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.

Systems and methods define a stimulation pattern for a juvenile product utilizing a mobile device that executes a mobile application that is linked to the juvenile product. The method comprises the step of recognizing, by the mobile device when executing the mobile app, the user-defined stimulation pattern for the juvenile product. The stimulation pattern can be a vibration pattern or a motion pattern, and can be detected in a number of different ways by the mobile device. The method further comprises the step of determining control signals for the actuator(s) of the juvenile product based on the user-defined stimulation pattern that is recognized by the mobile device. The method further comprises the step of, in response to receiving a command to execute the user-defined stimulation pattern, controlling the actuator(s) of the juvenile product based on the stored control signals for the user-defined stimulation pattern.

Systems and methods define a stimulation pattern for a juvenile product utilizing a mobile device that executes a mobile application that is linked to the juvenile product. The method comprises the step of recognizing, by the mobile device when executing the mobile app, the user-defined stimulation pattern for the juvenile product. The stimulation pattern can be a vibration pattern or a motion pattern, and can be detected in a number of different ways by the mobile device. The method further comprises the step of determining control signals for the actuator(s) of the juvenile product based on the user-defined stimulation pattern that is recognized by the mobile device. The method further comprises the step of, in response to receiving a command to execute the user-defined stimulation pattern, controlling the actuator(s) of the juvenile product based on the stored control signals for the user-defined stimulation pattern.

The invention provides a baby bouncing chair, comprising a table, a seat unit, a plurality of chair leg units, a bouncing disc module, a plurality of supporting band units, a first cover plate, a bounce-control module and a limiting fastening piece. Each of the plurality of supporting band units is provided with a limiting rod. The bounce-control module is provided with a plurality of stop blocks. The bounce-control module controls movements of the limiting rods and the plurality of supporting band units in the bouncing disc module by the stop blocks to control the baby bouncing chair to be in a bouncing state or a non-bouncing state.

A detachable baby bouncer is provided, including a U-shaped connecting tube having two connecting ends; a left support foot including a first connecting rod and a first support rod, the first connecting rod detachably connected to one connecting end; a right support foot including a second connecting rod and a second support rod, the second connecting rod detachably connected to the other connecting end; two connecting bases, one detachably connected to the first support rod, the other detachably connected to the second support rod; a U-shaped backrest tube including two first bent tubes and a connecting sleeve, one end of the first bent tube detachably connected to the connecting sleeve, the other end detachably connected to the connecting base. The technical solution of the present disclosure is intended to provide a detachable baby bouncer with a reduced packaging volume, a reduced packaging cost, and an increased container loading quantity.

The present invention provides an improved structure for a children bounce chair, comprising a base module, two telescopic support assemblies, a plurality of bounce assemblies and a table and chair module, wherein the telescopic support assemblies are assembled on the base module, one end of the bounce assemblies is respectively assembled on the corresponding telescopic support module, and the other end of the bounce assembly is respectively assembled on the table and chair module, so that the children bounce chair can be easily assembled, used or disassembled and stowed.

A baby care device is disclosed, which comprises a base and a seat holder, wherein the base is connected to a base cover, a plane arc motion mechanism is arranged between the base cover and the base, and an output end of the plane arc motion mechanism is connected to a vertical lifting motion mechanism; a bottom end of the seat holder is connected to an output end of the vertical lifting motion mechanism, and a top end of the seat holder penetrates through the base cover to be connected to a rocking chair frame device; and the plane arc motion mechanism and the vertical lifting motion mechanism work to drive the rocking chair frame device to make three-dimensional combined movements.

A baby care device is disclosed, which comprises a base and a seat holder, wherein the base is connected to a base cover, a plane arc motion mechanism is arranged between the base cover and the base, and an output end of the plane arc motion mechanism is connected to a vertical lifting motion mechanism; a bottom end of the seat holder is connected to an output end of the vertical lifting motion mechanism, and a top end of the seat holder penetrates through the base cover to be connected to a rocking chair frame device; and the plane arc motion mechanism and the vertical lifting motion mechanism work to drive the rocking chair frame device to make three-dimensional combined movements.

A swing apparatus includes an arm assembly including a seat, and a frame assembly coupled to the arm assembly. The frame assembly defines a pivot axis about which the arm assembly rotates during operation of the swing apparatus. The swing apparatus also includes an electromagnet disposed on the frame assembly, and a plurality of permanent magnets disposed on the arm assembly and positioned to define an arc centered on the pivot axis. The electromagnet has an angular offset about the pivot axis relative to the plurality of permanent magnets positioned along the arc when the swing apparatus is in a neutral position.

An active sitting chair is provided that encourages a sitter/user to sit actively by requiring balance adjustments and core engagement. The active sitting chair can be efficiently produced while being relatively sturdy and lightweight. The main body may be a monocoque shell that includes a rounded lower portion that contacts the surface the chair is on and promotes wobble of the chair when a sitter is seated on the chair. The chair may also include built-in handles for ease of lifting and a seat portion at the top of the chair that may include a cushion or similar component for increasing the stability and/or comfort of a sitter.