An insulating device can include an aperture having a waterproof closure which allows access to the chamber within the insulating device. The closure can help prevent any fluid leakage into and out of the insulating device if the insulating device is overturned or in any configuration other than upright. The closure also prevents any fluid from permeating into the chamber if the insulating device is exposed to precipitation, other fluid, or submersed under water. This construction results in an insulating chamber impervious to water and other liquids when the closure is sealed.

Systems and methods are disclosed, which permit filling containers with a product. A filling arm is disposed within a chamber and an optical sensor is configured to sense openings of the containers within the chamber. Locations of the sensed openings are used to guide the filling arm to fill the containers with a product.

Systems and methods are disclosed, which permit filling containers with a product. A filling arm is disposed within a chamber and an optical sensor is configured to sense openings of the containers within the chamber. Locations of the sensed openings are used to guide the filling arm to fill the containers with a product.

A method for increasing the dielectric withstand strength in the enclosure E of an electrical apparatus, this method consisting in placing in the enclosure a dielectric material in liquid or solid form, then in bringing this material to a temperature and/or a pressure allowing for its total or partial evaporation in the enclosure. This method includes a device for retaining the abovementioned material in its container during the handling allowing the placement of the container in the enclosure E, and a device for inducing the evaporation of this material at a certain moment after this placement in the enclosure E and for allowing the dispersion of the gases resulting from this evaporation in the enclosure E.

A method for increasing the dielectric withstand strength in the enclosure E of an electrical apparatus, this method consisting in placing in the enclosure a dielectric material in liquid or solid form, then in bringing this material to a temperature and/or a pressure allowing for its total or partial evaporation in the enclosure. This method includes a device for retaining the abovementioned material in its container during the handling allowing the placement of the container in the enclosure E, and a device for inducing the evaporation of this material at a certain moment after this placement in the enclosure E and for allowing the dispersion of the gases resulting from this evaporation in the enclosure E.

A spray head for a spray bottle includes a spray mechanism connected to a tube that extends into the spray bottle. The spray mechanism draws fluid from a bottom of the spray bottle, through the tube, to produce a spray of the fluid. A threaded female fitting attaches to a threaded top of the spray bottle. The threaded female, when screwed on to the threaded top of the spray bottle, securely attaches the spray head to the spray bottle. A refill valve, when opened, provides a conduit to refill the spray bottle so that fluid can be poured into the spray bottle without unscrewing the threaded fitting and removing the spray head from the spray bottle. A refill valve cap, when in a shut position, closes the refill valve to prevent spilling of the liquid when the spray bottle is not being refilled.

The invention proposes an apparatus for transporting a container relative to a filling station, comprising at least one filling station (48) for filling at least one container (36), and also comprising at least one container mount (38) for transporting the container (36) relative to the filling station (48), characterized in that at least one drive surface (13) and at least one mover (20), which can be coupled in particular magnetically to the drive surface (13), are provided, wherein the mover (20) is arranged on the drive surface (13) such that it can be displaced and/or rotated in at least two degrees of freedom, and in that the container mount (38) is connected to the mover (20).

The invention proposes an apparatus for transporting a container relative to a filling station, comprising at least one filling station (48) for filling at least one container (36), and also comprising at least one container mount (38) for transporting the container (36) relative to the filling station (48), characterized in that at least one drive surface (13) and at least one mover (20), which can be coupled in particular magnetically to the drive surface (13), are provided, wherein the mover (20) is arranged on the drive surface (13) such that it can be displaced and/or rotated in at least two degrees of freedom, and in that the container mount (38) is connected to the mover (20).

A water soluble unit dose article comprising at least one compartment, wherein the compartment comprises a composition, and wherein the compartment has a substantially super-elliptical shape. A method of making the unit dose article. An apparatus used in the process.

A water soluble unit dose article comprising at least one compartment, wherein the compartment comprises a composition, and wherein the compartment has a substantially super-elliptical shape. A method of making the unit dose article. An apparatus used in the process.