This CIP, Continuation-in-part, presents constructive details of the material contained in the original document BR 10 2016 016091-0 and not specified until then, and the valve (3) can also be used in transfers, dilution and drip chamber and medicine bottles, vaccines and related, the valve (3) has five basic components: conical base (4), which receives in its interior the assembly of the second component, which is the conical movable part (7); the conical base (4) which receives in its core (16) the assembly of the third component which is a smaller diameter o-ring sealing ring (13); on the other hand, the conical movable part (7) receives in its lower groove (14) the assembly of the fourth component, which is a larger diameter o-ring sealing ring (12); the conical base (4) receives the assembly of the fifth component which is the cap (10), which protects the thread in the luer-lock pattern (8); the cover (10) prevents the separation of the conical movable part (7) in relation to the conical base (4); the movable conical part (7) has a surface (22) with an angulation (X), equal to that verified on the inner surface (27) of the conical base (4); the constructive variation of the valve (3a) is fixed to the mouthpiece (6a) of the bottle (F) through its conical base (4), this adjusted to the diameter of the bottle, keeping the valve system unchanged; in addition, the cover (10) of the valve (3a) presents a constructive variation (not shown) formed by a cylindrical body, internally threaded, provided with a lower ring connected to the cover body through a plurality of breaking points, welding points plastic or shrink.

This CIP, Continuation-in-part, presents constructive details of the material contained in the original document BR 10 2016 016091-0 and not specified until then, and the valve (3) can also be used in transfers, dilution and drip chamber and medicine bottles, vaccines and related, the valve (3) has five basic components: conical base (4), which receives in its interior the assembly of the second component, which is the conical movable part (7); the conical base (4) which receives in its core (16) the assembly of the third component which is a smaller diameter o-ring sealing ring (13); on the other hand, the conical movable part (7) receives in its lower groove (14) the assembly of the fourth component, which is a larger diameter o-ring sealing ring (12); the conical base (4) receives the assembly of the fifth component which is the cap (10), which protects the thread in the luer-lock pattern (8); the cover (10) prevents the separation of the conical movable part (7) in relation to the conical base (4); the movable conical part (7) has a surface (22) with an angulation (X), equal to that verified on the inner surface (27) of the conical base (4); the constructive variation of the valve (3a) is fixed to the mouthpiece (6a) of the bottle (F) through its conical base (4), this adjusted to the diameter of the bottle, keeping the valve system unchanged; in addition, the cover (10) of the valve (3a) presents a constructive variation (not shown) formed by a cylindrical body, internally threaded, provided with a lower ring connected to the cover body through a plurality of breaking points, welding points plastic or shrink.

A pump unit provides a hydraulic pressure for actuating an actuator in the drive train of a motor vehicle, in particular a clutch actuator or gearbox actuator. The pump unit includes a pump, a storage container for hydraulic fluid, and at least one solenoid valve. The solenoid valve is arranged within the storage container such that it is surrounded by hydraulic fluid.

A pump unit provides a hydraulic pressure for actuating an actuator in the drive train of a motor vehicle, in particular a clutch actuator or gearbox actuator. The pump unit includes a pump, a storage container for hydraulic fluid, and at least one solenoid valve. The solenoid valve is arranged within the storage container such that it is surrounded by hydraulic fluid.

A valve assembly that may include a stationary device that may be configured to couple to a fluid conduit within the fluid conduit and may include plural opening elements defining a plurality of apertures for passage of a fluid to flow therethrough. The valve assembly may also include a movable device having plural closing elements corresponding to the apertures, and each closing element may be configured to slide into contact with a corresponding aperture to reduce or prevent a flow of the fluid through the corresponding aperture, and the closing element configured to spread a force of the fluid across a face of the closing elements.

A valve assembly that may include a stationary device that may be configured to couple to a fluid conduit within the fluid conduit and may include plural opening elements defining a plurality of apertures for passage of a fluid to flow therethrough. The valve assembly may also include a movable device having plural closing elements corresponding to the apertures, and each closing element may be configured to slide into contact with a corresponding aperture to reduce or prevent a flow of the fluid through the corresponding aperture, and the closing element configured to spread a force of the fluid across a face of the closing elements.

A recirculation valve for use with a tankless water heater in a system that includes hot and cold water fixtures and a cold water supply. The recirculation valve includes a valve body having an inlet connection, a pair of outlet connections and an internal chamber; a thermostatic element that is disposed in a first portion of the internal chamber of the valve body and includes an actuation body that is responsive to water temperature; wherein the valve body further has a port opening that is disposed between the thermostatic element and a second portion of the internal chamber; wherein the thermostatic element further includes a piston constructed and arranged to operatively extend from said actuation body when the actuation body is heated, and a plunger that is carried by and is moveably responsive to the actuation body; and whereby, when the actuation body is heated, the valve transitions from an open position to a closed position by the piston moving the actuation body and plunger so that the plunger moves to seal against the port opening of the valve body.

A storm water management system includes a flow control device that includes a float in a storage chamber responsive to changes in water level and a valve disposed between the storage chamber and a discharge. The valve includes a relatively movable valving member connected to the float and a fixed valving member. Each valving member has a through opening that receives storm water flowing between the storage chamber and the discharge. The through-openings overlap one another whereby relative displacement of the valving members caused by float movement defines a variable-sized orifice between the storage chamber and the discharge that regulates the discharge rate of storm water from the system. The shapes of the overlapping openings enable the valve to closely follow the ideal output hydrograph and maximize the discharge rate as a function of storm intensity, thereby minimizing the required volume of the storage chamber.

A storm water management system includes a flow control device that includes a float in a storage chamber responsive to changes in water level and a valve disposed between the storage chamber and a discharge. The valve includes a relatively movable valving member connected to the float and a fixed valving member. Each valving member has a through opening that receives storm water flowing between the storage chamber and the discharge. The through-openings overlap one another whereby relative displacement of the valving members caused by float movement defines a variable-sized orifice between the storage chamber and the discharge that regulates the discharge rate of storm water from the system. The shapes of the overlapping openings enable the valve to closely follow the ideal output hydrograph and maximize the discharge rate as a function of storm intensity, thereby minimizing the required volume of the storage chamber.

A liquid dispensing system includes at least one container for storing the liquid to be dispensed, the at least one container having a neck defining an fill opening for the liquid. The system includes a liquid dispensing device releasably connectable to the at least one container, an exchangeable cartridge for an additive to be mixed with the stored liquid, where the cartridge is accommodated in the neck, and means for opening the cartridge. The cartridge includes a one-piece hollow body filled with the additive and with a pressurized gas, and the opening means include at least one piercing member arranged to pierce a wall of the hollow body. A method of dispensing a liquid by using the liquid dispensing system, and a cartridge for use in the liquid dispensing system and/or method.