A baby rocking device, adapted to impart a reciprocating cycling rocking movement to a perambulator, push-chair or the like, comprising a single roller, having an electric motor arranged inside the roller, said roller being configured for rolling on a floor alternately in two opposite directions. The afore mentioned single roller includes an inner non-rotating core having two ends portions projecting from opposite ends of the roller and connected to two receiving and supporting members configured for receiving two respective wheels of the perambulator or push-chair, so that the perambulator or push-chair is placed astride said single roller, and a cylindrical outer shell for contact with the floor, which is rotatably mounted on the inner core. The electric motor is carried by the inner core and is provided for actuating the rotation of the outer shell alternately in two opposite directions of rotation, so as to cause rolling of said single roller on the floor alternately in two opposite directions.

A stroller is disclosed. The stroller includes a support frame supported by at least two wheels. The stroller also includes a seat carrier support selectively, removably coupled to the support frame. A swing motor is operatively coupled to the seat carrier support. A seat swing mechanism extends downwardly from the swing motor. The seat swing mechanism has a seat yoke configured to receive and retain an infant seat. The seat swing mechanism is configured to swing the infant seat forwards and backwards when the swing motor is activated.

An alternative solution for pacifying an infant in his own bed or cradle is herein disclosed. The solution is based on a novel reciprocation device that has a membrane, which supports at least one being and extends along a first Cartesian dimension (Y) and a second Cartesian dimension (Z) to cover an area and has a thickness in the third Cartesian dimension (X). The reciprocation device also includes a tensioning mechanism, which is attached to the membrane and adjusts the tension of the membrane in at least either first or second Cartesian dimension (Y, Z) for repeatedly reciprocating the at least one being lying on the membrane.

An infant calming/sleep-aid/SIDS detection device is provided that includes a main moving platform that moves in a variable manner with accompanying variable sound generation, the sound and motion adapted to calm a fussy baby, induce sleep, and maintain sleep under normal conditions. The device may also have a sensor for detection of pauses in breathing and/or detection of resultant biological changes related to breathing pauses and respond with appropriate stimuli to arouse the baby and allow breathing to recommence.

An infant calming/sleep-aid/SIDS detection device is provided that includes a main moving platform that moves in a variable manner with accompanying variable sound generation, the sound and motion adapted to calm a fussy baby, induce sleep, and maintain sleep under normal conditions. The device may also have a sensor for detection of pauses in breathing and/or detection of resultant biological changes related to breathing pauses and respond with appropriate stimuli to arouse the baby and allow breathing to recommence.

A drive mechanism which is adapted for use with a swing device includes at least one electromagnetic driving unit and a control unit. The at least one electromagnetic driving unit is adapted to be pivotally connected to a bottom of the swing device. The control unit is electrically connected to the at least one electromagnetic driving unit for controlling the at least one electromagnetic driving unit to be activated and deactivated, so as to generate an intermittent magnetic force to drive swinging movement of the swing device. The swing device including the drive mechanism is also disclosed.

A bassinet for supporting an infant and providing clear lines of sight for a caregiver through the walls of the bassinet basket. The bassinet basket rocks about a single axis with respect to the frame of the bassinet. The bassinet basket is formed substantially of a mesh material that allows visual observation of the interior of the bassinet basket. The bassinet basket includes an infant insert that suspends a padded region between a top and bottom of the bassinet basket and forms a storage compartment under the infant insert. The frame of the bassinet is height adjustable. The bassinet also includes a control panel for various electrical features and elements of the bassinet.

A drive mechanism which is adapted for use with a swing device includes two symmetrically-disposed electromagnetic driving units and a control unit. The electromagnetic driving units are adapted to be pivotally connected to a bottom of the swing device. The control unit is electrically connected to the electromagnetic driving units for controlling the electromagnetic driving units to be alternately activated and deactivated, so as to generate an intermittent magnetic force to drive swinging movement of the swing device. The swing device including the drive mechanism is also disclosed.

An infant care apparatus includes a base. A drive mechanism and a vibratory mechanism are coupled to the base. A movable stage is movably mounted to the base. An infant support is coupled to the movable stage. The drive mechanism imparts a first cyclic motion to the movable stage, and imparts a second cyclic motion to at least part of the movable stage independent of the first cyclic motion and to the vibratory mechanism so that the vibration motor vibrates the movable stage. The infant support is coupled to the movable stage and moves cyclically in both the first and second cyclic motions. The controller is configured to move the infant support in a selectably variable motion profile with selectable vibration modes selected from different selectably variable motion profiles and selectably different vibration modes for each of the different selectable variable motion profiles.

An intrauterine simulation system may comprise a motion-control system and/or a maternal heartbeat simulator. The motion-control system may be configured to move a platform supporting an infant in a pattern characteristic of the movement of a woman in a late stage of pregnancy, thereby simulating movement experienced by a fetus in the intrauterine environment. The maternal heartbeat simulator may be configured to produce low-frequency sound waves and/or vibrations and to transmit the sound waves and/or vibrations via the platform to the infant's body. This simulates the vibrations created by the mother's heart as experienced by a fetus. The platform supporting the infant may be incorporated into a bassinet, cradle, mattress, and/or other suitable device. A system controller may be configured to gradually reduce aspects of the simulation, such as the intensity of the sound waves and/or vibrations or extent of the movement, thereby transitioning an infant to the extrauterine environment.