A valve apparatus comprising a push button assembly coupled to a pressure balance valve, wherein the push button assembly comprises a pushbutton configured to be pressed/released and to be rotated, a first press/release of the button opens the valve, a second press/release of the button closes the valve, and a rotation of the button adjusts water temperature. A push button assembly comprising an axial press/release on/off function and an independent rotary setting function.

A remote control water outlet device comprises a faucet and a control assembly. The faucet is connected to one or more water inlet pipes and a water outlet pipe assembly, and the control assembly is separated from the faucet by a distance. The control assembly controls the water outlet pipe assembly to be opened and to be closed. The water outlet pipe assembly comprises a water inlet passage and a water outlet passage in communication with the control assembly. The control assembly comprises a pressure relief cavity in communication with the water inlet passage and a sealing gasket configured to abut and block inlets of the water outlet passage due to being subjected to water pressure in the pressure relief cavity. The sealing gasket comprises a control hole configured to be opened to enable the pressure relief cavity be in communication with the water inlet passage.

An automatically resettable press-type switching valve includes a valve housing, an operating portion, a driven rod, a water blocking member, and a resetting member. The valve housing is formed therein with an inlet and outlet passages. A water blocking seat is provided between the inlet and outlet passages. The operating portion drives the driven rod to move axially so as to form a forward pressure difference or reverse pressure difference between two opposing sides of the water blocking member, by which the water blocking member is pushed to move axially with the driven rod. The resetting member is drivingly connected with the water blocking member, when there is no water pressure at a side of the inlet passage, the resetting member drives the water blocking member to separate from the water blocking seat, and the inlet passage is communicated with the outlet passage.

The invention relates to the field of bath products, and provides a flow control device. The flow control device comprises a movable rod capable of reciprocating to switch water into different outlet passages, wherein a flow control part circumferentially extends and protrudes out of the movable rod, and the movable rod rotates to drive the flow control part to rotate to control the flow in the corresponding outlet passage. During use, the movable rod is pressed to control the switching the outlet passages, and users can select the position where water is discharged as required, for example, water is discharged upwards or downwards. Moreover, the movable rod rotates to drive the flow control part to rotate to flexibly control the flow of a certain outlet, such as the upward outlet flow, to facilitate daily washing of the users.

A faucet may include a shell, a control sleeve, a connecting sleeve, a water-stop unit, a locating unit, and a locking tube. The shell has an axial connecting hole, and the control sleeve secured with the connecting hole has an axle hole. The connecting sleeve comprises a tube portion having an axial rod hole formed at a central portion thereof. The water-stop unit comprises a front rod, a water-stop plug, and a rear rod, and the front rod penetrates through the axle hole and the rod hole to locate the water-stop plug in the connecting sleeve. The front rod is engaged with a nut at a front end after penetrating through the axle hole. A first spring and a second spring, which are disposed on the front rod, are respectively coupled between the nut and the control sleeve and between the water-stop plug and the connecting sleeve.

The water diversion assembly of the present invention herein diverts and preserves the water supply when water supply is currently below the threshold temperature. The present invention relates to a water diversion assembly having a hot water inlet connected to a hot water supply and a cold water inlet connected to a cold water supply. An appliance outlet, for use by the user of an appliance, is configured to connect and deliver a water mix at an outlet temperature. The appliance outlet is in fluid communication with the hot water inlet, the cold water inlet, and a water collection outlet. Within the water diversion assembly, a thermostatic diversion valve having a hot water threshold temperature setting and arranged such that water from the hot water supply via the hot water inlet is delivered to the water collection outlet until the hot water threshold temperature is reached and then thermostatically diverted to a thermostatic mixing valve.

A faucet may include a shell, a control sleeve, a connecting sleeve, a water-stop unit, a locating unit, and a locking tube. The shell has an axial connecting hole, and the control sleeve secured with the connecting hole has an axle hole. The connecting sleeve comprises a tube portion having an axial rod hole formed at a central portion thereof. The water-stop unit comprises a front rod, a water-stop plug, and a rear rod, and the front rod penetrates through the axle hole and the rod hole to locate the water-stop plug in the connecting sleeve. The front rod is engaged with a nut at a front end after penetrating through the axle hole. A first spring and a second spring, which are disposed on the front rod, are respectively coupled between the nut and the control sleeve and between the water-stop plug and the connecting sleeve.

A sprinkler with a push-in connection includes a sprinkler frame, an operating element, and a sealing cap. The sprinkler also includes one or more sealing gaskets and a retainer. Each such sealing gasket is located at least partially within a groove in the sprinkler frame. The retainer is also at least partially located within a groove in the sprinkler frame. The retainer connects to the internal bore of a welded outlet or a mechanical outlet when the sprinkler is installed in the outlet. The one or more gaskets seal against the internal bore of a welded outlet or a mechanical outlet when the sprinkler is installed in the outlet. The retainer is a spring mechanism so that the diameter of the retainer is reduced when the sprinkler is inserted into the internal bore of the outlet, and the retainer maintains pressure against the outlet internal bore.

A double shower device comprises a water inlet pipe, a first water separator, a first shower bar, a second shower bar, and a second water separator. The first water separator comprises a first water inlet end connected to the water inlet pipe, a first chamber connected to the first water inlet end, and a block member disposed in the first chamber to be moved vertically. The second water separator is connected to one end of the second shower bar opposite to the first water separator, and comprises a second water inlet end connected to the second shower bar, a second chamber connected to the second water inlet end, and a valve member disposed in the second chamber. The valve member comprises an open state and a close state for moving the block member downward and upward respectively to force a water flow to flow downward and upward respectively.

In order to improve the operating properties of an actuating device (1) for opening water routes (53) of a sanitary installation (52), the actuating device (1) has a locking mechanism (22) having at least one movable locking element (23), by way of which locking mechanism (22) at least two actuating elements (8) of the apparatus (1) which serve to actuate associated valves (3) can be locked releasably in a respective actuating position (30). The actuating device (1) also has a separate release actuating element (4), by way of which a locking state of each of the remaining at least two actuating elements (8) can be released.