A container may comprise a tubular body having a rounded sidewall extending between a closed end defining a base portion and an opposite open end surrounded by a rim portion, and one or more sets of grooves defined within the vertical portion of the rounded sidewall. The base portion is configured to support the container in an upright orientation relative to a support surface and wherein the base portion defines a support ring having an at least substantially rounded perimeter. The rounded sidewall comprises a curved base transition region and a vertical portion extending between the perimeter of the base portion and the rim portion along a central axis. Each of the grooves comprises a length and a width, wherein the length is longer than the width. The grooves extend between the base portion and the rim portion along the length.

A cup having an endless sidewall with a lower stacking shoulder formed of a sidewall and bottom heel including a convexly outwardly curved rib disposed at a transition between the sidewall and a cup bottom having a bottom wall having a recessed dome-shaped center section providing draw ratio bottom wall thickness reduction to an annular flat bottom wall section defining a puncture region of the cup. The cup sidewall has a ribbed section disposed adjacent the heel and extends upwardly at least one-quarter the height of the cup helping to strengthen the relatively thin sidewall to prevent it from undesirably deforming during puncturing of the cup bottom during beverage making. The cup may include an upper shoulder formed of an outwardly expanded section of the sidewall adjacent the top of the cup and defining an filter attachment seat on one side and a cup carrier on the opposite side.

A cup having an endless sidewall with a lower stacking shoulder formed of a sidewall and bottom heel including a convexly outwardly curved rib disposed at a transition between the sidewall and a cup bottom having a bottom wall having a recessed dome-shaped center section providing draw ratio bottom wall thickness reduction to an annular flat bottom wall section defining a puncture region of the cup. The cup sidewall has a ribbed section disposed adjacent the heel and extends upwardly at least one-quarter the height of the cup helping to strengthen the relatively thin sidewall to prevent it from undesirably deforming during puncturing of the cup bottom during beverage making. The cup may include an upper shoulder formed of an outwardly expanded section of the sidewall adjacent the top of the cup and defining an filter attachment seat on one side and a cup carrier on the opposite side.

A blending appliance in accordance with the principals of the present invention includes a linear motor drive comprising a magnet structure secured to a reaction mass and a coil structure secured to a shaker platen, the shaker platen adapted to secure a blending cup. A third mass is secured to the reaction mass via at least one biasing member. A ground is secured to the third mass via at least one biasing member. The shaker platen is secured to the reaction mass via at least one biasing member. The magnet structure and coil structure impart a force to the reaction mass and the shaker platen, which force is driven by the biasing members and the masses of the shaker platen, the reaction mass, and the third mass into resonance, thereby maximizing payload amplitude, minimizing forces transmitted to ground, and minimizing driver amplitude. The smoothie blending cup comprising structure to generate at least two forces applied upon the smoothie ingredients, the forces selected from the group consisting of pulverizing force, shear force, rotational-kinetic energy force, radial-kinetic energy force, and combinations thereof. The smoothie blending cup and cap can be sealed with the beverage ingredients contained therein at the point of manufacture.

A blending appliance in accordance with the principals of the present invention includes a linear motor drive comprising a magnet structure secured to a reaction mass and a coil structure secured to a shaker platen, the shaker platen adapted to secure a blending cup. A third mass is secured to the reaction mass via at least one biasing member. A ground is secured to the third mass via at least one biasing member. The shaker platen is secured to the reaction mass via at least one biasing member. The magnet structure and coil structure impart a force to the reaction mass and the shaker platen, which force is driven by the biasing members and the masses of the shaker platen, the reaction mass, and the third mass into resonance, thereby maximizing payload amplitude, minimizing forces transmitted to ground, and minimizing driver amplitude. The smoothie blending cup comprising structure to generate at least two forces applied upon the smoothie ingredients, the forces selected from the group consisting of pulverizing force, shear force, rotational-kinetic energy force, radial-kinetic energy force, and combinations thereof. The smoothie blending cup and cap can be sealed with the beverage ingredients contained therein at the point of manufacture.

The present application provides a container for a beverage filled in a hot fill process. The container may include an upper section and a lower section. The lower section may include a wavy groove defining a number of tongue panels and wherein the wavy groove may include a substantial Z-like shape.

The present application provides a container for a beverage filled in a hot fill process. The container may include an upper section and a lower section. The lower section may include a wavy groove defining a number of tongue panels and wherein the wavy groove may include a substantial Z-like shape.

A resin made container includes a spout portion acting as an outlet for contents, a shoulder portion continuous with the spout portion, a body portion continuous with the shoulder portion, and a bottom portion continuous with the body portion and closing a lower end of the body portion. The body portion includes a plurality of approximately quadrangular shaped panel portions each having an upper side and a lower side thereof displaced; and between adjacent panel portions, a chevron-shaped rib is provided. Also, there is provided an annular receded rib which is receded to the inner side of the resin made container and which extends in a circumferential direction of the resin made container. The receded rib includes a plurality of protruding ribs protruding in a direction intersecting the extending direction of the receded rib, the protruding ribs being receded from the surface of the resin made container.

The present invention relates to a container with a side wall of plastic encloses a container volume. Horizontally oriented grooves spaced vertically apart from one another are formed in the side wall, and the grooves include first grooves for stiffening the side wall. The first grooves have a first groove depth and are configured such that a projection protruding into the enclosed container volume is formed in the inner surface of the side wall. The grooves also include second grooves having a second groove depth. The first groove depth is greater than the second groove depth. The first and second grooves are arranged such that at least one second groove is in each case arranged in the vertical direction between two first grooves. The subvolumes enclosed by two horizontal planes, which are defined by two adjacent grooves, and the side wall are in each case identical.

The present invention relates to a container with a side wall of plastic encloses a container volume. Horizontally oriented grooves spaced vertically apart from one another are formed in the side wall, and the grooves include first grooves for stiffening the side wall. The first grooves have a first groove depth and are configured such that a projection protruding into the enclosed container volume is formed in the inner surface of the side wall. The grooves also include second grooves having a second groove depth. The first groove depth is greater than the second groove depth. The first and second grooves are arranged such that at least one second groove is in each case arranged in the vertical direction between two first grooves. The subvolumes enclosed by two horizontal planes, which are defined by two adjacent grooves, and the side wall are in each case identical.