A variable vehicle ride switch in accordance with present embodiments includes a base configured to rotate with respect to a ride surface. The variable vehicle ride switch also includes a conveyor positioned on the base that can actuate relative to the base to move a ride vehicle towards or away from an outer edge of the base and to change an angle or orientation of the at least one conveyor within the base, e.g., to rotate within the base. The variable vehicle ride switch also includes a controller configured to receive an activation signal to cause the base to rotate and to actuate the conveyor.

The present disclosure provides for an infant swing simulating a human form preferably comprising an animated body including an upper body portion simulating a human trunk, arms, shoulders, neck and head portions as well as a lower body portion. A frontally worn infant carrier is preferably connected to the shoulders and waist of the animated body. The lower body portion is operatively connected to a base having a motor to pivot the body in an oscillatory manner. The head portion preferably includes a 3D-printed interchangeable face mask resembling a caretaker of the infant. In a preferred embodiment, the animated body includes a sound recorder, speaker, vibrating motor, and heating elements disposed therein for soothing and comforting an infant.

A swing chair includes: a support which is installed at a certain height or more above the floor; a main operation member elongated and having a virtual first rotation axis provided to the support at one side thereof and rotatably coupled to the support; a sub operation member elongated and having a virtual second rotation axis, provided to the support at one side thereof and spaced parallel to the first rotation axis, and rotatably coupled to the support; a seat portion coupled to any one of the main operation member and the sub operation member; and a rotation connecting member elongated and arranged in a front-rear direction and having a rear portion that is rotatably coupled to the other side of the main operation member and a front portion that is rotatably coupled to the other side of the sub operation member.

An improved infant support structure is disclosed herein. The swing contains a frame, a motor compartment, a hanger arm, and a seat. The frame is configured to suspend the motor compartment, the hanger arm, and the seat above the support surface. The hanger arm extends downwardly from the motor compartment, and is capable of a first type of motion and a second type of motion. The first type of motion may cause the hanger arm and seat to rotate about a vertical axis. The second type of motion may cause the hanger arm and seat to sway or swing along a substantially circular curvilinear arc within a horizontal plane. The motor compartment may cause the hanger arm and seat to simultaneously perform the first and second types of motion.

A child motion device including a support frame, a frame hub coupled to the support frame, a gliding swing mechanism pivotally mounted to the frame hub, and a cantilevered child support portion pivotally mounted to the gliding swing mechanism. In example embodiments, the child support portion can be in the form of a child seat or a bassinet. In example embodiments, the child support portion can be oriented between multiple seat-facing orientations for providing either of a side-to-side gliding movement or a front-to-back gliding movement.

The amusement ride for children has an open frame and a swinging passenger carriage suspended from a crossbar carried by two trolleys mounted in parallel tracks on the roof of the open frame. The passenger carriage has an upper platform rotatably mounted on a base platform, rotation of the upper platform being controlled manually by the passenger through rotation of a wheel mounted on a column having an end journaled into a bearing mounted in the base platform. A reversible motor is mounted on the roof frame, the shaft of the motor being connected to the crossbar by a crank and connecting rod to control translational movement of the trolleys, causing the passenger carriage to swing forward and backward. The combination of translational movement and swinging movement of the carriage with rotational movement of the upper platform provides a uniquely thrilling sensation for a child seated on the passenger carriage.

The amusement ride for children has an open frame and a swinging passenger carriage suspended from a crossbar carried by two trolleys mounted in parallel tracks on the roof of the open frame. The passenger carriage has an upper platform rotatably mounted on a base platform, rotation of the upper platform being controlled manually by the passenger through rotation of a wheel mounted on a column having an end journaled into a bearing mounted in the base platform. A reversible motor is mounted on the roof frame, the shaft of the motor being connected to the crossbar by a crank and connecting rod to control translational movement of the trolleys, causing the passenger carriage to swing forward and backward. The combination of translational movement and swinging movement of the carriage with rotational movement of the upper platform provides a uniquely thrilling sensation for a child seated on the passenger carriage.

A motion apparatus for use in combination with a standard infant carrier, such as a car seat. The motion apparatus comprises a support structure and a frame for receiving the transportable base of an infant car seat, and a drive assembly, which, when activated causes motion of the infant carrier. Methods and devices of the invention are useful to soothe an infant.

Various embodiments of the present invention are directed to a powered children's swing. In various embodiments, the swing includes a seat, swing frame, one or more swing arms, a first magnetic component, second magnetic component, swing motion sensor, and swing control circuit. The magnetic components are configured to generate a magnetic force that drives the seat along a swing path. The swing control circuit is configured to control the magnetic components based at least on input from the swing motion sensor and generate control signals causing the seat to swing with substantially constant amplitude as specified by a user.

Various embodiments of the present invention are directed to a powered children's swing. In various embodiments, the swing includes a seat, swing frame, one or more swing arms, a first magnetic component, second magnetic component, swing motion sensor, and swing control circuit. The magnetic components are configured to generate a magnetic force that drives the seat along a swing path. The swing control circuit is configured to control the magnetic components based at least on input from the swing motion sensor and generate control signals causing the seat to swing with substantially constant amplitude as specified by a user.