An assembly comprising a tubular inlet riser adapted to be mounted within a toilet tank where a main control valve assembly would be mounted on the upper end of the inlet riser, the tubular inlet riser having an inner riser bore so that fill water can pass through this bore when the tank empties in accordance with the main control valve assembly, the inlet riser having a bottom-most portion having an outer threaded portion and a bottom seat, the assembly further comprising a quick connect coupling.

An assembly comprising a tubular inlet riser adapted to be mounted within a toilet tank where a main control valve assembly would be mounted on the upper end of the inlet riser, the tubular inlet riser having an inner riser bore so that fill water can pass through this bore when the tank empties in accordance with the main control valve assembly, the inlet riser having a bottom-most portion having an outer threaded portion and a bottom seat, the assembly further comprising a quick connect coupling.

An operating device includes a rotary shaft, an operating handle, an operating wire, and a drive unit; wherein this drive unit includes: a rotary member, a rotary windup member, a locking device for mutually locking the rotary member and the rotary windup member until the rotary windup member rotates in the forward rotational direction from a first operating position and reaches a second operating position, a lock release device for releasing the lock between the rotary member and the rotary windup member so the rotary windup member rotates in the reverse rotational direction and moves to the first operating position regardless of any operation of the operating handle when the rotary member and the rotary windup member reach the second operating position, and a biasing device for restoring the rotary member to an initial position at which a toilet flush operation can be started from the operating position.

A siphonic flush toilet system and method of priming the same having a toilet bowl assembly comprising at least one jet flush valve assembly and at least one rim valve; and bowl having a rim and a jet defining at least one jet channel. The bowl has a closed jet pathway to maintain the jet channel in a primed state with fluid from the jet flush valve assembly to prevent air from entering the closed jet pathway. Flush valves may have back-flow preventer mechanisms and/or at least partly flexible valve covers, including specific valve cover structures. Flush activation assemblies may have a flush activation bar connected to the pivot rod and/or an adjustable flush connector located between the pivot rod and the flush activation bar. A kit providing one or more flush activation elements is included. The kit elements may be usable with the toilet systems and methods described.

The present disclosure discloses an anti-siphonage water storage device, a sanitary water supply device, and a sanitary cleaning device. The anti-siphonage water storage device is set in a cleaning water path of a sanitary cleaning device, and the anti-siphonage water storage device comprises a water tank for storing cleaning water. The water tank is disposed with a water inlet structure and a water outlet structure, and the water tank is disposed with an overflow structure. A water outlet surface of the water inlet structure is higher than an overflow surface of the overflow structure.

The present disclosure discloses an anti-siphonage water storage device, a sanitary water supply device, and a sanitary cleaning device. The anti-siphonage water storage device is set in a cleaning water path of a sanitary cleaning device, and the anti-siphonage water storage device comprises a water tank for storing cleaning water. The water tank is disposed with a water inlet structure and a water outlet structure, and the water tank is disposed with an overflow structure. A water outlet surface of the water inlet structure is higher than an overflow surface of the overflow structure.

A modular poppet assembly system for a toilet tank flush valve assembly, the modular system comprising a first float portion; and two or more second float portions; wherein, the first float portion is configured to removably attach to each of the two or more second float portions to form two or more poppet assemblies, each of the two or more poppet assemblies comprise a different buoyancy, each of the two or more poppet assemblies allow the toilet tank to fill to substantially a same water volume, and as the poppet assembly buoyancy increases, an increase in flush volume is provided.

A shower device for a bidet shower, wherein the shower device contains at least one shower arm having a shower connection for the intimate hygiene of a user; wherein the shower arm is connected to a thermostat via a water supply line, wherein the thermostat is connected to a cold-water connection and a hot water connection and the cold water and the hot water are mixed in the thermostat to form a fluid flow of a predetermined temperature, wherein the thermostat includes a scald protection.

A shower device for a bidet shower, wherein the shower device contains at least one shower arm having a shower connection for the intimate hygiene of a user; wherein the shower arm is connected to a thermostat via a water supply line, wherein the thermostat is connected to a cold-water connection and a hot water connection and the cold water and the hot water are mixed in the thermostat to form a fluid flow of a predetermined temperature, wherein the thermostat includes a scald protection.

A flushometer system includes a pressure vessel with a flow path defined between a valve inlet chamber and an outlet and a valve assembly disposed within the pressure vessel and configured to selectively open and close the flow path. A primary diaphragm assembly is disposed within the pressure vessel and includes a primary disc configured to be moveable to actuate the valve assembly to selectively open and close the flow path between the valve inlet chamber and the outlet, and a primary diaphragm connected to the primary disc. A secondary diaphragm assembly is disposed within the pressure vessel and includes a secondary diaphragm and a secondary disc, the secondary diaphragm assembly configured to actuate the primary diaphragm assembly by venting fluid pressure on one side of the primary diaphragm. An activation assembly is configured to actuate the secondary diaphragm assembly by venting fluid pressure on one side of the secondary diaphragm.