The invention relates to a solid matter valve for pressurized cans, in particular for the dispensing/discharging of assembly foams, with a valve disk (1), a valve body (2) arranged in the valve disk (1), a stem (3) mounted in a central cuts out (21) of the valve body (2) and having at least one inlet opening (33) for the contents of the pressurized can, said opening being cleared by actuation of the stem (3), with at least one discharge opening, a duct (34) connecting the inlet opening (33) with the discharge opening, at least one sealing element (23) acting between the valve body (2) and the stem (3), as well as a spring element (40), wherein the stem (3) is designed so as to form two parts, the upper part (3a) being connected to the lower part (3b) in a form-closed or force-closed manner, a circumferential elastic diaphragm (22) integrally connecting the valve body (2) to the upper part (3a) of the stem (3), and the two parts (3a, 3b) of the stem (3) forming a functional unit which accommodates the duct (34).

The invention relates to a solid matter valve for pressurized cans, in particular for the dispensing/discharging of assembly foams, with a valve disk (1), a valve body (2) arranged in the valve disk (1), a stem (3) mounted in a central cuts out (21) of the valve body (2) and having at least one inlet opening (33) for the contents of the pressurized can, said opening being cleared by actuation of the stem (3), with at least one discharge opening, a duct (34) connecting the inlet opening (33) with the discharge opening, at least one sealing element (23) acting between the valve body (2) and the stem (3), as well as a spring element (40), wherein the stem (3) is designed so as to form two parts, the upper part (3a) being connected to the lower part (3b) in a form-closed or force-closed manner, a circumferential elastic diaphragm (22) integrally connecting the valve body (2) to the upper part (3a) of the stem (3), and the two parts (3a, 3b) of the stem (3) forming a functional unit which accommodates the duct (34).

A hand held spray device is disclosed. The spray device includes a body with a reservoir, an actuator with an actuator exit orifice, a valve in fluid communication with the actuator exit orifice and the reservoir and a propellant and antiperspirant composition stored in the reservoir. The propellant has a concentration from about 30% to about 70% by weight of the total fill of materials stored within the reservoir and a boiling point at 1 atmosphere from about −10° C. to about 10° C. The antiperspirant composition includes a liquid carrier and an antiperspirant active.

A hand held spray device is disclosed. The spray device includes a body with a reservoir, an actuator with an actuator exit orifice, a valve in fluid communication with the actuator exit orifice and the reservoir and a propellant and antiperspirant composition stored in the reservoir. The propellant has a concentration from about 30% to about 70% by weight of the total fill of materials stored within the reservoir and a boiling point at 1 atmosphere from about −10° C. to about 10° C. The antiperspirant composition includes a liquid carrier and an antiperspirant active.

A medicine applicator includes a pressurized canister. The pressurized canister contains a medicine. The pressurized canister includes a nozzle. The nozzle includes a valve. The medicine applicator includes a handle, wherein, in response to a motion of the handle, the valve of the nozzle can be activated to release the medicine from the pressurized canister. The medicine applicator includes a distributor attached to a top portion of the nozzle. The medicine applicator includes a scalp contactor attached to the distributor.

The valve (1) includes a valve body (10) having a cavity and bearing against a seal (40) provided with a central opening, and a seat (20) movable in the cavity, the seat bearing against the seal in the closed position and being spaced apart from the seal in the open position. The seat has a cavity bearing against the seal in the closed position, and spaced apart from the seal in the open position. A rod (60) is fixed in a non-detachable manner in the cavity, forming a seat/rod assembly, which rod is traversed, in its portion located inside the cavity, by windows (612) that open into the outlet channel, the free end of the rod protruding out of the cavity by passing through the central opening of the seal.

The valve (1) includes a valve body (10) having a cavity and bearing against a seal (40) provided with a central opening, and a seat (20) movable in the cavity, the seat bearing against the seal in the closed position and being spaced apart from the seal in the open position. The seat has a cavity bearing against the seal in the closed position, and spaced apart from the seal in the open position. A rod (60) is fixed in a non-detachable manner in the cavity, forming a seat/rod assembly, which rod is traversed, in its portion located inside the cavity, by windows (612) that open into the outlet channel, the free end of the rod protruding out of the cavity by passing through the central opening of the seal.

A hydration system maintains a ready supply of hydrating fluid within a sealed system that protects against contamination of the fluid supply and of the user in a CBRN environment. The system includes a fluid container having a removable cap that is equipped with a pressurization system that pressurizes the inside of the fluid container. Pressure inside of the fluid container drives the hydrating fluid, such as water, to an outlet in the cap and onward to a shuttle valve. In an exemplary embodiment, the shuttle valve has an inlet configured for fluid connection to the pressurized container, an outlet configured for connection to a supply line to the user's protective mask, and an intermediate port for connection to a personal hydration carrier carried by the user. The shuttle valve allows for filing of the user's individual water carrier and drinking of that fluid from the water carrier without exposing the hydrating fluid to the CBRN environment, and without requiring the user to disconnect their mask from the system.

A hydration system maintains a ready supply of hydrating fluid within a sealed system that protects against contamination of the fluid supply and of the user in a CBRN environment. The system includes a fluid container having a removable cap that is equipped with a pressurization system that pressurizes the inside of the fluid container. Pressure inside of the fluid container drives the hydrating fluid, such as water, to an outlet in the cap and onward to a shuttle valve. In an exemplary embodiment, the shuttle valve has an inlet configured for fluid connection to the pressurized container, an outlet configured for connection to a supply line to the user's protective mask, and an intermediate port for connection to a personal hydration carrier carried by the user. The shuttle valve allows for filing of the user's individual water carrier and drinking of that fluid from the water carrier without exposing the hydrating fluid to the CBRN environment, and without requiring the user to disconnect their mask from the system.

A dispenser for a pressurised container provided with a valve, provided with: a base body having a finger tab which can be actuated by the user in order to actuate the valve, and having an output opening intended for the output of the product of the container. An outlet pipe, placed in the base body, has a passage between a first end configured to cooperate with the valve of the container, and a second end configured for the output of the product and corresponding with the outlet opening. The base body includes a connection hole remote from the outlet opening. The connection hole passes between an outer surface and an inner surface of the base body and is configured to facilitate a fastening of the outlet pipe so that the outlet pipe can be hooked to the base body.