A barrier system for a container, includes a fluid permeable solids barrier comprising an outer flange surrounding a central fluid permeable sieve; an upper port located at an interior edge of an upper side of the outer flange, a lower port on an opposite lower side of the outer flange in fluid communication with the upper port by a flow path therebetween, and a fluid permeable sieve located in the flow path between the upper port and the lower port. The system also includes a straw having an upper end configured to fittingly engage the lower port of the fluid permeable solids barrier spout; and a spout having a lower port configured to fittingly engage the upper port of the fluid permeable solids barrier.

A container gripping aid (1) has a jacket (2) for reception of a container such as a baby bottle (3). The jacket (2) has a mesh configuration with a plurality of through-holes (5) to facilitate gripping of the jacket (2) by a baby. The jacket (2) has an egg-like shape. Thus, when it is engaged with the bottle (3), most of the jacket (2) side wall is supported spaced-apart from an exterior side wall (6) of the container (3) which enables a baby to easily grip the mesh of the jacket (2).

Embodiments relate to a self-orienting handle assembly that is oriented in a predetermined direction relative to a lid when the lid is screwed onto a container. The handle assembly includes a locking structure that locks onto a counterpart locking structure of the lid as the lid is screwed onto the container. The locking structure may include at least one of a protrusion or a notch, and the counterpart locking structure may have an inverse shape. When the lid is screwed onto the container, the locking structure engages the counterpart locking structure and cause the handle assembly to rotate with the lid. When the lid is screwed onto the container, the locking structure locks onto the counterpart locking structure, and thereby prevents the handle assembly from rotating relative to the lid.

Embodiments relate to a self-orienting handle assembly that is oriented in a predetermined direction relative to a lid when the lid is screwed onto a container. The handle assembly includes a locking structure that locks onto a counterpart locking structure of the lid as the lid is screwed onto the container. The locking structure may include at least one of a protrusion or a notch, and the counterpart locking structure may have an inverse shape. When the lid is screwed onto the container, the locking structure engages the counterpart locking structure and cause the handle assembly to rotate with the lid. When the lid is screwed onto the container, the locking structure locks onto the counterpart locking structure, and thereby prevents the handle assembly from rotating relative to the lid.

A support system for a baby bottle includes a support body. The support body includes a first rim at a first end defining a first opening, a second rim at a second end defining a second opening, a channel extending between the first opening and the second opening, a slot extending between the first end and the second end, a neck portion configured to be positioned about a bottle neck of a baby bottle, and a generally convex or generally concave portion extending between the neck portion and the second end. The support system also includes a pair of handle portions coupled to the support body. Each handle portion includes a handle grip portion and a handle attachment portion.

A nipple for use with an infant drinking cup is disclosed herein. The nipple comprises a domed portion having a central region and an inner surface, a teat portion radially offset from the central region, and a radially-outer wall. The radially-outer wall is joined to the domed portion at a joining location and comprises an inner fluid-flow surface, defining a fluid flow direction. A region of the inner surface of the domed portion at the joining location is substantially parallel to said fluid flow direction, or the inner fluid-flow surface of the teat portion extends radially outwardly, away from said region of the inner surface of the domed portion at the joining location.