bottom end of the toilet bowl and exposed to the outside, and that discharges water that overflows from the communication passage from the drain outlet to the outside.

1 is a perspective view of a toilet apparatus according to a first embodiment; 1 is a diagram showing an outline of a valve device of a toilet flushing device according to a first embodiment. FIG. 1 is a perspective view showing a functional portion, a base plate, and a toilet flushing device of a toilet apparatus according to a first embodiment. FIG. FIG. 2 is a perspective view showing a base plate and a toilet flushing device. FIG. 4 is a perspective view showing an attachment state of a drain hose connected to a valve device. FIG. FIG. FIG. 4 is a vertical cross-sectional view showing the front base discharge portion. FIG. FIG. FIG. 4 is a cross-sectional view showing a rim-side vacuum breaker mechanism and a jet-side vacuum breaker mechanism. This figure shows the state in which the rim side lid portion of the rim side overflow water storage section and the jet side lid portion of the jet side overflow water storage section have been removed. A cross-sectional view of a structure connecting the rim-side overflow water storage section and the jet-side overflow water storage section with a connecting tube. A cross-sectional view showing the structure for screwing together the rim-side overflow water storage section and the jet-side overflow water storage section. 13 is a diagram showing a state in which the front base is positioned at a fixed position by the lifting device. FIG. 13 is a diagram showing a state in which the front base is positioned at a raised position by the lifting device. FIG. FIG. 11 is a cross-sectional view showing a vacuum breaker mechanism of a second embodiment. FIG. 11 is a perspective view showing a toilet device according to a third embodiment. FIG. 11 is a perspective view showing a base plate, a functional portion, and a tank in a toilet device of a third embodiment.

Embodiments of the present disclosure will be described in detail below with reference to the drawings. In the following description, the front-to-back direction refers to the front-to-back direction when viewed from a person sitting on the toilet seat (not shown) of the toilet device 1, and the left-to-right direction refers to the left-to-right direction when viewed from a person sitting on the toilet seat. The up-to-down direction refers to the vertical direction from the toilet bowl 2 to the toilet lid 3.

As shown in FIG. 1, the toilet device 1 of the first embodiment comprises a ceramic toilet 2, a toilet seat (not shown), a toilet lid 3, a base plate 4, a functional section 5, a toilet flushing device 7 (flushing mechanism section) having a valve device 6, and a lifting device 8 (see FIGS. 15 and 16). The toilet device 1 is a flush valve type toilet device that supplies flushing water to the toilet 2 via the valve device 6. The toilet seat (not shown) and toilet lid 3 are attached above the toilet 2 so as to be rotatable relative to the toilet 2.

As shown in FIG. 2, the toilet 2 includes a toilet bowl 21 and a drain trap flow path 22 that is formed in the bottom of the toilet bowl 21 and has a generally S-shaped cross section. The downstream end of the drain trap flow path 22 is connected to a drain pipe (not shown) via a drain connection pipe 23.

A rim water outlet 741 (flushing water outlet) that discharges flushing water is formed at the top of the toilet bowl 21. A jet water outlet 751 (flushing water outlet) that discharges flushing water is formed near the bottom of the toilet bowl 21. The inside of the toilet bowl 21 is flushed with flushing water supplied from the toilet flushing device 7 via the rim water outlet 741 and the jet water outlet 751.

As shown in FIG. 1, a base plate 4 is disposed on the upper rear part of the toilet 2. The base plate 4 has a front base 41 (base member) and a rear base 42. The front base 41 is disposed on the front side of the upper rear part of the toilet 2. The rear base 42 is disposed on the rear side of the front base 41, on the upper rear part of the toilet 2.

As shown in FIG. 3, the functional unit 5 and part of the toilet flushing device 7 are arranged on the upper part of the front base 41. The front base 41 on which the functional unit 5 and part of the toilet flushing device 7 are arranged is attached so that it can be raised and lowered up and down for cleaning the toilet 2 and the like by a lifting device 8 (see FIG. 15 and FIG. 16), which will be described later. The valve device 6 of the toilet flushing device 7 is arranged so as to penetrate the rear base 42 in the vertical direction. The functional unit 5 and the toilet flushing device 7 are covered from above by a cover part 5a, as shown in FIG. 1.

As shown in FIG. 3, the functional section 5 is composed of a power supply unit 51 fixed to the front base 41, an electric opening and closing unit (not shown) for the toilet seat (not shown) and the toilet lid 3, a sanitary washing unit 52, a warm air drying unit 53, each unit control circuit board, various functional components such as various piping, etc. The functional section 5 has a water circuit through which washing water for the sanitary washing unit 52, etc. flows. The sanitary washing unit 52 has a washing nozzle 522 that can be advanced and retreated. The washing nozzle 522 is used for anal washing and bidet washing to wash private parts of the human body.

The toilet flushing device 7 is mostly mounted on the rear base 42, and partially mounted on the front base 41. The toilet flushing device 7 flushes the toilet bowl 21 of the toilet 2 when a flush switch (not shown) is operated by the user.

As shown in FIG. 2, the toilet flushing device 7 includes a valve device 6, a booster 71 (pressure accumulator), a flush water inlet/outlet channel 72, a booster water inlet/outlet channel 73, a rim-side water supply channel 74, and a jet-side water supply channel 75. The booster 71 is disposed below the rear base 42 and inside the lower cover 421 (see FIG. 4).

The front base 41 is used to drain overflowing water from the sanitary washing unit 52 of the functional part 5 and overflowing water from the valve device 6 of the toilet flushing device 7. The front base 41 forms a junction where overflowing water from the sanitary washing unit 52 of the functional part 5 and overflowing water from the valve device 6 of the toilet flushing device 7 join together.

The front base 41 joins overflowing water from two or more parts of the water circuit of the toilet flushing device 7 and the functional part 5 and discharges it to the outside. Overflowing water from the sanitary flushing unit 52 of the functional part 5 and overflowing water from the valve device 6 of the toilet flushing device 7 are discharged to the outside via the front base 41. In this embodiment, overflowing water from the sanitary flushing unit 52 of the functional part 5 and overflowing water from the valve device 6 of the toilet flushing device 7 are discharged to the toilet bowl 21 of the toilet 2 via the front base 41.

