The present invention discloses a discharge container that is provided with the following: a container body in which contents are stored; a securing member; a discharge vessel including a stem; an exterior section including a top wall section penetrated by molded holes and that discharges the contents from the perforation holes onto a discharge surface of the top wall section; and an inner plate which is provided so as to be freely movable inside the exterior section and which forms a diffusion chamber in the space that is formed with a supply surface of the top wall section.

A remote operation spray device configured to depress-operate a spray nozzle of a spray device from a remote location. Device generates adequate pushing force required for depression and, by achieving weight reduction of the device proper, enables easy mounting on an aerial vehicle or other mobile unit. Device includes a main body fixedly attached to a mobile unit, a holder fixedly retaining a spray cartridge and a spray mechanism for jetting spray. The spray mechanism includes a base member, a depressing member pivotably attached to the base member for pressing down a spray nozzle, a pushed member provided at a distal end of the depressing member, and a pusher installed on the base member for pushing the pushed member to move horizontally. The horizontal pushing action of the pusher pushes and moves the pushed member to pivot the depressing member and press the spray nozzle vertically downward.

A nozzle insert can be configured to be inserted along an insertion direction into a component of a product dispensing system. A stop portion on the nozzle insert can successively engage with a stop portion on the component when the nozzle insert is inserted into the component by different distances along the insertion direction.

A two-piece nozzle for an aerosol dispenser has an outer piece with a tubular wall open on one side and closed on the other by a front wall (122), forming a cavity, with an outlet opening (123) in a center of the front wall; an inner piece dimensioned to penetrate into the cavity of the outer piece and be retained there, piece; channels (112, 125) in the cavity of the outer piece and/or on the surface of the inner piece, wherein said channels open into a turbulence chamber (127) in communication with the outlet opening (123) placed downstream in the flow path of the product flow; and a protrusion (113, 114) in the center of the front face of the inner piece, whose free portion opposite the front face, called torpedo (114) penetrates into the outlet opening (123) to reduce its cross section and form an annular outlet orifice.

A fluid dispenser head including a spray wall (1) that defines a central axis (X) and that is perforated with holes (O1, O2) through which the fluid under pressure passes so as to form jets of fluid, the holes (O1, O2) extend along axes (Y1, Y2) that correspond to the path of the jets of fluid; the dispenser head being characterized in that at least some of the axes (Y1, Y2) intersect, such that the jets of fluid that extend along the intersecting axes (Y1, Y2) meet at at least one collision point (P).

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.

A discharge container includes a container body that contains contents, a discharger that has a stem, an exterior portion, and a diffusion wall portion. The forming hole includes a central forming hole formed in a central region of the top wall portion and an outer forming hole formed in an outer region. The diffusion chamber internally has a diffusion member located so as to face the diffusion wall portion and located so as to overlap a whole region of at least the central region in the top wall portion in the upward-downward direction, in a plan view when viewed in a container axis direction. The diffusion member is configured to diffuse the contents supplied from the stem outward in the radial direction through a gap between the diffusion member and the diffusion wall portion.

By means of selective laser exposure and subsequent etching away of the exposed regions (selective laser-induced etching), a cylindrical-conical cavity (15) having a mainly tangential fluid inlet (16) and axial fluid outlet (17) is formed in the quartz glass nozzle body (14) having a generally cylindrical shape.

A dispensing device for dispensing a foamable product. The dispensing device comprises a dispensing channel (110; 210; 410). The dispensing channel has: an inlet (111; 211; 411) for communicating with a valve-element (120) of a container (130) containing the foamable product; and an outlet (112; 212; 412) for dispensing the foamable product. The dispensing channel (110; 210; 410) further comprises a variable-volume cavity (140; 240; 440) at the outlet. The variable-volume cavity (140; 240; 440) is defined at least partly by a first component (142; 242; 442) and a second component (144; 244; 444) that is separate from and rigidly movably with respect to the first component to vary the volume of the variable-volume cavity (140; 240; 440) between a first configuration and a second configuration. In the first configuration, the variable-volume cavity (140; 240; 440) has a first volume and the outlet (112; 212; 412) is closed. In the second configuration, the variable-volume cavity has a second volume and the outlet (112; 212; 412) is open. The second volume is greater than the first volume.