The invention is a wearable breast pump system including a housing shaped at least in part to fit inside a bra and a piezo air-pump. The piezo air-pump is fitted in the housing and forms part of a closed loop system that drives a separate, deformable diaphragm to generate negative air pressure. The diaphragm is removably mounted on a breast shield.

The disclosure includes embodiments of an apparatus, a device, and methods to transform an infant feeding bottle into an infant gavage feeding apparatus. According to an embodiment, an infant gavage feeding apparatus can include an infant feeding bottle, a gavage milk delivery component, a retaining ring, and a cord component. In another embodiment, an infant milk dual-delivery device to transform an infant feeding bottle to an alternate nipple feeding and gavage feeding apparatus includes a gavage milk delivery component, a retaining ring, and a nipple receiving component. The gavage milk delivery component and the nipple receiving component can be positioned in a branched or a stacked configuration. The device can include a flow closure component and a controller to transition the milk flow for a gavage feeding and nipple feeding. The device can include a funnel to allow milk in the nipple to flow back into the infant feeding bottle.

The disclosure includes embodiments of an apparatus, a device, and methods to transform an infant feeding bottle into an infant gavage feeding apparatus. According to an embodiment, an infant gavage feeding apparatus can include an infant feeding bottle, a gavage milk delivery component, a retaining ring, and a cord component. In another embodiment, an infant milk dual-delivery device to transform an infant feeding bottle to an alternate nipple feeding and gavage feeding apparatus includes a gavage milk delivery component, a retaining ring, and a nipple receiving component. The gavage milk delivery component and the nipple receiving component can be positioned in a branched or a stacked configuration. The device can include a flow closure component and a controller to transition the milk flow for a gavage feeding and nipple feeding. The device can include a funnel to allow milk in the nipple to flow back into the infant feeding bottle.

The present invention relates to a separation component (10) for a feeding bottle device (1) and a corresponding feeding bottle device (1). The separation component (10) provides a separation between a container space (2) of the baby bottle device (1) and a feeding space (3) for providing liquid to an infant, the separation component (10) comprising a hole wall portion (30) surrounding a hole (32) through the separation component (10) for allowing a passage of fluid from the container space (2) to the feeding space (3) therethrough, wherein the hole wall portion (30) is formed such that, when a pressure of the feeding space (3) side is lower than a pressure of the container space (2) side, a minimum cross-sectional area of the hole (32) is reduced with increased pressure difference between feeding space (3) and container space (2). A decreased risk of overfeeding an infant is achieved.

The present invention relates to a separation component (10) for a feeding bottle device (1) and a corresponding feeding bottle device (1). The separation component (10) provides a separation between a container space (2) of the baby bottle device (1) and a feeding space (3) for providing liquid to an infant, the separation component (10) comprising a hole wall portion (30) surrounding a hole (32) through the separation component (10) for allowing a passage of fluid from the container space (2) to the feeding space (3) therethrough, wherein the hole wall portion (30) is formed such that, when a pressure of the feeding space (3) side is lower than a pressure of the container space (2) side, a minimum cross-sectional area of the hole (32) is reduced with increased pressure difference between feeding space (3) and container space (2). A decreased risk of overfeeding an infant is achieved.

A container that provides temperature range indication to a user, the container including a chamber for holding heated liquid and a cap having a visual indicator and a temperature sensor, wherein in use the visual indicator illuminates a plurality of visual colours representing to the user the discrete temperature range of the heated liquid. The container is suitable for infant formula preparation and feeding.

The invention is a wearable breast pump system including a housing shaped at least in part to fit inside a bra and a piezo air-pump. The piezo air-pump is fitted in the housing and forms part of a closed loop system that drives a separate, deformable diaphragm to generate negative air pressure. The diaphragm is removably mounted on a breast shield.

The invention is a wearable breast pump system including a housing shaped at least in part to fit inside a bra and a piezo air-pump. The piezo air-pump is fitted in the housing and forms part of a closed loop system that drives a separate, deformable diaphragm to generate negative air pressure. The diaphragm is removably mounted on a breast shield.

A feeding bottle configured to receive milk for small children, the feeding bottle including a water bottle; a suction nipple; a heater; a milk powder depot that is separate from the water bottle; and a temperature sensor coupled to the heater.

A portable warming blender includes a base assembly with a recessed portion; a temperature control system; a detachable agitator rotatably mounted on an axle extending longitudinally into the recessed portion; an electric motor; a rechargeable power system; and a controller. The base assembly includes a housing with a cylindrical sidewall, housing the motor, the power system, and the controller. An inner surface of the recessed portion is threaded. The temperature control system includes a temperature sensor and a heating element. The temperature sensor is mounted adjacent to the axle. The heating element heats the recessed portion. The motor is magnetically coupled with the agitator. The rechargeable power system includes a rechargeable battery and a charging port. The controller selectively transmits power to the temperature control system and the motor from the power system when an operating mode is selected. The blender warms, blends, or both in one device anywhere, anytime.