As shown in FIG. 4, the front base 41 has a bottom surface portion 411 and a peripheral wall portion 412. The bottom surface portion 411 is formed with a plurality of ribs 413 (protruding portions) that protrude upward, and a front base discharge portion 414.

As shown in FIG. 5, the multiple ribs 413 are formed in a portion facing the exhaust port 671 at the tip of the drain hose 67 (described later) connected to the valve device 6. In this embodiment, the multiple ribs 413 are configured with ribs 413a formed in a plate shape protruding upward from the upper step portion 411a of the bottom surface portion 411, and ribs 413b, 413b formed in a plate shape protruding upward from a portion of the bottom surface portion 411 that spans between the upper step portion 411a and the step portion 411b.

The outlet 671 at the tip of the drain hose 67 is positioned opposite the multiple ribs 413, and is positioned opposite the bottom surface portion 411 of the front base 41 but spaced apart from the bottom surface portion 411. The outlet 671 at the tip of the drain hose 67 may be positioned away from the multiple ribs 413, or may be positioned in contact with the multiple ribs 413.

The front base discharge section 414 has three discharge openings 414a, as shown in Figures 6 to 8. The three discharge openings 414a are provided in the center in the left-right direction of the front end of the bottom surface section 411 of the front base 41. As shown in Figure 8, the three discharge openings 414a are formed by penetrating the bottom surface section 411 of the front base 41 diagonally downward and rearward in the downward sloping portion of the bottom surface section 411 that slopes downward from the rear side to the front side. The three discharge openings 414a are arranged side by side in the left-right direction, as shown in Figures 6 and 7.

The three drain openings 414a drain downward the overflow water that overflows from the vacuum breaker mechanism (not shown) of the sanitary cleaning unit 52 of the functional part 5 where the water joins at the front base 41, and the overflow water that overflows from the vacuum breaker mechanism (rim side vacuum breaker mechanism 63 and jet side vacuum breaker mechanism 65 described below) of the valve device 6 of the toilet flushing device 7 where the water joins at the front base 41. The water that drains downward from the three drain openings 414a is discharged onto the rear inclined surface 212 of the toilet bowl 21 of the toilet 2.

As shown in Figures 2 and 9, the valve device 6 is connected to a cleaning water inlet supply passage 72 and a booster water inlet/outlet passage 73 through which water from the booster 71 flows.

2 and 10, the valve device 6 has a main water supply passage L1, a rim side branch water supply passage L2, a rim side communication passage L4, a jet side branch water supply passage L3, a booster water flow passage L34, and a jet side communication passage L5. The valve device 6 has a water supply valve 611, a pressure reducing valve 612, a rim side constant flow valve 613, a rim side diaphragm valve 614, a rim side vacuum breaker mechanism 63 (vacuum breaker mechanism), a rim side overflow water storage section 62 (overflow water storage section), a jet side constant flow valve 616, a jet side diaphragm valve 618, a jet side vacuum breaker mechanism 65 (vacuum breaker mechanism), and a jet side overflow water storage section 64 (overflow water storage section).

Flush water from the water pipe is introduced into the main water supply passage L1 from the flush water inlet 602 via the flush water introduction water supply passage 72. The downstream end of the flush water introduction water supply passage 72 is connected to the flush water inlet 602 at the upstream end of the main water supply passage L1, and the downstream end of the main water supply passage L1 branches in two directions, the rim side branch water supply passage L2 and the jet side branch water supply passage L3, at the branch section 612a. The main water supply passage L1 is provided with a water supply valve 611, a pressure reducing valve 612, and a branch section 612a, in that order from upstream to downstream. The water supply valve 611 is composed of an electromagnetic valve, and is opened and closed by the user operating a flush switch (not shown).

As shown in Figures 2 and 10, the rim side branch water supply passage L2 is a flow path from a branch 612a located at the downstream end of the main water supply passage L1 to the rim side discharge section 603 via a rim side communication passage branch 615. The rim side branch water supply passage L2 has a rim side first branch passage L21 from the branch 612a to the rim side communication passage branch 615, and a rim side second branch passage L22 from the rim side communication passage branch 615 to the rim side discharge section 603.

In the rim-side first branch passage L21, from upstream to downstream, a rim-side constant flow valve 613, a rim-side diaphragm valve 614, and a rim-side communication passage branch section 615 are provided. At the downstream end of the rim-side second branch passage L22, a rim-side discharge section 603 is provided. The flush water discharged from the rim-side discharge section 603 is supplied to the rim spout 741 of the toilet 2 via the rim-side water supply passage 74, as shown in Figure 2.

With the above configuration, the flush water introduction water supply passage 72, the main water supply passage L1, the rim side branch water supply passage L2, and the rim side water supply passage 74 form a water supply passage that supplies flush water to the toilet bowl 2 from the top of the toilet bowl 2.

The rim side communication passage L4 (communication passage) is connected to the rim side communication passage branch 615. The rim side communication passage L4 connects the rim side branch water supply passage L2 to the outside. The upstream end of the rim side communication passage L4 is connected to the rim side branch water supply passage L2 at the rim side communication passage branch 615, and the downstream end is connected to the rim side overflow water storage section 62. A rim side vacuum breaker mechanism 63 is disposed downstream of the rim side communication passage L4. The rim side vacuum breaker mechanism 63 has a rim side opening/closing member 631 (opening/closing section) that can open and close the rim side communication passage L4.

When flushing water is discharged from the rim water outlet 741, the rim side opening/closing member 631 closes the rim side communication passage L4 as shown in FIG. 10, and when the rim side branch water supply passage L2 becomes negative pressure, as shown in FIG. 11, it moves downward to open the rim side communication passage L4, thereby opening the rim side branch water supply passage L2 that communicates with the rim side communication passage L4 to the atmosphere.

If a malfunction occurs in the rim-side vacuum breaker mechanism 63, such as when a foreign object gets caught in the rim-side opening/closing member 631, cleaning water will overflow. The overflow water that overflows from the rim-side vacuum breaker mechanism 63 is temporarily stored in the rim-side overflow water storage section 62.

The rim-side overflow water storage section 62 is connected to the downstream end of the rim-side communication passage L4. The rim-side overflow water storage section 62 is formed to be in communication with the atmosphere. The rim-side overflow water storage section 62 is configured to temporarily store and discharge overflow water that overflows through the rim-side communication passage L4. As shown in Figures 9 and 10, the rim-side overflow water storage section 62 includes a rim-side overflow water storage section main body 621 and a rim-side lid section 628.

