A nebulizer for nebulizing a fluid from a cartridge and a cartridge for such a nebulizer is proposed. The cartridge comprises a container containing the fluid to be nebulized and is fluidically connected to the nebulizer by inserting a connecting element of the nebulizer for conveying the fluid out of the container. The cartridge is preferably adapted to sealingly receive the connecting element and can optionally comprise a membrane or sealing wall which seals the cartridge initially and is piercable or breakable by the connecting element upon insertion. The cartridge can further comprise an at least partially flexible and/or bendable tube for conveying the fluid out of the container. The tube is preferably wettable with the fluid and/or comprises an at least partially hydrophilic and/or polar surface. Further, the tube can at least partially be shaped as a helix. When the cartridge is connected to the nebulizer, the tube and the connecting element preferably form a continuous capillary and/or an at least essentially constant flow area.

A discrete product refill container and a rigid outer shell container. The refill container includes a product chamber and a fitment secured thereto. The fitment includes a ledge which is suitable for resting on a ledge of the rigid outer shell container while permitting the product chamber to pass into the shell interiorly to the ledge. It may also include a rim for grasping by transfer equipment. The fitment includes a destructive cover, i.e., one which cannot readily be re-closed, so that the consumer can easily make the product within the refill available for pumping, as desired. The rigid outer shell container can be snap fit closed. The refill bottle may be a pouch or a thin walled bottle, with a fitment. The fitment may serve to support the bottle in an inverted position for display or storage. The refill bottle may also include an integral ledge for support in the rigid outer shell container, instead of a discrete fitment. A modular fitment may be used which accommodates different types of closures, if desired.

A method for manufacturing a device for dispensing a product, including a supply of a device having a reservoir, the reservoir being connected to a deformable chamber and being provided with a filling opening, the inside of the deformable chamber being delimited at least in part by a movable wall whose displacement causes a variation of the volume of the deformable chamber; an evacuation step in which a depression is created in the deformable chamber with respect to a reference pressure; a filling step in which the reservoir is filled with product, so that in a so called intermediate state of the device, the reservoir is filled with product while the inside of the deformable chamber is at an intermediate pressure lower than the reference pressure; and a closing step in which the filling opening is sealed.

A fluid substance dispensing device including a container provided with an opening providing access to the interior thereof, and a dispensing pump associated with the container to dispense a fluid substance, which may be contained inside the container, and a sealing element positioned between the container and the pump, the sealing element including a flange abutting with a clear surface of the container perpendicular to a longitudinal axis of the container: the sealing element furthermore includes a first tubular wall which extends inside the container and creates a seal one an internal surface thereof, the sealing element furthermore including a second tubular wall which extends inside the container 2 and creates a seal with an external cylindrical surface of a body of the pump positioned inside the container.

A flexible container (10) is disclosed. The flexible container (10) includes four panels (18, 20, 22, 24), each panel comprising a flexible multilayer film. Each flexible multilayer film is composed of a polymeric material. The four panels form (i) a body, (ii) a neck, and (iii) a handle. The handle (12) has an upper handle portion (12a) and a pair of spaced-apart legs (13, 15). The legs extend from the upper handle portion to the body on opposing sides of the neck. The flexible container includes a fitment (70) sealed to the neck. The flexible container includes a dispensing pump (100) attached to the fitment. The flexible container can provide a metered dose from a dispensing pump and the dispensing pump can also function as a handle to hand-carry the flexible container.

A fluid dispenser device including an outlet, a pocket having an interior volume for containing a fluid, the interior volume being delimited at least in part by a movable wall, a reservoir arranged to contain the fluid, a pocket cap, a cavity, a reservoir orifice joining the reservoir and the cavity; wherein the pocket cap is arranged to be mounted by insertion in the cavity of the device so as to be mounted by extending: by passing through the pocket at least partially while passing through the movable wall orby going along the pocket at least partially, the device comprising an inlet orifice arranged to insert the pocket cap into the device from the outside of the device and opening into the cavity.

An apparatus and method of using a device for dispensing fluid having a flexible and collapsible container, a fluid dispenser pump connected to the flexible and collapsible fluid container configured to draw fluid from the flexible and collapsible fluid container into the fluid dispenser pump and to dispense fluid through a fluid delivery channel to an exit port upon actuation of the pump; and the dispenser pump having an actuator that has a dose delivery button, and a sensor located in the apparatus and configured to actuate the dispenser pump upon physical contact of the dose delivery button by a user.

The invention relates to a dispenser container consisting of an outer container and an inner container for receiving a fluid, wherein the outer container and the inner container are formed from blow-moulded plastics, which do not form an integral connection with one another, and wherein a first plastic from which the inner container is formed has a higher elasticity than a second plastic from which the outer container is formed, such that the inner container is deformable, and wherein the outer container has at least one pressure compensation opening for pressure compensation in the region between the outer container and the inner container, wherein the inner container has a first outlet region and the outer container has a second outlet region, wherein the first outlet region can be shifted relative to the second outlet region in an outlet direction.

The present disclosure relates to a container device capable of storing and discharging liquid.

A container device according to the present disclosure includes a pouch having the elastic property; a rigid container having a rigid outer case compared to the pouch and having a container opening at one side thereof; a coupling unit coupled to the container opening and for coupling an opening of the pouch with the container opening; and an air passage formed at the rigid container or the coupling unit. When the pressure is applied to the inside of the pouch and the volume of the pouch is increased, the volume of a space between the pouch and the rigid container is reduced by an increase in the volume of the pouch, such that the air in the space is discharged to the outside of the rigid container through the air passage to perform the depressurization of the space.

A dispenser includes a body having a an exterior surface, an interior surface, a first chamber, a first opening in fluid communication with the first chamber and extending through the body, a second opening in fluid communication with the first chamber and extending through the body, a first valve and a second valve disposed on the body, the valves having a closed and an open configuration, and an actuator disposed at least partially within the first chamber. The actuator may be configured to increase and decrease pressure in the first chamber such that the first valve and the second valve change from their respective closed configurations to their respective open configurations and from their respective open configurations to their respective closed configurations. When in the closed configuration, flow through the valves is impeded.