A volume controllable toilet flush system, comprising: a cistern configured to hold and retain a fluid; a vertically moveable siphon assembly comprising a siphon portion, a pipe and at least one resilient element attached to the pipe; a toilet bowl shaped to retain and hold waste; an actuator operatively connected to the pipe by a stud attached to the pipe and configured to provide vertical movement to the siphon assembly, wherein movement of the siphon assembly by the actuator stores or releases energy in the at least one resilient element and, wherein downward vertical movement of the siphon assembly puts the toilet bowl in fluid communication with the cistern by creating a siphoning action between the siphon portion and the fluid in the cistern and wherein subsequent upward vertical movement of the siphon assembly terminates the siphoning action to stop fluid flow from the cistern to the toilet bowl.

The invention relates to a device for reducing the flushing stream from a sanitary flush box, in particular a toilet flush box, which contains a drain valve, a drain connection, and a valve seat formed on the drain connection, freeing an outlet opening delimited by the drain connection, said device comprising a throttle, which defines at least one free flow cross section. To provide a device, by means of which the flushing stream from a sanitary flush box can be adjusted, the invention proposes that the throttle, viewed in the flushing stream flow direction, is arranged behind the valve seat on or in the drain connection of the drain valve or in a connection piece receiving the drain connection, the throttle comprising at least two throttle elements, one of which can be rotated relative to the other, the size of the free flow cross section can be changed.

A closestool flushing system comprises a closestool and the flow increasing device, wherein the closestool is provided with a bedpan provided with a water storage cavity in the bottom, the bottom of the bedpan is provided with a water seal, a front cavity wall of the water storage cavity is provided with an injection hole that communicates the water storage cavity with the water seal, and a back cavity wall of the water storage cavity is provided with a mounting hole; the flow increasing device is mounted in the mounting hole and is provided with an injection channel communicated with a pressure water source and a flow increasing channel, a cross-sectional area of an inlet end of which is larger than that of an outlet end of the injection channel.

A closestool flushing system comprises a closestool and the flow increasing device, wherein the closestool is provided with a bedpan provided with a water storage cavity in the bottom, the bottom of the bedpan is provided with a water seal, a front cavity wall of the water storage cavity is provided with an injection hole that communicates the water storage cavity with the water seal, and a back cavity wall of the water storage cavity is provided with a mounting hole; the flow increasing device is mounted in the mounting hole and is provided with an injection channel communicated with a pressure water source and a flow increasing channel, a cross-sectional area of an inlet end of which is larger than that of an outlet end of the injection channel.

A timed pressure equalization member for use in a siphonic toilet to reduce water loss at the end of a flush cycle is disclosed. The equalization member functions to equalize the pressure in a pressurized chamber after a set period of time and consequently alleviates negative pressure within a pressurized trapway system at or near the end of a flushing cycle via a conduit, to help break the siphon at the end of the flush cycle, thereby reducing the amount of water drained from the water bowl/spot while the bowl is being refilled. At a resting state, the equalization member in the pressurized chamber is partially filled with water. The equalization member empties of water after a set period of time during a flush cycle and allows atmospheric air to enter the pressurized chamber (in fluid communication with the pressurized trapway) at or near the end of the flush cycle.

A timed pressure equalization member for use in a siphonic toilet to reduce water loss at the end of a flush cycle is disclosed. The equalization member functions to equalize the pressure in a pressurized chamber after a set period of time and consequently alleviates negative pressure within a pressurized trapway system at or near the end of a flushing cycle via a conduit, to help break the siphon at the end of the flush cycle, thereby reducing the amount of water drained from the water bowl/spot while the bowl is being refilled. At a resting state, the equalization member in the pressurized chamber is partially filled with water. The equalization member empties of water after a set period of time during a flush cycle and allows atmospheric air to enter the pressurized chamber (in fluid communication with the pressurized trapway) at or near the end of the flush cycle.

A closestool flushing system comprises a closestool and the flow increasing device, wherein the closestool is provided with a bedpan provided with a water storage cavity in the bottom, the bottom of the bedpan is provided with a water seal, a front cavity wall of the water storage cavity is provided with an injection hole that communicates the water storage cavity with the water seal, and a back cavity wall of the water storage cavity is provided with a mounting hole; the flow increasing device is mounted in the mounting hole and is provided with an injection channel communicated with a pressure water source and a flow increasing channel, a cross-sectional area of an inlet end of which is larger than that of an outlet end of the injection channel.

A closestool flushing system comprises a closestool and the flow increasing device, wherein the closestool is provided with a bedpan provided with a water storage cavity in the bottom, the bottom of the bedpan is provided with a water seal, a front cavity wall of the water storage cavity is provided with an injection hole that communicates the water storage cavity with the water seal, and a back cavity wall of the water storage cavity is provided with a mounting hole; the flow increasing device is mounted in the mounting hole and is provided with an injection channel communicated with a pressure water source and a flow increasing channel, a cross-sectional area of an inlet end of which is larger than that of an outlet end of the injection channel.