As shown in FIG. 12, the rim side lid 628 is removably attached to the top of the rim side overflow water storage body 621. The outer periphery of the rim side lid 628 is positioned inside the upper end of the rim side outer periphery wall 623 of the rim side overflow water storage body 621. This prevents water from leaking outward even if water adheres to the inner surface of the rim side lid 628, because the upper end of the rim side outer periphery wall 623 can prevent the water from flowing outward.

As shown in FIG. 12, the rim side cover 628 has two rim cover side claws 628a extending downward from the edge. The two rim cover side claws 628a are removably engaged with two rim peripheral wall side claws 623e formed on the outer surface of the rim side outer peripheral wall 623. The rim side cover 628 is formed with a rectangular rim side atmosphere opening 628b that penetrates vertically, and a screw attachment opening 628c.

The rim side overflow water storage body 621 has a rim side bottom 622, a rim side outer peripheral wall 623, a rim side cylindrical wall 624, a rim side connection port 623a, and an overflow water discharge port 623c.

As shown in FIG. 11, the rim side bottom 622 is formed with a rim side opening component 622a that can be opened and closed by the rim side vacuum breaker mechanism 63. The rim side opening component 622a has an upper surface disk 622b, a shaft tube 622c, and a number of partition plates 622d extending radially from the shaft tube 622c. The space partitioned by the multiple partition plates 622d constitutes a number of rim side communication openings 622e that communicate between the outside and the rim side communication passage L4. When the inside of the rim side branch water supply passage L2 (see FIG. 2) becomes negative pressure, the rim side communication openings 622e communicate with the outside when the rim side opening and closing member 631 of the rim side vacuum breaker mechanism 63 moves to the open position.

As shown in FIG. 11, a downwardly sloping surface 622f is formed on the upper surface of the rim-side bottom 622, sloping downward as it approaches the rim-side opening component 622a. This allows the small amount of water remaining on the upper surface of the rim-side bottom 622 to be returned by the downwardly sloping surface 622f to the rim-side vacuum breaker mechanism 63 side located below the rim-side opening component 622a.

As shown in Figures 12 and 13, a cylindrical rim side connection port 623a that protrudes laterally is provided on the side of the rim side outer peripheral wall 623 facing the jet side overflow water storage section 64. As shown in Figure 12, the rim side connection port 623a is formed in a cylindrical shape that protrudes from the side of the rim side outer peripheral wall 623 facing the jet side overflow water storage section 64 toward the jet side overflow water storage section 64.

As shown in Figures 12 and 13, an overflow drain port 623c is provided on the front side of the rim-side outer peripheral wall 623. The overflow drain port 623c is formed in a cylindrical shape that protrudes downwardly toward the front side diagonally with respect to the front-to-rear direction of the toilet 2. A drain hose 67 (drainage section) is connected to the overflow drain port 623c. Details of the drain hose 67 will be described later.

The rim side cylindrical wall portion 624 is formed in a cylindrical shape that extends upward from the rim side bottom portion 622, as shown in Figures 12 and 14. When fixing the rim side overflow water storage body 621 to the top of the valve device 6, as shown in Figure 14, a screw 621a is inserted into the rim side cylindrical wall portion 624. With the screw 621a inserted into the rim side cylindrical wall portion 624, the rim side bottom portion 622 can be fixed to the top of the valve device 6 with the head 621b of the screw 621a positioned at the bottom end of the back side of the rim side cylindrical wall portion 624.

As shown in Figures 2 and 10, the jet side branch water supply passage L3 is a flow path from the branch 612a located at the downstream end of the main water supply passage L1 to the jet side discharge section 604 via the booster water junction 617 and the jet side communication passage branch 619. The jet side branch water supply passage L3 has a jet side first branch passage L31 from the branch 612a to the jet side communication passage branch 619 via the booster water junction 617, and a jet side second branch passage L32 from the jet side communication passage branch 619 to the jet side discharge section 604.

In the jet side first branch passage L31, from upstream to downstream, a jet side constant flow valve 616, a booster water junction 617, a jet side diaphragm valve 618, and a jet side communication passage branch 619 are provided. At the downstream end of the jet side second branch passage L32, a jet side discharge section 604 is provided. The flushing water discharged from the jet side discharge section 604 is supplied to the jet water outlet 751 of the toilet bowl 2 via the jet side water supply passage 75, as shown in FIG. 2.

The booster water flow passage L34 is connected to the booster water junction 617. The booster 71 stores the booster water supplied by the booster water flow passage L34 and the booster water inlet/outlet passage 73 via the booster water junction 617, and circulates the pressurized booster water through the booster water inlet/outlet passage 73 and the booster water flow passage L34 in accordance with the timing of the flush water discharged from the jet water outlet 751 into the toilet bowl 2, and supplies the pressurized booster water to the jet side first branch passage L31 of the valve device 6 via the booster water junction 617.

With the above configuration, the flush water introduction water supply passage 72, the main water supply passage L1, the jet side branch water supply passage L3, and the jet side water supply passage 75 constitute a water supply passage that supplies flush water to the toilet bowl 2 from the bottom of the toilet bowl 2.

The jet side communication passage L5 (communication passage) is connected to the jet side communication passage branch 619. The jet side communication passage L5 connects the jet side branch water supply passage L3 to the outside. The upstream end of the jet side communication passage L5 is connected to the jet side branch water supply passage L3 at the jet side communication passage branch 619, and the downstream end is connected to the jet side overflow water storage section 64. A jet side vacuum breaker mechanism 65 is disposed downstream of the jet side communication passage L5. The jet side vacuum breaker mechanism 65 has a jet side opening/closing member 651 (opening/closing section) that can open and close the jet side communication passage L5.

When cleaning water is discharged from the jet water outlet 751, the jet side opening/closing member 651 closes the jet side branch water supply passage L3 as shown in FIG. 10, and when negative pressure occurs on the jet side communication passage L5 side, as shown in FIG. 11, it moves downward to open the jet side communication passage L5, thereby opening the jet side branch water supply passage L3 to the atmosphere.

