A feeding bottle assembly having a flexible bottle defining a main chamber having a flexible peripheral and a divider member cooperating with the flexible bottle open top and having an opening extending therethrough. A raised lid attached to the open top retaining the divider member therebetween, the raised lid defining an auxiliary chamber with an having an outlet. An elongate liquid pickup tube having a proximate end passes through and sealingly connected to the divider member opening and extending above the divider member to define an auxiliary chamber, and extending below the divider into the main chamber. A nipple is mounted in a raised lid outlet, so that a liquid placed in the main chamber can be transferred to the auxiliary chamber through the pickup tube by squeezing the flexible bottle peripheral wall. The liquid is subsequently consumed by a user drinking from the nipple through a nipple outlet.

A feeding bottle assembly having a flexible bottle defining a main chamber having a flexible peripheral and a divider member cooperating with the flexible bottle open top and having an opening extending therethrough. A raised lid attached to the open top retaining the divider member therebetween, the raised lid defining an auxiliary chamber with an having an outlet. An elongate liquid pickup tube having a proximate end passes through and sealingly connected to the divider member opening and extending above the divider member to define an auxiliary chamber, and extending below the divider into the main chamber. A nipple is mounted in a raised lid outlet, so that a liquid placed in the main chamber can be transferred to the auxiliary chamber through the pickup tube by squeezing the flexible bottle peripheral wall. The liquid is subsequently consumed by a user drinking from the nipple through a nipple outlet.

The present invention relates to a thermotropic liquid crystal glass in a crystal or quartz shell for indicating a temperature of a food item and thereby preventing individuals from consuming food at undesirable temperatures or accidentally touching or consuming items that are too hot or too cold. The glass shell includes a plurality of thermotropic liquid crystals that absorbs heat from food items and changes color to exhibit at least one of violet blue, blue, green, yellow/amber, brown, gray, and black color. The hot food causes crystals to change to violet blue and alternatively, when exposed to cold food, the crystals turn black. In some embodiments, kitchenware can be integrated with the glass shell or alternatively, can be detachably attached to the kitchenware. In exemplary embodiments, the glass shell can be positioned onto dishware (i.e., plates, bowls, cups, and mugs) and metal utensils (i.e., forks, spoons, and knives).

A system for monitoring infant feeding habit includes a nipple having an embedded pressure sensing passage and pressure sensing opening. The pressure sensing opening is proximate the nipple feeding opening. The pressure sensing passage allows monitoring of change in pressure of infant sucks and swallows throughout feeding.

The present disclosure relates to a smart bottle and a method of controlling the same. The smart bottle includes a bottle for containing liquid and a base that is disposed under the bottle and includes an elastic body that is elastically deformed by the weight of the bottle and the base, a weight measurement sensor disposed above the elastic body and measuring the weight of the bottle by measuring a pressure that the elastic body transfers in a vertical direction from the ground as a reaction to gravity, and a controller that measures the amount of fed milk based on the change in the weight measured by the weight measurement sensor.

A feeding device includes a fluid reservoir and a nipple configured to be attached to the fluid reservoir. The nipple includes a base portion and a teat portion, where the base portion and the teat portion together define an interior space of the nipple. The nipple also includes a removable flow valve configured to be positioned within the interior space of the nipple and an internal cavity between the removable flow valve and a wall of the nipple. The removable flow valve includes a central opening and at least one valve protrusion extending from a surface of the flow valve into the internal cavity. The removable flow valve is configured to adjust a flow rate of a fluid from the fluid reservoir into the internal cavity.

A device for heating and concomitantly administering a liquid includes a body having at opposite ends a base and a neck connectable to liquid suction means, and liquid heating means. The body has an inner housing configured to receive and completely enclose a liquid container. The inner housing has fluidic connection means. The neck has one or more tubes adapted to fluidically connect the fluidic connection means to the liquid suction means. The liquid heating means are adapted to heat at least partially the one or more tubes, and the fluidic connection means have one or more sharp spouts for puncturing of a predetermined region of the liquid container and for fluidic connection to the liquid container. A liquid container and a sanitizing system of the device are also provided.

A teat for a drinking bottle is formed from a wall with various different thicknesses. An air replenish valve has first and second valve portions of different thickness, and there are also different wall thicknesses in a cross section perpendicular to a teat axis, taken above the valve. These measures improve the reliability of the valve manufacture.

The present disclosure discloses an anti-colic baby bottle, including a bottle body and a nipple mounted in the bottle body through a threaded fixing ring; the nipple is provided with a thickened portion; an anti-colic separation sheet is arranged between the bottle body and the nipple; an air inlet is formed in the thickened portion of the nipple; the anti-colic separation sheet is connected with an air guide pipe which correspondingly adapts to the air inlet and extends into the bottle body; the air guide pipe and a sucking end of the nipple are symmetrically arranged on two sides of the bottle body in a radial direction.

A baby bottle, an insert for a baby bottle, a baby bottle including an insert, and a method of feeding an infant that serves to pace the infant's feeding rhythm. Generally, these devices and methods will be of use for a preterm infant who lacks coordination of the suck-swallow-breathe synchrony, but can also be used with full term infants who can benefit from rigid control of the flow of milk from a bottle, this includes, but is not limited to, infants with gastroesophageal reflux who can require pacing of feeds to allow for gastric emptying. The device generally cues the infant to swallow and breathe after each 1-4 sucks by stopping the flow of the fluid from the bottle after the infant has sucked sufficiently or a predetermined period of time has passed. Once the baby breathes or a period of time passes, the bottle resets for the next repetition. The device also serves to consistently slow the flow of milk during oral feeding.