Systems and methods for securing an orientation of a container (40) in a package (25) are disclosed, which includes positioning a plurality of containers in a predetermined orientation, wrapping the arrangement of containers in a paperboard package, and applying an adhesive (50) within the package to secure the orientation of at least one container in the package.

Systems and methods for securing an orientation of a container (40) in a package (25) are disclosed, which includes positioning a plurality of containers in a predetermined orientation, wrapping the arrangement of containers in a paperboard package, and applying an adhesive (50) within the package to secure the orientation of at least one container in the package.

A blow molded bottle (1): a) which is self-collapsible during its emptying; b) which comprises at least two transversal grooves and/or ribs (6.1), preferably located in the tubular body portion (6), equipped with collapse starters (6.2); c) wherein the mean wall thickness (Tmean) of the tubular body portion (6) is—in an increasing order of preference—less than or equal to 200; 180; 160; 150 μm; preferably comprised between 65 and 150; and more preferably comprised between 90 and 130 μm. The invention also discloses a method, a preform (100) and a mold for the manufacture of the aforementioned container by blow molding. The invention also discloses a method for bottling liquid into the bottles (1), a method for dispensing the liquid, a dispenser for implementing the method and a method for packing the thin-walled bottles, in view of storage and transportation.

Aspects of the invention relate to an applicator plate (10) for use in an apparatus (80) for attaching a set of frangibly adjoined top engaging clips (110) to a group of articles ‘C’. The applicator plate (10) having a generally planar body; and a plurality of apertures (16a-26f) within the body. Each aperture (16a-26f) has a series of internal walls (16i-16x) arranged such that each aperture (16a-26f) has a polygonal shape.

A method for separating containers in a densely packed container flow from each other so that they are spaced by a defined distance includes using a compartment star to place the containers on a rearrangement portion and then sweeping the containers forward using catch elements that move along the rearrangement portion so that they arrive at an inlet star with a separation that enables them to be picked up by a waiting inlet-star receptacle.

A method for separating containers in a densely packed container flow from each other so that they are spaced by a defined distance includes using a compartment star to place the containers on a rearrangement portion and then sweeping the containers forward using catch elements that move along the rearrangement portion so that they arrive at an inlet star with a separation that enables them to be picked up by a waiting inlet-star receptacle.

The present invention allows a beverage manufacturer to package variety packs of beverages while it is filling various beverages. The improved system that carries out the method includes an onsite accumulator that eliminates the long-standing practice of packaging variety packs at a separate location from where the beverages are packed.

The present invention allows a beverage manufacturer to package variety packs of beverages while it is filling various beverages. The improved system that carries out the method includes an onsite accumulator that eliminates the long-standing practice of packaging variety packs at a separate location from where the beverages are packed.

A packaging sleeve for retaining a plurality of individually packaged products includes a first sidewall having a first opening that partially receives a first product of the plurality of individually packaged products, as well as a reinforcing biasing beam that exhibits a spring action to bias the first product into the first opening by applying a force to the first product in a direction toward the first opening. The biasing beam includes a first wall and a second wall, with the first wall of the biasing beam contacting and biasing the first product, and the second wall of the biasing beam contacting a second product and biasing the second product into a second opening formed in the sleeve. The biasing beam is convertible between a fully compressed state and a fully expanded state, with the biasing beam being biased to the fully expanded state.

A packaging sleeve for retaining a plurality of individually packaged products includes a first sidewall having a first opening that partially receives a first product of the plurality of individually packaged products, as well as a reinforcing biasing beam that exhibits a spring action to bias the first product into the first opening by applying a force to the first product in a direction toward the first opening. The biasing beam includes a first wall and a second wall, with the first wall of the biasing beam contacting and biasing the first product, and the second wall of the biasing beam contacting a second product and biasing the second product into a second opening formed in the sleeve. The biasing beam is convertible between a fully compressed state and a fully expanded state, with the biasing beam being biased to the fully expanded state.