A bottle enclosure for holding a longneck bottle having a top, neck, shoulder, and main body. The bottle enclosure can include an upper portion configured to fit around the neck, shoulder, and main body of the longneck bottle, a cap removably coupled to an upper end of the upper portion and configured to fit over the top of the longneck bottle, and a base portion removably coupled to a bottom end of the upper portion. An elastomeric component can be arranged on an interior surface of one or both of the upper portion or the base portion.

A bottom-fill hydration bottle includes a main body having a valve assembly positioned along the bottom end. The valve assembly including an inlet opening, a valve, an outlet opening and a deflector. The deflector includes an input opening and at least one aperture that functions to discharge the received fluid in a direction that is different than the outlet opening of the valve. The hydration bottle includes a cap that is selectively coupled to the top of the main body. The cap includes a central spout having a bottom opening and an upper opening. A diffuser is positioned along the bottom opening of the spout. The diffuser including an output opening and at least one aperture that functions to receive fluid from the main body at an angle that is different from the bottom end of the spout.

Provided is a cosmetic container including: a side surface member that forms a closed curved surface shielded from an outside so as to form a reception space; a top surface member formed integrally with the side surface member on an upper portion of the side surface member, and including a cap coupling part protruding from a center region of the top surface member; and a bottom member disposed on a lower portion of the side surface member so as to be fixed to the side surface member, wherein the bottom member is drawn inward of the side surface member, and an overlapping member that overlaps the bottom member is formed by a double injection scheme to allow the side surface member to surround a bottom surface of the bottom member, so that the bottom member and the side surface member are integrally bonded.

A container for a pressurized dispensing system. The container includes a plastic bottle and a base cup bonded to a rounded bottom of the plastic bottle with a hot melt adhesive. The base cup has a bottom surface that allows the container to stand upright. A method of forming the container is also provided wherein hot melt adhesive is deposited in a recessed region in a top wall of a pedestal of the base cup, and a center region of the rounded bottom of the plastic bottle is pressed against the hot melt adhesive such that the adhesive spreads out over the recessed region and the rest of the top wall of the pedestal. After the hot melt adhesive cools, the bottle is securely bonded to the base cup.

A container handling machine including at least one operative unit comprising support means to support a shaped container, and a plunger selectively moved along a given axis to deform a base of the container from a first swollen configuration to a second configuration, in which the base is in part retracted inwardly of the container with respect to the first configuration so as to form a recess delimited by a boundary surface defining an internal volume of the container smaller than that in the first configuration. The plunger is provided with a shaped head interacting with the container base and comprising: first engaging means and an interacting surface.

A hollow preform impact extruded from a metal billet to produce a progressing wall at a transition wall thickness. An axially forward portion of the progressing wall is ironed by extrusion past an extrusion point to form a sidewall portion of a lesser thickness. Extruding is stopped while some of the billet remains to form the closed bottom end. The preform has a bottom portion, a sidewall portion and a transition wall portion extending between the bottom portion and the sidewall portion. The transition wall portion is thicker than the sidewall portion and can be formed into at least part of the rim of an expansion shaped container. An impact extrusion punch has a central axis, an axially forward, impact surface for impacting metal to be extruded, a transition region for directing material displaced by the impact surface and a rear extrusion point for ironing material extruded past the transition region.

Disclosed are a system, and method for fixation of hair fibers on a bald region on a human head. The method comprises pre-treating the bald region so that excess static electricity is removed from the bald region. The removal of static electricity improves fixation property the bald region. The method further includes, using a hair concealment device that is made up of a bottom and a top part. The top part is made up of metal and hence when a user touches metal portion with his hands, static electricity of the hair fibers is removed. This provides better fixation property to the human fibers and increases fixation to the bald region. The method further includes providing finishing to the bald region by spraying a soft gel to further improve fixation of hair to the bald region and natural human hair.

A plastic container comprises an upper portion including a finish adapted to receive a closure, a lower portion including a base, and a sidewall extending between the upper portion and the lower portion. The upper portion, the lower portion, and the sidewall define an interior volume for storing liquid contents. The plastic container further comprises a pressure panel located on the container and moveable between an initial position and an activated position. The pressure panel is located in the initial position prior to filling the container, and is moved to the activated position after filling and sealing the container. Moving the pressure panel from the initial position to the activated position reduces the internal volume of the container and creates a positive pressure inside the container. The positive pressure reinforces the sidewall. A method of processing a container is also disclosed.

A wine bottle is provided with a punt at a lower end which includes a cork retainer therein. A cork which closes an opening at an upper end of the bottle, can thus be stored within the cork retainer in the punt of the bottle, when not in use closing the opening. In one embodiment, the cork retainer includes two retainer surfaces which are opposing each other horizontally, and spaced apart by a length similar to opposing portions of the cork to allow the cork to fit tightly between these retainer surfaces. Space above the retainer surfaces can hold a foil wrap with the cork within the cork retainer and holding the foil wrap in place. The cork and foil can thus remain with the bottle before, during and after use. Full re-use of the bottle is thus facilitated. In one embodiment, the bottle has an octagonal shape so that multiple bottles can be shipped together and placed adjacent each other with flat surfaces distributing loads therebetween, without forces concentrated at points thereof, and to keep the bottles in good shape for washing, re-filling and re-use.

A synthetic resin bottle prevents a trunk from undergoing unsightly deformation in response to reduced pressure inside the bottle and also increases flexibility in terms of container design and secures a label attachment area sufficiently. A synthetic resin bottle includes a mouth, a trunk, and a bottom, with a reduced pressure absorbing region configured to be displaced toward the inside of the bottle in response to reduced pressure inside the bottle. The trunk includes a cylindrical-shaped straight region, which has a length of not less than 100 mm in an axis direction extending along a center axis of the trunk and in which no irregularities are provided. The straight region has a weight of not less than 11 times a weight of the reduced pressure absorbing region.