The present invention relates to a closure for a container, the closure comprising three positions. The invention further relates to a kit of parts for assembling such a closure. The present invention relates to a closure comprising an engine and a shroud, the closure adapted to attach to the opening of a container to define an interior and an outside; wherein the shroud and engine are adapted to engage; wherein the closure can take a first position, a second position and a third position, wherein: a. the shroud moves relative to the engine in a linear fashion and a different minimum force is required to move the closure from the first position to the second position than to move the closure from the second position to the first position; or b. the shroud moves relative to the engine in a linear fashion and a different minimum force is required to move the closure from the second position to the third position than to move the closure from the third position to the second position; or c. both a. and b.; or d. the shroud moves relative to the engine in a rotational fashion and a different minimum torque is required to move the closure from the first position to the second position than to move the closure from the second position to the first position; or e. the shroud moves relative to the engine in a rotational fashion and a different minimum torque is required to move the closure from the second position to the third position than to move the closure from the third position to the second position; or both d. and e.

The present invention relates to a closure for a container, the closure having an asymmetrical protrusion. The invention further relates to a kit of parts for assembling such a closure. The present invention relates to a closure for a container, the closure comprising an engine having a first track and a shroud having a second track, wherein the shroud and engine are adapted to engage, wherein the shroud can go from a first position to a second position in a motion in which the first track moves with respect to the second track in a rotational or linear fashion; wherein the engine comprises a first protrusion protruding from the first track with a first protrusion contour profile along the first track; wherein the shroud comprises a second protrusion protruding from the second track with a second protrusion contour profile along the second track; wherein movement of the shroud between the first position and the second position causes an interaction between the first protrusion and the second protrusion; wherein the first protrusion contour profile is asymmetrical or the second protrusion contour profile is asymmetrical, or both are asymmetrical.

The present invention relates to a closure for a container, the closure having an asymmetrical protrusion. The invention further relates to a kit of parts for assembling such a closure. The present invention relates to a closure for a container, the closure comprising an engine having a first track and a shroud having a second track, wherein the shroud and engine are adapted to engage, wherein the shroud can go from a first position to a second position in a motion in which the first track moves with respect to the second track in a rotational or linear fashion; wherein the engine comprises a first protrusion protruding from the first track with a first protrusion contour profile along the first track; wherein the shroud comprises a second protrusion protruding from the second track with a second protrusion contour profile along the second track; wherein movement of the shroud between the first position and the second position causes an interaction between the first protrusion and the second protrusion; wherein the first protrusion contour profile is asymmetrical or the second protrusion contour profile is asymmetrical, or both are asymmetrical.

A refillable vertical foregrip spray device. The device has a weapon mounting interface (M LOK, Keymod, Picatinny) integral to the valve block. The hollow cylindrical portion contains the pressurized liquid or gaseous contents of the operator's choice. The valve block houses a push button release valve with a sliding safety mechanism and a charge valve for pressurizing the device. The weapon mounting interface is integral to the valve block. The device does not require the use of disposable aerosol containers. When not weapon mounted the device can also be freely carried and the user can effectively dispense liquid or gaseous contents of their choice.

A fluid dispenser device having a body (10), a reservoir (20), a dispenser head (100) and a dispenser member (30) mounted on the reservoir (20) by a fastener ring (60). The dispenser member (30) has a dispenser-member body (31) and a movable member (35) that moves axially while the dispenser member (30) is actuated. A lateral actuator system (40) is secured to the body (10) and includes an actuator element (41) that moves between a rest position and an actuated, the reservoir moving in the body during actuation. The body includes a sleeve (15) arranged with a gap around a portion of the reservoir, and a resilient member (425) co-operating with the reservoir to urge it into contact with a side of the sleeve (15). The sleeve of the body extends around a bottom portion (25) of the reservoir, and the resilient element co-operates with the reservoir outside the sleeve.

A device for dispensing pressurized air and/or tire sealant from a pressurized can. The device comprising a cap body, a depressor button with a lock clip, and a hose positioned within the cap body attached to the pressurized can. The lock clip locks the depressor button in the compressed position for ease during use, while a shield element keeps the depressor button in the non-compressed position for safety during non-use. The hose provides an extension to attach to a tire stem valve, while being stored and attached to the cap body of the device.

A device for dispensing pressurized air and/or tire sealant from a pressurized can. The device comprising a cap body, a depressor button with a lock clip, and a hose positioned within the cap body attached to the pressurized can. The lock clip locks the depressor button in the compressed position for ease during use, while a shield element keeps the depressor button in the non-compressed position for safety during non-use. The hose provides an extension to attach to a tire stem valve, while being stored and attached to the cap body of the device.

An aerosol actuator having a button actuator on a top surface thereof and a lever actuator extending away from the button actuator may be assembled with an aerosol container and valve to provide ergonomic application of a product utilizing the aerosol actuator.

An aerosol actuator having a button actuator on a top surface thereof and a lever actuator extending away from the button actuator may be assembled with an aerosol container and valve to provide ergonomic application of a product utilizing the aerosol actuator.

A child resistant nasal sprayer assembly includes a cap body having a base portion and an upstanding wall extending axially in an upward direction. An actuator is rotationally and axially slideably assembled within an interior of the upstanding wall. A safety button extends through the actuator and into a receiving notch formed in the upstanding wall. The safety button restricts motion of the actuator when placed in a locked configuration and enables motion of the actuator when placed in an unlocked configuration. The safety button is integral with a ring portion. The ring portion provides a biasing force to the button to retain the button in the locked position until purposely unlocked. Once unlocked, the operator compresses a pair of winglets, which operates a pump that dispenses medicinal composition stored within the bottle through a nozzle.