If a malfunction occurs in the jet side vacuum breaker mechanism 65, such as when a foreign object gets caught in the jet side opening/closing member 651, cleaning water will overflow. The overflow water that overflows from the jet side vacuum breaker mechanism 65 is temporarily stored in the jet side overflow water storage section 64.

The jet side overflow water storage section 64 is connected to the downstream end of the jet side communication passage L5. The jet side overflow water storage section 64 is formed to be in communication with the atmosphere. The jet side overflow water storage section 64 is configured to temporarily store and discharge overflow water that overflows through the jet side communication passage L5. As shown in Figures 9 and 10, the jet side overflow water storage section 64 includes a jet side overflow water storage section main body 641 and a jet side lid section 648.

As shown in FIG. 12, the jet side lid 648 is removably attached to the top of the jet side overflow water storage body 641. The outer edge of the jet side lid 648 is positioned inside the upper end of the jet side outer peripheral wall 643 of the jet side overflow water storage body 641. This prevents water from leaking outward even if water adheres to the inner surface of the jet side lid 648, because the upper end of the jet side outer peripheral wall 643 can prevent water from leaking outward.

As shown in FIG. 12, the jet side lid portion 648 has two jet lid side claws 648a extending downward from the edge. The two jet lid side claws 648a are detachably engaged with two jet peripheral wall portion side claws 643e formed on the outer surface of the jet side outer peripheral wall portion 634. The jet side lid portion 648 is formed with a rectangular jet side atmospheric release opening 648b that penetrates in the vertical direction, and a screw attachment opening 648c.

The jet side overflow water storage body 641 has a jet side bottom 642, a jet side outer peripheral wall 643, a jet side cylindrical wall 644, and a jet side connection port 643a.

As shown in FIG. 11, the jet side bottom 642 is formed with a jet side opening component 642a that can be opened and closed by the jet side vacuum breaker mechanism 65. The jet side opening component 642a has an upper surface disk 642b, a shaft tube 642c, and a plurality of partition plates 642d extending radially from the shaft tube 642c. The space partitioned by the plurality of partition plates 642d constitutes a plurality of jet side communication openings 642e that communicate between the outside and the jet side communication passage L5. When the inside of the jet side branch water supply passage L3 (see FIG. 2) becomes negative pressure, the jet side communication openings 642e communicate with the outside when the jet side opening and closing member 651 of the jet side vacuum breaker mechanism 65 moves to the open position.

As shown in FIG. 11, a downwardly inclined surface 642f is formed on the upper surface of the jet side bottom 642, which slopes downward as it approaches the jet side opening component 642a. This allows the small amount of water remaining on the upper surface of the jet side bottom 642 to be returned by the downwardly inclined surface 642f to the jet side vacuum breaker mechanism 65 side, which is disposed below the jet side opening component 642a.

As shown in Figures 12 and 13, a cylindrical jet side connection port 643a that protrudes laterally is provided on the side of the jet side outer peripheral wall 643 facing the rim side overflow water storage unit 62. As shown in Figure 12, the jet side connection port 643a is formed in a cylindrical shape that protrudes from the side of the jet side outer peripheral wall 643 facing the rim side overflow water storage unit 62 toward the rim side overflow water storage unit 62.

As shown in FIG. 13, the jet side connection port 643a of the jet side overflow water storage section 64 and the rim side connection port 623a of the rim side overflow water storage section 62 are connected by a relay hose 66. The relay hose 66 is formed into a cylindrical shape that extends horizontally. The relay hose 66 is formed, for example, from a rubber hose, and has a function of stopping water at the connection portion between the jet side connection port 643a and the rim side connection port 623a.

The height of the bottom surface 623b of the inner surface of the rim side connection port 623a and the height of the bottom surface 643b of the inner surface of the jet side connection port 643a are formed to the same height.

The height of the bottom surface 623b of the inner surface of the rim side connection port 623a and the height of the bottom surface 643b of the inner surface of the jet side connection port 643a are formed at a position higher than the bottom surface of the port outlet 623d on the base end side of the overflow drain port 623c. As a result, the overflow water contained in the rim side overflow water storage section 62 and the jet side overflow water storage section 64 flows to the overflow water drain port 623c side, and the overflow water is discharged from the overflow water drain port 623c via the drain hose 67.

As shown in Figs. 12 and 14, the jet side cylindrical wall 644 is formed in a cylindrical shape that extends upward from the jet side bottom 642. As shown in Fig. 14, a screw 641a is inserted into the jet side cylindrical wall 644 when fixing the jet side overflow water storage body 641 to the top of the valve device 6. The screw 641a inserted into the jet side cylindrical wall 644 allows the jet side bottom 642 to be fixed to the top of the valve device 6 with the head 641b of the screw 641a positioned at the bottom end of the back side of the jet side cylindrical wall 644.

In the above toilet flushing device 7, the overflow storage section that stores overflow water from the valve device 6 is divided into a rim-side overflow storage section 62 and a jet-side overflow storage section 64. After being divided into the rim-side overflow storage section 62 and the jet-side overflow storage section 64, they are connected by a relay hose 66, and an overflow discharge port 623c is provided that discharges overflow water only to one of the rim-side overflow storage sections 62.

In this embodiment, the rim-side overflow water storage section 62 and the jet-side overflow water storage section 64 are arranged at approximately the same height. This is not limited to the above. Since only one of the rim-side overflow water storage sections 62 has an overflow water discharge port 623c, which is an outlet for draining overflow water, the rim-side overflow water storage section 62 and the jet-side overflow water storage section 64 may be arranged at different levels so that the bottom surface of the rim-side overflow water storage section 62 is lower than the bottom surface of the jet-side overflow water storage section 64, making it easier for overflow water to flow to the rim-side overflow water storage section 62.

The drain hose 67 connected to the valve device 6 will now be described. As shown in FIG. 5, the drain hose 67 guides the overflow water that has overflowed from the rim-side vacuum breaker mechanism 63 and is stored in the rim-side overflow water storage section 62, and the overflow water that has overflowed from the jet-side vacuum breaker mechanism 65 and is stored in the jet-side overflow water storage section 64, to the front base 41. The drain hose 67 is made of, for example, silicone resin.

