A retaining member for use with a vacuum-insulated vessel is described. The retaining member includes a frustoconical body, a cylindrical skirt extending from the frustoconical body, and a deformable member extending along an inner surface of the frustoconical body. The deformable member may have multiple layers. An opening extends through the frustonical body, so that the neck of a bottle may pass through the opening. The vacuum-insulated vessel, in combination with the retaining member, may receive and secure bottles having different heights and widths. The retaining member and vacuum-insulated vessel also eliminates condensation from external surfaces of a bottle positioned therein, maintains the initial temperature of the bottle, and allows a user to pour from the bottle without having to remove the bottle from the vessel.

A fluid container for holding a fluid, specifically adapted for improved user handling by reducing the risk of fluid spillage in combination with easy extraction of the fluid comprised in the container. The present disclosure also relates to a fluid container system.

A fluid container for holding a fluid, specifically adapted for improved user handling by reducing the risk of fluid spillage in combination with easy extraction of the fluid comprised in the container. The present disclosure also relates to a fluid container system.

A retaining member for use with a vacuum-insulated vessel is described. The retaining member may include a body and a deformable member. The deformable member may have a first layer and a second layer extending from the first layer to a resilient end of the second layer. The resilient end of the second layer may define an opening of the second layer and the opening of the second layer may be aligned with a first aperture of the body and a second aperture of the body, to receive and securely hold a bottle such as a wine bottle within the opening, the first aperture, and the second aperture. The second layer may be resiliently flexible between a first position and a second position of a peripheral edge of the resilient end, to receive and retain bottles having various sizes.

A retaining member for use with a vacuum-insulated vessel is described. The retaining member may include a body and a deformable member. The deformable member may have a first layer and a second layer extending from the first layer to a resilient end of the second layer. The resilient end of the second layer may define an opening of the second layer and the opening of the second layer may be aligned with a first aperture of the body and a second aperture of the body, to receive and securely hold a bottle such as a wine bottle within the opening, the first aperture, and the second aperture. The second layer may be resiliently flexible between a first position and a second position of a peripheral edge of the resilient end, to receive and retain bottles having various sizes.

A drip catcher for containers, and particularly, a drip catcher that is particularly practical and very versatile, above all suitable for necks of bottles containing liquids which can easily drip when poured.

A container and associated closure provide an angled spout with a leak free seal. The container and closure are disposed about a longitudinal axis. A neck finish extending from a body of the container includes a spout establishing an axial end surface of the finish located in a plane disposed at a non-perpendicular angle relative to the axis. The finish further includes a radially inner surface including a sealing surface located axially between the axial end surface and the body and disposed at an angle with respect to the axis. The closure includes an annular base wall facing the axial end surface of the finish, radially outer and inner walls extending away from the base wall and a transverse wall extending radially inwardly from the radially inner wall and axially spaced from the base wall. The transverse wall defines a sealing surface configured to seal against the container sealing surface.

A drip stopper for preventing the undesired falling of drops during pouring includes a substantially cylindrical wall having an insertion part for inserting into a bottleneck, and a pouring-out part. The wall has an axially parallel set-back in the form of a recess which extends over the axial length of the wall and makes is possible to adapt the drip stopper to bottlenecks of different widths.

A container and associated closure provide an angled spout with a leak free seal. The container and closure are disposed about a longitudinal axis. A neck finish extending from a body of the container includes a spout establishing an axial end surface of the finish located in a plane disposed at a non-perpendicular angle relative to the axis. The finish further includes a radially inner surface including a sealing surface located axially between the axial end surface and the body and disposed at an angle with respect to the axis. The closure includes an annular base wall facing the axial end surface of the finish, radially outer and inner walls extending away from the base wall and a transverse wall extending radially inwardly from the radially inner wall and axially spaced from the base wall. The transverse wall defines a sealing surface configured to seal against the container sealing surface.

A retaining member and a vacuum-insulated vessel are disclosed. The retaining member includes a frustoconical body, a cylindrical skirt extending from the frustoconical body, and a deformable member extending along an inner surface of the frustoconical body. The deformable member may have multiple layers. An opening extends through the frustonical body, so that the neck of a bottle may pass therethrough. The vacuum-insulated vessel includes the aforementioned retaining member and a double-walled structure, and is able to receive and secure bottles having different heights and widths. The vacuum-insulated vessel also eliminates condensation from external surfaces of a bottle positioned therein, maintains the initial temperature of the bottle, and allows a user to pour from the bottle without having to remove the bottle from the vessel.