A handle may be provided with a neck supporting part that mates with the neck of the bottle, a bottom supporting part that receives the bottom of a bottle and supports the bottom of the bottle, and a gripping part that connects the bottom supporting part and the neck supporting part. The neck supporting part may have a first engagement part and a second engagement part with which the neck may engage and disengage. The gripping part extends in a substantially vertical direction along the body of the bottle when the neck is engaged with the first engagement part and extends in a substantially slanted direction relative to the substantially vertical direction so as to draw apart from the bottle when the neck is engaged with the second engagement part.

A handle may be provided with a neck supporting part that mates with the neck of the bottle, a bottom supporting part that receives the bottom of a bottle and supports the bottom of the bottle, and a gripping part that connects the bottom supporting part and the neck supporting part. The neck supporting part may have a first engagement part and a second engagement part with which the neck may engage and disengage. The gripping part extends in a substantially vertical direction along the body of the bottle when the neck is engaged with the first engagement part and extends in a substantially slanted direction relative to the substantially vertical direction so as to draw apart from the bottle when the neck is engaged with the second engagement part.

The present invention relates to a polyester resin for extrusion blow molded containers comprising a branched copolymer and fumed silica to improve the aged drop performance said branched copolyester is made from the reaction of purified terephthalic acid or its dimethyl ester, ethylene glycol, bifunctional diacid other than terephthalic acid, diol other than ethylene glycol, and multifunctional compound having a least 3 carboxyl groups, hydroxyl groups and/or ester forming groups thereof, said fumed silica has a particle size of 0.1 to 5 microns and is present at about 100 ppm to about 2,500 ppm based on the weight of said copolyester.

The present invention relates to a polyester resin for extrusion blow molded containers comprising a branched copolymer and fumed silica to improve the aged drop performance said branched copolyester is made from the reaction of purified terephthalic acid or its dimethyl ester, ethylene glycol, bifunctional diacid other than terephthalic acid, diol other than ethylene glycol, and multifunctional compound having a least 3 carboxyl groups, hydroxyl groups and/or ester forming groups thereof, said fumed silica has a particle size of 0.1 to 5 microns and is present at about 100 ppm to about 2,500 ppm based on the weight of said copolyester.

A stackable container, including a body and a cap threadingly engageable with a neck portion of the body and having a vaulted interior and a top portion formed with a frustrum-shaped depression for snap-registered engagement with a base portion of a counterpart of the body, the cap further including handle projections and a skirt. Opposite stop structures prevent rotation of the cap relative to the body beyond predetermined threaded engagement; a detent releasably captures the body in the predetermined threaded engagement. A base portion of the body having inclined side walls facilitates rotation of the body with respect to the cap. The skirt guides the body into alignment with the cap. The base can have four of the side walls forming a square, the containers of a stack having any of four relative orientations. A consumable product such as a cosmetic can extend into the cap from the body.

A cylindrical bottle which collapses along helical groove, ridge and connecting rings along its sidewall. When inward force is applied along the bottle's vertical axis, the helical groove rings and connecting rings fold under the ridge rings and remain substantially “locked” under the ridge rings, thereby causing the sidewall to collapse and remain collapsed until sufficient outward force is applied. When sufficient outward force is applied along its vertical axis, the bottle extends as the distance between its helical groove rings and ridge rings lengthens. Due to the diamond-shaped cross-section of the connecting rings, in conjunction with the silicone composition of the bottle's body, the collapsing and extension of the bottle occur in sequential segments, creating a unique, playful sound and an amusing worm-like movement.

A rim enlarger collar to be applied around the lower ledge of the rim of the neck of a glass bottle for beverages to enlarge the current rim in order to provide a greater support surface for the hand holding said bottle by the neck and prevent the bottle from slipping from the hand. The device is composed of: an external element with the function of ergonomic support surface for the hand, a cavity in the center of the external element with the function of containing the neck of the bottle, an internal gasket protruding from the external element towards the interior of the central cavity with the function of fixing the device under the lower ledge of the rim of the bottle.

A container for storing and dispensing liquids, with at least one stacking feature, a dispenser to dispense liquid contained in the container, a handle for carrying the container, an angle (γ) which is the angle between a line (DD′) perpendicular to a reference lifting plane (Lp) cutting through the handle and a line parallel to a vertical of the container in a filling orientation, and a tilt angle (B) which is the angle between the line (DD′) and a line going through a location of a center of gravity of the filled container in the direction of a weight force of the container. When the container is in a filling orientation the tilt angle (B) and the angle (γ) coincide, while when the container is lifted perpendicular to the lifting plane (Lp), the tilt angle (B) is substantially zero.

A container for storing and dispensing liquids, with at least one stacking feature, a dispenser to dispense liquid contained in the container, a handle for carrying the container, an angle (γ) which is the angle between a line (DD′) perpendicular to a reference lifting plane (Lp) cutting through the handle and a line parallel to a vertical of the container in a filling orientation, and a tilt angle (B) which is the angle between the line (DD′) and a line going through a location of a center of gravity of the filled container in the direction of a weight force of the container. When the container is in a filling orientation the tilt angle (B) and the angle (γ) coincide, while when the container is lifted perpendicular to the lifting plane (Lp), the tilt angle (B) is substantially zero.

The invention relates to a plastic container (11) comprising a blow-molded container part for receiving a filling product, comprising a container body and a container neck, wherein the container neck (17) comprises an inner wall (21) and an outer wall (23), a pouring element (25) that can be mounted on the container neck (17) and comprises a pouring opening (27), and a closure (29) by means of which the plastic container (11) can be closed. A first and second holding means (31, 45) are formed on the inner wall (21) of the container neck (17), wherein the first holding means (31) is formed so as to hold the pouring element (25) in the container neck (17) and the second holding means (45) is formed so as to hold the closure (29) in the container neck (17).