A dispenser assembly for dispensing a liquid product includes a bottle configured to store the product, a venting pump connected to the bottle and configured to control dispensing of the product from the bottle, a mounting component, and an enclosure connected to the mounting component and engaging the bottle, wherein the enclosure is movable relative to the mounting component between an open configuration and a closed configuration, and wherein the bottle is selectively removable from the enclosure when the enclosure is in the open configuration.

A dispenser main body (11) includes a cylindrical-shaped fitted portion (16a), and a nozzle (40) includes: a nozzle main body (41) and a nozzle extension body (42). The nozzle (40) is provided with a dispensing tube (51) including: a first dispensing tubular portion (51a) and a cylindrical-shaped second dispensing tubular portion (51b). A cut-out (52a) is provided in the front end of the first dispensing tubular portion (51a) or in a base end of the second dispensing tubular portion (51b), and an opening end of the cut-out (52a) is closed by the first dispensing tubular portion (51a) or the second dispensing tubular portion (51b) to provide an air inlet hole (52) in the dispensing tube (51).

An improved pump is disclosed comprising a pump body having a piston supported by a base from a fluid reservoir. A trigger extends a between a first portion and a second portion with an intermediate trigger pivot mounted relative to the base. A cam and a cam follower couples the first portion of the trigger with the piston for enabling a depression of the second portion trigger to move the piston to spray fluid from the pump body orifice.

A hand cleaning liquid dispenser including a fluid level gauging mechanism with a plurality, preferably three or more, vertically spaced optical sensors located closely adjacent an external of a side wall of the reservoir to each receive electromagnetic radiation transmitted through the side wall from within the reservoir with the electromagnetic radiation sensed originating from an emitter directing the electromagnetic radiation preferably through the reservoir downwardly.

The present disclosure relates to an auto-open compact container including: an outer container (10) having a button (10) formed on one side thereof; an outer container lid (20) hinge-coupled to one side of the outer container (10) to be opened/closed; an inner container (30) which is mounted inside the outer container (10), and an upper rim of which is sealed by an annular packing member (23) inserted into an inner periphery of the outer container lid (20); an inner container cover (40) coupled to an upper portion of the inner container (30) and having a cosmetic material suction hole (41) formed at a center thereof; a pump (50) installed at an upper portion of the inner container cover (40) to pump a cosmetic material; and a discharge plate (60) which is coupled to an upper side of the inner container cover (40) to be vertically moved and coupled to an upper portion of the pump (50) at the same time, and has a plurality of cosmetic material discharging holes (61) formed therein, and an upper portion of which is exposed to the outside such that a user comes into contact with a puff P, wherein the button (11) includes: an air inlet protrusion (111) integrally formed at an upper end thereof to push the annular packing member (23) of the outer container lid (20) by a pressing operation of the user so as to allow external air to be introduced into the inner container (30); a stopper protrusion (112) integrally formed on an outer side of the upper end thereof and unstopped from a hook (21) formed on one side of the outer container lid (20) by a pressing operation of the user to open the outer container lid (20); and return springs (113) protruding from opposite sides thereof in an arc shape to be symmetric to each other, and returning to original positions when the button (11) is pressed and then unpressed while they come into contact with an inner wall (12) of the outer container (10). According to the present disclosure, the air inlet protrusion is formed in the button such that external air is introduced into the inner container simultaneously while the button is pressed to open the outer container lid. Therefore, an inside of the inner container, which is sealed and evacuated, communicates with the outside, thereby making an operation of pressing the discharge plate smooth.

A trigger dispenser device (1) envisages a secondary liquid aspiration duct (50) in communication with the dispenser duct, and a primary liquid aspiration duct (8) in communication with the container, off-axis with each other. Between these, a joining compartment (64) is provided communicating upstream with the primary liquid aspiration duct (8) and communicating downstream with the secondary liquid aspiration duct (50) to form the fluidic connection between them. In particular, the container (C) is of the type with built-in suction pipe.

A fluid dispensing apparatus includes a fluid reservoir and a dispensing assembly. The dispensing assembly includes a housing and a deformable member that define a metering chamber that is configured to receive a predetermined volume of fluid from the fluid reservoir. The deformable member is deformed from a rest position to an eject position and the deformation causes the volume of the metering chamber to change which results in a change in fluid pressure within the metering chamber. An increase in the fluid pressure within metering chamber causes a predetermined volume of fluid within the metering chamber to be ejected and a decrease in the fluid pressure within the metering chamber causes fluid to be drawn into the metering chamber from the reservoir.

The present invention relates to a compact container having a transparent discharging plate for providing an information transmission function and preventing foreign substances from infiltrating into a bottom thereof, in which the compact container includes a discharging device, the discharging device is formed at a top thereof with a distribution plate, a palette, and a transparent discharging plate, various characters or images are printed on a bottom of the transparent discharging plate, and the palette is formed on a lower side of the transparent discharging plate through an insert-injection molding or a double-injection molding, thus the characters or images are projected onto a top of the transparent discharging, plate when the compact container is opened, so that information, on the compact being used is delivered to the consumer, the aesthetics is visually improved, and the characters or images are prevented from being contaminated by a discharged cosmetic material.

A dispenser assembly for dispensing a liquid product includes a bottle configured to store the product, a venting pump connected to the bottle and configured to control dispensing of the product from the bottle, a mounting component, and an enclosure connected to the mounting component and engaging the bottle, wherein the enclosure is movable relative to the mounting component between an open configuration and a closed configuration, and wherein the bottle is selectively removable from the enclosure when the enclosure is in the open configuration.

A dispenser assembly capable of dispensing gel, liquid, and foam products includes a container to be filled with the product, a pump connected to the container and configured to control dispensing of the product from the container, and a pump actuator assembly configured to actuate the pump and retain the container and the pump. The pump actuator assembly includes a first actuator including a lower ramp, and a second actuator comprising an upper ramp engaged with the lower ramp. The lower ramp of the first actuator and the upper ramp of the second actuator cooperate to actuate at least a portion of the pump along a first axis in response to a force applied along a second axis.