The base end of the drain hose 67 is connected to an overflow drain port 623c formed on the front side of the rim-side overflow storage section 62. An outlet 671 is formed at the tip of the drain hose 67. The outlet 671 is positioned opposite the upper ends of the multiple ribs 413 of the front base 41. The outlet 671 is positioned above the lower end of the toilet bowl 2 and exposed to the outside.

The outlet 671 discharges the overflow water that overflows from the rim side communication passage L4 (see FIG. 10) and the jet side communication passage L5 (see FIG. 10) to the outside. As a result, the overflow water that overflows from the rim side vacuum breaker mechanism 63 and is stored in the rim side overflow water storage section 62, and the overflow water that overflows from the jet side vacuum breaker mechanism 65 and is stored in the jet side overflow water storage section 64 can be discharged from the outlet 671 of the drain hose 67, allowing the overflow water to be discharged to a location that is easily noticeable by the user.

As shown in FIG. 5, the drain hose 67 is held by the first hose holding portion 55 (stopper portion) and the second hose holding portion 56 (stopper portion) midway from the overflow drain port 623c to where it is positioned opposite the multiple ribs 413 of the front base 41. The first hose holding portion 55 and the second hose holding portion 56 are fixed to a part of the functional portion 5.

The first hose holding part 55 holds the central portion of the drain hose 67 from the base end to the tip. As shown in FIG. 5, the first hose holding part 55 is fixed to the upper part of the pump mechanism 521 of the sanitary washing unit 52. The first hose holding part 55 has a base plate 551 extending in a predetermined direction, a pair of side plates 552 rising from both ends in the width direction of the base plate 551, an inlet side upper surface plate 553 that is hung between the pair of side plates 552 at the base end side of the base plate 551, and multiple claws 554 that protrude inward at the upper ends of the pair of side plates 552.

The second hose holding portion 56 holds the portion of the drain hose 67 near the tip between the base end and the tip. The second hose holding portion 56 has an extension plate 561 that extends forward from the front portion of the pump mechanism 521 of the sanitary washing unit 52, and a holding opening 562 that is formed at the tip of the extension plate 561 and penetrates in the vertical direction. The holding opening 562 is formed in a hook shape with a portion of the circumference open so that the drain hose 67 can be attached and detached.

The drain hose 67 held by the first hose holding portion 55 and the second hose holding portion 56 has a base end slack portion 672, a bent portion 673, a first hose holding portion arrangement portion 674, an S-shaped curved portion 675, and a tip end straight portion 676. The drain hose 67 is arranged in the following order from the base end to the tip end: the base end slack portion 672, the bent portion 673, the first hose holding portion arrangement portion 674, the S-shaped curved portion 675, and the tip end straight portion 676. The bent portion 673 is arranged near the center of the drain hose 67 in the longitudinal direction.

The base end slack portion 672 is disposed on the base end side of the drain hose 67 in a slackened state. The base end slack portion 672 has a curved portion that curves from the overflow drain port 623c toward the front and toward one side in the left-right direction, and extends linearly a predetermined length to one side in the left-right direction from the end of the curved portion opposite the overflow drain port 623c.

The bent portion 673 is connected to one of the left and right ends of the base end slack portion 672. The bent portion 673 is bent and fixed at the rear end portions of the inlet side upper plate 553 and the pair of side plates 552 of the first hose holding portion 55 so that the portion facing one left and right direction faces forward. The drain hose 67 is fixed at the bent portion 673 by twisting it outward relative to the bend.

The first hose holding part arrangement portion 674 is a portion that is arranged along the first hose holding part 55 so as to extend from the front end of the bent part 673 toward the front side. The first hose holding part arrangement portion 674 is held along the first hose holding part 55 and is fixed along the upper surface of the base plate 551 between the pair of side plates 552 in a state in which it is prevented from falling off by the multiple claws 554. The first hose holding part arrangement portion 674 extends from the rear side to the front side along the first hose holding part 55, and has a portion that extends at a downward angle on the front side.

The S-shaped curved portion 675 is connected to the front end of the first hose holding portion arrangement portion 674. The S-shaped curved portion 675 extends in the vertical direction and is gently curved downward from the front end of the first hose holding portion arrangement portion 674 in an S-shape.

The tip-side straight portion 676 extends vertically in a straight line from the lower end of the S-shaped curved portion 675 to the outlet 671 at the tip of the drain hose 67. The tip-side straight portion 676 is held midway by the second hose holding portion 56.

In the above toilet flushing device 7, while the toilet 2 is being flushed, the user may be distracted by the flushing water flowing into the toilet 2 and may not notice the discharge of a small amount of overflowing water from the rim side communication passage L4 of the valve device 6. In contrast, in this embodiment, the overflowing water is configured to be discharged from the rim side communication passage L4 after the flushing water has finished being discharged from the rim water outlet 741 of the toilet 2.

Specifically, the toilet flushing device 7 has a structure that drains overflowing water from the rim side communication passage L4 when the flow rate of flushing water discharged from the rim water discharge port 741 of the toilet 2 into the toilet 2 becomes less than the normal flushing flow rate. In particular, it is configured to drain overflowing water from the rim side communication passage L4 after flushing water discharge from the rim water discharge port 741 is completed. "After water discharge from the rim water discharge port 741 is completed" means when the water supply valve 611 of the valve device 6 is closed and the flushing flow rate of water discharged from the rim water discharge port 741 becomes less than the normal flushing flow rate.

When the flow rate of flush water discharged from the rim spout 741 of the toilet 2 into the toilet 2 becomes lower than the normal flush flow rate, the structure for discharging the overflow water from the rim side communication passage L4 includes, for example, a structure for delaying the drainage of the overflow water from the rim side communication passage L4. Examples of the structure for delaying the drainage of the overflow water from the rim side communication passage L4 include a structure for lengthening the length of the drain hose 67, a structure for increasing the cross-sectional area of the drain hose 67, and a structure for temporarily storing the overflow water.

By using a structure that delays the drainage of water that overflows from the rim side communication passage L4, it is possible to drain the water that overflows from the rim side communication passage L4 when the flushing flow rate of the water discharged from the rim water outlet 741 becomes less than that of a normal flush. This allows the water that overflows from the rim side communication passage L4 of the valve device 6 to be discharged while the toilet 2 is not being flushed, making it easier for the user to notice that the water has been discharged from the rim side communication passage L4.

