Containers are disclosed herein that include a reservoir, a handle disposed on the reservoir at an angle defined by a grip axis. The handle is configured for a single grip position and having a midpoint that coincides with a midpoint of a user's grip when the handle is gripped by a user. A first center of gravity coincident with a resting axis is substantially perpendicular to the bottom wall when the bottom wall is placed on a horizontal surface. A second center of gravity coincident with a carrying axis is substantially perpendicular to the grip axis when the container is carried by the handle.

Containers are disclosed herein that include a reservoir, a handle disposed on the reservoir at an angle defined by a grip axis. The handle is configured for a single grip position and having a midpoint that coincides with a midpoint of a user's grip when the handle is gripped by a user. A first center of gravity coincident with a resting axis is substantially perpendicular to the bottom wall when the bottom wall is placed on a horizontal surface. A second center of gravity coincident with a carrying axis is substantially perpendicular to the grip axis when the container is carried by the handle.

A method of controlling a preform for stretch blow-moulding a container with an integrally formed handle; the preform comprising, a body portion and the integrally formed handle; the preform transferred from a perform supply source to a blow moulding die for blowing the container; the method including the steps of passing the preform through a preform handle orientating apparatus, transferring the preform to a preform transportation system, maintaining orientation of the preform handle imposed by the perform handle orientating apparatus during transfer to the perform transportation system and transfer to the blow moulding die, rotating the preforms during transport along the transportation system past an array of preform heating elements while shielding the integrally formed handle from excessive exposure to the heating elements, transferring the preform from the transportation system to the blow moulding die, and wherein the handle comprises a loop of orientable material extending between an upper connection region and a lower connection region on the body portion of the preform; characterised in that the handle has a generally uniform cross section from proximate the lower connection region to a gradually widening cross section approaching the upper connection region; the cross section reaching and maintaining a maximum width proximate the upper connection region.

A method of controlling a preform for stretch blow-moulding a container with an integrally formed handle; the preform comprising, a body portion and the integrally formed handle; the preform transferred from a perform supply source to a blow moulding die for blowing the container; the method including the steps of passing the preform through a preform handle orientating apparatus, transferring the preform to a preform transportation system, maintaining orientation of the preform handle imposed by the perform handle orientating apparatus during transfer to the perform transportation system and transfer to the blow moulding die, rotating the preforms during transport along the transportation system past an array of preform heating elements while shielding the integrally formed handle from excessive exposure to the heating elements, transferring the preform from the transportation system to the blow moulding die, and wherein the handle comprises a loop of orientable material extending between an upper connection region and a lower connection region on the body portion of the preform; characterised in that the handle has a generally uniform cross section from proximate the lower connection region to a gradually widening cross section approaching the upper connection region; the cross section reaching and maintaining a maximum width proximate the upper connection region.

A bottle carrier for use with a bottle is disclosed. The bottle has a screw cap. The bottle carrier has a diameter of at least two inches. An internally threaded socket has a solid ceiling and a perimeter. The internally threaded socket receives an externally threaded bottle top of the bottle. The bottle carrier replaces the screw cap. At least two apertures in the bottle carrier receive a handle. The apertures extend through the bottle carrier beyond the perimeter of the internally threaded socket. A handle engages the bottle carrier through at least two apertures of the bottle carrier.

The present application generally relates to devices and methods for transporting items, and it more specifically relates to insulated carriers for use in carrying temperature-controlled items such as beverages and food.

The present application generally relates to devices and methods for transporting items, and it more specifically relates to insulated carriers for use in carrying temperature-controlled items such as beverages and food.

A plastic internally hollow body has a cavity for containing liquids, solids or gases, and includes a main body shaped and having an inner surface at least partially defining the cavity. The inner surface terminates in a shaped edge that delimits a coupling aperture to the cavity. The internally hollow body includes a closure body, having an outer sealing surface suitable at least partially engaging the inner surface of the main body. The closure body at least partially closes the cavity in correspondence of the coupling aperture. The main body is joined to the closure body at least partially along the shaped edge by a joining element over-moulded to the main body and the closure body and covering the over-moulding seat resulting between the main body and the closure body. A method for making the internally hollow body over-moulds the joining element by injection moulding with an over-moulding mould.

A plastic internally hollow body has a cavity for containing liquids, solids or gases, and includes a main body shaped and having an inner surface at least partially defining the cavity. The inner surface terminates in a shaped edge that delimits a coupling aperture to the cavity. The internally hollow body includes a closure body, having an outer sealing surface suitable at least partially engaging the inner surface of the main body. The closure body at least partially closes the cavity in correspondence of the coupling aperture. The main body is joined to the closure body at least partially along the shaped edge by a joining element over-moulded to the main body and the closure body and covering the over-moulding seat resulting between the main body and the closure body. A method for making the internally hollow body over-moulds the joining element by injection moulding with an over-moulding mould.

A thermoplastic bottle is provided that has a sidewall having an exterior surface that defines a plane curve. The sidewall is joined with a base and an upper portion with a mouth to define an interior volume. The mouth has a set of threads to engage a cap for selectable closure. A handle is integrally formed in the sidewall that defines an aperture in the bottle. A set of lateral ribs on the handle enhance gripping. The bottle includes a set of identifying design elements that include at least one of one or more waves, delineating lines, and a shape of the bottle. One or more indicia in the form of decals may be applied to identify the product in the bottle by name, and to provide usage and safety information.