A bite-safe artificial nipple is constructed of polymeric materials sufficiently soft and elastic to replicate a nursing mother's nipple tissue. Added to the soft, elastic matrix phase is a braided fibrous mesh tube to prevent a small bitten-off portion of the nipple from becoming separated from the rest of the teat, thereby preventing a choking hazard. The braided fibrous mesh tube is arranged in a very specific configuration, so that it experiences neither tension nor compression as the teat is compressed or elongated in use and so does not act to reinforce the soft, elastic matrix phase which would otherwise create a classic load-transfer composite destroying the soft, elastic properties of the matrix phase needed for the desired functioning of the artificial teat.

A feeding assembly includes a container having an open top and defining a liquid chamber therein for holding a liquid. A collar assembly defines a closure for the open top of the container upon assembly with the container. A vent assembly is positionable at least in part on the open top of the container and is configured to facilitate venting of the container to atmosphere as liquid exits the feeding assembly during feeding. The vent assembly being disposed intermediate the container and the nipple, has at least one opening through which liquid is able to flow from the container to the nipple during feeding. The vent assembly has a siphon member extending longitudinally of the feeding assembly and generally away from the nipple and is configured to facilitate the flow of liquid from the nipple back into the container when feeding is ceased and the container is oriented generally upright.

The disclosure discloses an anti-flatulence milk bottle, which comprises a bottle body and a nipple, wherein an edge of the nipple is arranged at a bottleneck of the bottle body through a threaded cover, the threaded cover is in threaded connection with a periphery of the bottleneck, a first air returning cover and a second air returning cover are arranged between the nipple and the bottleneck, a first gap is formed between the first air returning cover and the second air returning cover, a second gap is formed between the threaded cover and an outer surface of the bottleneck, the first gap is communicated with the second gap, the first air returning cover is provided with a first opening communicated with an interior of the bottle body, and the first gap, the second gap and the first opening form a confluence passage.

The disclosure discloses an anti-flatulence milk bottle, which comprises a bottle body and a nipple, wherein an edge of the nipple is arranged at a bottleneck of the bottle body through a threaded cover, the threaded cover is in threaded connection with a periphery of the bottleneck, a first air returning cover and a second air returning cover are arranged between the nipple and the bottleneck, a first gap is formed between the first air returning cover and the second air returning cover, a second gap is formed between the threaded cover and an outer surface of the bottleneck, the first gap is communicated with the second gap, the first air returning cover is provided with a first opening communicated with an interior of the bottle body, and the first gap, the second gap and the first opening form a confluence passage.

A bite-safe artificial nipple is constructed of polymeric materials sufficiently soft and elastic to replicate a nursing mother's nipple tissue. Added to the soft, elastic matrix phase is a braided fibrous mesh tube to prevent a small bitten-off portion of the nipple from becoming separated from the rest of the teat, thereby preventing a choking hazard. The braided fibrous mesh tube is arranged in a very specific configuration, so that it experiences neither tension nor compression as the teat is compressed or elongated in use and so does not act to reinforce the soft, elastic matrix phase which would otherwise create a classic load-transfer composite destroying the soft, elastic properties of the matrix phase needed for the desired functioning of the artificial teat.

A bite-safe artificial nipple is constructed of polymeric materials sufficiently soft and elastic to replicate a nursing mother's nipple tissue. Added to the soft, elastic matrix phase is a braided fibrous mesh tube to prevent a small bitten-off portion of the nipple from becoming separated from the rest of the teat, thereby preventing a choking hazard. The braided fibrous mesh tube is arranged in a very specific configuration, so that it experiences neither tension nor compression as the teat is compressed or elongated in use and so does not act to reinforce the soft, elastic matrix phase which would otherwise create a classic load-transfer composite destroying the soft, elastic properties of the matrix phase needed for the desired functioning of the artificial teat.

A baby bottle blender includes a baby bottle having a top collar and a bottom collar, and a nipple. The nipple cap is removably attached to the top collar of the baby bottle and holds the nipple extending through a central aperture of the nipple cap onto the top collar. An agitating unit is centrally retained within a bottom attaching cap. A base member has a top recess to engage the agitating unit. An electrical mechanism in the base member operates the agitating unit, so that the agitating unit will thoroughly blend a formula in a liquid in the baby bottle in approximately seven seconds.

A baby bottle blender includes a baby bottle having a top collar and a bottom collar, and a nipple. The nipple cap is removably attached to the top collar of the baby bottle and holds the nipple extending through a central aperture of the nipple cap onto the top collar. An agitating unit is centrally retained within a bottom attaching cap. A base member has a top recess to engage the agitating unit. An electrical mechanism in the base member operates the agitating unit, so that the agitating unit will thoroughly blend a formula in a liquid in the baby bottle in approximately seven seconds.

Any container, but especially a nursing bottle formed of a container, incorporating a unique nipple, where the flow can be infinitely adjusted by turning the bottle on it's longitudinal axis, and which flows freely, without any negative pressure within the container, at all times, simulating normal physiological feeding pressures, without leaking. The nursing bottle may have a cylindrical shape or other configuration. The nipple uniquely utilizes a venting mechanism that provides a pathway for air entrained from the threads of the bottle to proceed to the interior of the container without liquid leaking from the bottle. No additional parts are needed, and any existing traditional container may be utilized, which reduces cost, cleaning steps, and the time needed to feed and clean up.

Any container, but especially a nursing bottle formed of a container, incorporating a unique nipple, where the flow can be infinitely adjusted by turning the bottle on it's longitudinal axis, and which flows freely, without any negative pressure within the container, at all times, simulating normal physiological feeding pressures, without leaking. The nursing bottle may have a cylindrical shape or other configuration. The nipple uniquely utilizes a venting mechanism that provides a pathway for air entrained from the threads of the bottle to proceed to the interior of the container without liquid leaking from the bottle. No additional parts are needed, and any existing traditional container may be utilized, which reduces cost, cleaning steps, and the time needed to feed and clean up.