The above toilet flushing device 7, the water circuit of the functional unit 5, and the front base 41 are configured so that the amount of water discharged from the front base 41 is greater than the total amount of water overflowing from the valve device 6 of the toilet flushing device 7 and the water overflowing from the water circuit of the functional unit 5.

In this embodiment, as shown in Fig. 3, the opening area of the outlet 671 (see Fig. 5) of the drain hose 67, through which overflow water of the vacuum breaker mechanism (rim-side vacuum breaker mechanism 63, jet-side vacuum breaker mechanism 65) of the toilet flushing device 7 is discharged, is ^51.5 mm2. The opening area of the outlet (not shown) of the drain hose 525, through which overflow water of the vacuum breaker (not shown) of the sanitary flushing unit 52, which is the water circuit of the functional part 5, is discharged, is 53.5 ^mm2 . The total opening area of the three discharge openings 414a of the front base 41 is 113.4 ^mm2 .

As a result, the total opening area of the overflow water discharged into the front base 41 is 105.0 mm ² (opening area 51.5 mm ² of the drain hose 67 of the toilet flushing device 7 + opening area 53.5 mm ² of the drain hose 525 of the sanitary flushing unit 52). Therefore, the water circuit of the functional part 5 and the front base 41 are configured so that the amount of water discharged from the front base 41 (opening area 113.4 mm ² of the three drain openings 414a of the front base 41) is greater than the total amount of water overflowing from the valve device 6 of the toilet flushing device 7 and the water overflowing from the water circuit of the functional part 5 (opening area 105.0 mm ² of the overflow water discharged into the front base 41). This makes it possible to prevent overflow water from continuing to accumulate in the front base 41.

The lifting device 8 is a mechanism that raises and lowers the front base 41 between a fixed position before it is raised (see FIG. 15) and a raised position (see FIG. 16) after it is raised from the fixed position. As shown in FIGS. 4, 15, and 16, the lifting device 8 includes a movable member 81 and a drive device 82.

The movable member 81 is fixed to the rear of the front base 41. When a motor (not shown) of the drive device 82 is driven, the movable member 81 is raised and lowered, for example, via a rack-and-pinion mechanism. This allows the lifting device 8 to raise and lower the front base 41 fixed to the movable member 81 between a fixed position (see FIG. 15) and a raised position (see FIG. 16).

In this embodiment, as shown in FIG. 15, when the lifting device 8 positions the front base 41 in a fixed position, the drain hose 67 is fixed in a slack state at the base end slack portion 672. As shown in FIG. 16, when the lifting device 8 positions the front base 41 in a raised position (see FIG. 16), the base end slack portion 672 of the drain hose 67 is inclined at an inverse gradient to when the front base 41 is in a fixed position, and is fixed so that water flows toward the rim side overflow water storage portion 62.

In the toilet device 1 configured as above, we will explain the flow of overflow water that joins at the front base 41.

The overflow from the valve device 6 and the overflow from the water circuit of the functional unit 5 join together in the front base 41. For example, overflow from the valve device 6 is discharged to the front base 41 via a drain hose 67 connected to the valve device 6. This reduces the effort required to check for overflow from multiple locations in the water circuits of the toilet flushing device 7 and the functional unit 5 by simply checking the overflow discharged to the front base 41.

The outlet 671 at the end of the drain hose 67 is positioned above the bottom end of the toilet bowl 2 so that the outlet 671 is exposed to the outside, allowing water that overflows from the vacuum breaker mechanism (rim-side vacuum breaker mechanism 63, jet-side vacuum breaker mechanism 65) to be discharged to a location where the user can easily notice it.

The overflow discharged from the outlet 671 of the drain hose 67 flows from the upper stage 411a of the bottom surface 411 of the front base 41 through the step 411b to the lower stage 411c, as shown in FIG. 5, with the retention of the overflow water on the bottom surface 411 reduced by the multiple ribs 413.

The overflow of the flushing water that joins together at the front base 41 is discharged by the front base discharge section 414 formed on the front end side of the front base 41 into the toilet bowl 21 of the toilet 2 located below the front base 41.

The toilet device 1 of this embodiment described above provides the following advantages:

The toilet device 1 of this embodiment includes a water supply passage that supplies flushing water to the toilet 2, a communication passage (rim side communication passage L4, jet side communication passage L5) that connects the water supply passage with the outside, a vacuum breaker mechanism (rim side vacuum breaker mechanism 63, jet side vacuum breaker mechanism 65) that is arranged in the communication passages L4 and L5 and has an opening/closing part (rim side opening/closing member 631, jet side opening/closing member 651) that can open and close the communication passages L4 and L5, and a drain hose 67 that has a drain outlet 671 that is exposed to the outside above the bottom end of the toilet 2 and drains water that overflows from the communication passages L4 and L5 to the outside from the drain outlet 671. Therefore, because the drain outlet 671 is exposed to the outside above the bottom end of the toilet 2, the overflowing water can be drained from the vacuum breaker mechanism (rim side vacuum breaker mechanism 63, jet side vacuum breaker mechanism 65) in a place that is easily noticeable by the user. This allows the user to easily notice any malfunctions in the vacuum breaker mechanism (rim side vacuum breaker mechanism 63, jet side vacuum breaker mechanism 65).

In this embodiment, the toilet is provided with a front base 41 that is placed on the upper rear part of the toilet bowl 2, and overflow water discharged by the drain hose 67 is discharged to the outside via the front base 41. As a result, water overflowing from the vacuum breaker mechanism (rim side vacuum breaker mechanism 63, jet side vacuum breaker mechanism 65) can be discharged to the front base 41 where it is easy for users to notice, so that by checking the front base 41, users can easily notice any malfunctions in the vacuum breaker mechanisms (rim side vacuum breaker mechanism 63, jet side vacuum breaker mechanism 65).

In this embodiment, the drain hose 67 is connected to the overflow water storage section (rim side overflow water storage section 62, jet side overflow water storage section 64) that stores overflow water that overflows from the communication passage (rim side communication passage L4, jet side communication passage L5). The drain hose 67 is fixed so that water flows toward the overflow water storage section (rim side overflow water storage section 62, jet side overflow water storage section 64) when the front base 41 is positioned in the elevated position by the lifting device 8 that raises and lowers the front base 41 between the fixed position and the elevated position. This makes it possible to prevent water from flowing toward the outlet 671 at the tip of the drain hose 67 when the front base 41 is positioned in the elevated position. Therefore, even if the front base 41 is positioned in the elevated position and moved away from the toilet bowl 21 for cleaning the toilet bowl 2 or the like, overflow water is not discharged toward the toilet bowl 21, so that overflow water can be prevented from scattering outside the toilet bowl 21.

In this embodiment, there are overflow water storage sections (rim side overflow water storage section 62, jet side overflow water storage section 64) that store overflow water that overflows from the communication passages (rim side communication passage L4, jet side communication passage L5), and the drain hose 67 is connected to the side of the overflow water storage section (rim side overflow water storage section 62, jet side overflow water storage section 64). As a result, by connecting the drain hose 67 to the side of the overflow water storage section (rim side overflow water storage section 62, jet side overflow water storage section 64), the height dimension can be made compact without using the drain hose 67 as a drain trap.

In this embodiment, the toilet includes a functional part 5 that is disposed at the rear of the toilet bowl 2, and a first hose holding part 55 and a second hose holding part 56 that fix a drain hose 67 to a part of the functional part 5. This allows the drain hose 67 to be fixed so that overflowing water can be stably drained.

In this embodiment, the drain hose 67 is fixed in a slack state. Therefore, when the lifting device 8 is used to raise and lower the drain hose 67 can follow it. This makes it possible to prevent the drain hose 67 from buckling even when the drain hose 67 is raised and lowered by the lifting device 8.

In this embodiment, the drain hose 67 has a bent portion 673, and is fixed by twisting it outward relative to the bend at the bent portion 673. This makes it difficult for the bent portion 653 of the drain hose 67 to buckle.

In this embodiment, when the flow rate of flushing water discharged into the toilet bowl 2 from the rim water discharge port 741 and jet water discharge port 751 of the toilet bowl 2 becomes lower than the normal flushing flow rate, the structure is provided to drain overflowing water from the communication passages (rim side communication passage L4, jet side communication passage L5). This allows overflowing water to be discharged from the rim side communication passage L4 of the valve device 6 while the toilet bowl 2 is not being flushed, so the user is less likely to be distracted by the flushing of the toilet bowl 2 and is more likely to notice that overflowing water has been discharged from the rim side communication passage L4.

A valve device 6A of the second embodiment will be described. The valve device 6A of the second embodiment differs from the first embodiment mainly in the configuration of the vacuum breaker mechanism. The other configurations of the second embodiment are similar to those of the first embodiment. In describing the configuration of the second embodiment, the description of the same configuration as the first embodiment may be omitted.

The configuration of the vacuum breaker mechanism of the second embodiment differs from the configuration of the vacuum breaker mechanism of the first embodiment (rim side vacuum breaker mechanism 63, jet side vacuum breaker mechanism 65). The rim side vacuum breaker mechanism 68 of the second embodiment will be described. The jet side vacuum breaker mechanism of the second embodiment (not shown) is similar to the rim side vacuum breaker mechanism 68, so description thereof will be omitted.

As shown in FIG. 17, the rim-side vacuum breaker mechanism 68 of the second embodiment includes an overflow water storage section 62A that is connected to the rim-side communication passage L4 and stores overflow water, a main opening/closing section 681 that is disposed in the rim-side communication passage L4 and opens and closes the rim-side communication passage L4, and a float opening/closing section 682 that is disposed in the overflow water storage section 62A.

When the overflow water contained in the overflow water storage section 62A rises, the float opening/closing section 682 rises to be able to open and close the atmosphere opening 684 of the overflow water storage section 62A. The atmosphere opening 684 is not shown in the figure. It is open to the atmosphere.

The bottom of the overflow storage section 62A is formed with multiple rim-side openings 683 that can be opened and closed by the rim-side vacuum breaker mechanism 63. The multiple rim-side openings 683 communicate between the outside and the rim-side communication passage L4. When the inside of the rim-side branch water supply passage L2 (see Figure 2) becomes negative pressure, the main opening/closing section 681 of the rim-side vacuum breaker mechanism 68 moves to the open position, and the rim-side openings 683 communicate with the outside.

When overflow water enters the overflow water storage section 62A, the rim-side vacuum breaker mechanism 68 drains the overflow water to the front base 41 via the drain hose 67, as in the first embodiment, and the float opening/closing section 682 rises above the overflow water. When the amount of overflow water inside the overflow water storage section 62A exceeds a predetermined amount due to the float opening/closing section 682 rising, the float opening/closing section 682 closes the atmospheric release opening 684. This prevents overflow water from leaking to the outside from the overflow water storage section 62A.

A toilet apparatus 1A of the third embodiment will be described. As shown in Figures 18 and 19, the toilet apparatus 1A of the third embodiment comprises a toilet bowl 2, a toilet lid 3, a base member 43 that is disposed on the upper rear portion of the toilet bowl 2, and a flushing tank 11 (rear member) that is disposed rearward of the base member 43.

As shown in FIG. 19, a functional part 5A having a sanitary cleaning unit 52A (sanitary cleaning device) is disposed on the upper part of the base member 43. A cleaning nozzle 522A of the sanitary cleaning unit 52A (sanitary cleaning device) is disposed on the base member 43. The cleaning nozzle 522A is configured to be movable forward and backward, and is used for anal cleaning and bidet cleaning to clean private parts of the human body.

If the flushing tank 11 is damaged or otherwise defective, flushing water may overflow from the flushing tank 11. In this embodiment, the water that overflows from the flushing tank 11 is directed onto the upper surface of the base member 43. The overflowing water from the flushing tank 11 that has been directed onto the base member 43 is then discharged into the toilet bowl 21 of the toilet 2 via a drain outlet (not shown) formed in the base member 43. As a result, the water that overflows from the flushing tank 11 is discharged to the outside via the base member 43.

According to the third embodiment, overflowing water from the cleaning tank 11 can be discharged into the base member 43, where the user can easily notice it. This allows the user to easily notice any malfunctions, such as damage to the cleaning tank 11.

The above describes a preferred embodiment of the present disclosure. The present disclosure is not limited to the above-described embodiment, and can be modified as appropriate.

For example, in the first embodiment, the overflow water that overflows from the vacuum mechanism is discharged into the toilet bowl via the front base 41. This is not limiting. For example, the overflow water may be discharged into the toilet bowl. When discharging overflow water into the toilet bowl, the overflow water may be allowed to flow into the toilet bowl from the upper part of the opening of the toilet bowl or the opening of the toilet bowl, or holes may be opened in the upper part of the outer periphery of the toilet bowl or in the outer wall of the toilet bowl to discharge the overflow water to the outside.

In the first embodiment, the merging portion is formed by the front base 41. This is not limited to the above. The merging portion may be formed on the top surface of the toilet. When the merging portion is formed on the top surface of the toilet, for example, a hole may be drilled in the front base 41, and the flows may be merged on the top surface of the toilet.

In the first embodiment, the fastening portion that fastens the drain hose to a part of the functional part is composed of two parts, the first hose holding part 55 and the second hose holding part 56. This is not limited to this. For example, the fastening portion may be composed of one or three or more parts. For example, the fastening portion may be fixed to the cover of the functional part.

In the first embodiment, the front base 41 is raised and lowered by the lifting device 8. This is not limiting. The lifting device does not necessarily have to be provided.

In the third embodiment, the water that overflows from the cleaning tank 11 is discharged to the outside via the base member 43. This is not a limitation.

In the third embodiment, the rear member located rearward of the base member is the cleaning tank 11. This is not limited to this. Any member that leaks and overflows with water may be used.

1 toilet device, 7 toilet flushing device, 8 lifting device, 11 flushing tank (rear side member), 41 front base (base member), 43 base member, 52A sanitary flushing unit (sanitary flushing device), 55 first hose holding portion (stopping portion), 56 second hose holding portion (stopping portion), 62 rim side overflow water storage portion (overflow water storage portion), 63 rim side vacuum breaker mechanism (vacuum breaker mechanism), 64 jet side overflow water storage portion (overflow water storage portion), 65 jet side vacuum breaker mechanism (vacuum breaker mechanism), 67 drain hose (discharge portion), 68 rim side vacuum breaker mechanism (vacuum breaker mechanism), 631 rim side opening and closing member (opening and closing portion), 651 jet side opening and closing member (opening and closing portion), 671 discharge port, 681 main opening and closing portion, 682 float opening and closing portion, 684 atmosphere release opening, 741 rim water outlet (flush water outlet), 751 Jet water outlet (cleaning water outlet), L4 rim side communication passage (communication passage)
L5 Jet side communication passage (communication passage)

Claims (7)

a water supply channel for supplying flush water to the toilet bowl;
A communication passage that communicates the water supply passage with the outside;
a vacuum breaker mechanism disposed in the communication passage and having an opening/closing part capable of opening and closing the communication passage;
a drain section having a drain outlet disposed above a lower end of the toilet bowl and exposed to the outside, the drain outlet discharging water that overflows from the communication passage to the outside;
a base member disposed on an upper portion of the rear portion of the toilet bowl ,
The overflow water discharged by the discharge portion is discharged to the outside via the base member,
an overflow water storage section for storing overflow water overflowing from the communication passage,
The discharge portion has a hose connected to the overflow water storage portion,
In a toilet device, the hose is fixed so that water flows toward the overflow water storage section when the base member is positioned in an elevated position by a lifting device that raises and lowers the base member between a fixed position and an elevated position . a water supply channel for supplying flush water to the toilet bowl;
A communication passage that communicates the water supply passage with the outside;
a vacuum breaker mechanism disposed in the communication passage and having an opening/closing part capable of opening and closing the communication passage;
a drain section having a drain outlet disposed above a lower end of the toilet bowl and exposed to the outside, the drain outlet discharging water that overflows from the communication passage to the outside;
a base member disposed on an upper portion of the rear portion of the toilet bowl ,
The overflow water discharged by the discharge portion is discharged to the outside via the base member,
an overflow water storage section for storing overflow water overflowing from the communication passage,
The discharge section has a hose connected to a side surface of the overflow water storage section,
In the toilet apparatus, the hose is fixed in a slack state when the base member is positioned at a fixed position by a lifting device that raises and lowers the base member between a fixed position and a raised position . a water supply channel for supplying flush water to the toilet bowl;
A communication passage that communicates the water supply passage with the outside;
a vacuum breaker mechanism disposed in the communication passage and having an opening/closing part capable of opening and closing the communication passage;
a drainage section having a drain outlet disposed above a lower end of the toilet bowl and exposed to the outside, and configured to drain water overflowing from the communication passage to the outside through the drain outlet ;
an overflow water storage section for storing overflow water overflowing from the communication passage,
The discharge portion has a hose connected to the overflow water storage portion,
A functional part disposed at a rear part of the toilet bowl;
A stopper portion that fixes the hose to a portion of the functional portion . a water supply channel for supplying flush water to the toilet bowl;
A communication passage that communicates the water supply passage with the outside;
a vacuum breaker mechanism disposed in the communication passage and having an opening/closing part capable of opening and closing the communication passage;
a drainage section having a drain outlet disposed above a lower end of the toilet bowl and exposed to the outside, and configured to drain water overflowing from the communication passage to the outside through the drain outlet ;
an overflow water storage section for storing overflow water overflowing from the communication passage,
The discharge portion has a hose connected to the overflow water storage portion,
The toilet apparatus , wherein the hose has a bent portion and is fixed at the bent portion by twisting outward relative to the bend . 2. The toilet apparatus according to claim 1 , wherein the hose is fixed in a slack state when the base member is placed in a fixed position by a lifting device that raises and lowers the base member between a fixed position and a raised position. The toilet apparatus according to any one of claims 1 to 5, further comprising a structure for discharging water overflowing from the communication passage when the flow rate of flush water discharged into the interior of the toilet from the flush water discharge port of the toilet becomes lower than a normal flush flow rate. The vacuum breaker mechanism includes:
an overflow water storage section connected to the communication passage and configured to store overflow water;
a main opening/closing unit that is disposed in the communication passage and opens and closes the communication passage;
The toilet device according to any one of claims 1 to 6 , further comprising a float opening/closing section that is disposed in the overflow water storage section and rises so as to be able to open and close the atmospheric opening of the overflow water storage section by the overflow water stored in the overflow water storage section.

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