A toy apparatus is operable between a disengaged position and a disengaged position. The toy apparatus has a stuffed body having a torso portion and first, second, third and fourth leg portions. A first bi-stable spring member is received within a channel formed along a length of the first leg portion, a first side of the torso portion and a second leg portion. A second bi-stable spring member is received within a second channel formed along a length of the third leg portion, a second side of the torso portion and a fourth leg portion. The first and second bi-stable spring members are each operable between an elongated rigid state and a coiled state. Actuating between the states of the first and second bi-stable spring members changes a shape of the stuffed body of the toy apparatus.

A toy apparatus is operable between a disengaged position and a disengaged position. The toy apparatus has a stuffed body having a torso portion and first, second, third and fourth leg portions. A first bi-stable spring member is received within a channel formed along a length of the first leg portion, a first side of the torso portion and a second leg portion. A second bi-stable spring member is received within a second channel formed along a length of the third leg portion, a second side of the torso portion and a fourth leg portion. The first and second bi-stable spring members are each operable between an elongated rigid state and a coiled state. Actuating between the states of the first and second bi-stable spring members changes a shape of the stuffed body of the toy apparatus.

A toy includes a hollow soft plastic shell deformable by means of squeezing, first modeling piece configured on the hollow soft plastic shell and second modeling piece coupled pivotally to the first modeling piece; the hollow soft plastic shell has a top wall arched downward to form an accommodation concave chamber. The present invention is novel in structure, interesting, energetic and easy to be operated and controlled. In addition the toy of the present invention is easy to be produced and manufactured because of the simple structure thereof, very stable in use, and suitable for the promotion, production and application so as to meet entertainment, teaching, trick or other needs.

A toy includes a hollow soft plastic shell deformable by means of squeezing, first modeling piece configured on the hollow soft plastic shell and second modeling piece coupled pivotally to the first modeling piece; the hollow soft plastic shell has a top wall arched downward to form an accommodation concave chamber. The present invention is novel in structure, interesting, energetic and easy to be operated and controlled. In addition the toy of the present invention is easy to be produced and manufactured because of the simple structure thereof, very stable in use, and suitable for the promotion, production and application so as to meet entertainment, teaching, trick or other needs.

A toy construction set that enables modular toy elements to be interconnected into a chain assembly. Each toy element has a pivot hub that defines an empty first interior chamber. A first yoke arm is coupled to the pivot hub that defines an empty second interior chamber. A second yoke arm is coupled to the pivot hub that defines an empty third interior chamber. The first interior chamber, the second interior chamber and the third interior chamber intersect form an internal resonance chamber. Formations are present on first yoke arm, the second yoke arm, and the pivot hub. The formations intermesh and enable different modular toy elements to snap together. The formations also generate noise as two interconnected toy elements are moved in relation to one another. The noise that is generated is enhanced by the resonance chambers within the toy elements that create the noise.

A toy construction set that enables modular toy elements to be interconnected into a chain assembly. Each toy element has a pivot hub that defines an empty first interior chamber. A first yoke arm is coupled to the pivot hub that defines an empty second interior chamber. A second yoke arm is coupled to the pivot hub that defines an empty third interior chamber. The first interior chamber, the second interior chamber and the third interior chamber intersect form an internal resonance chamber. Formations are present on first yoke arm, the second yoke arm, and the pivot hub. The formations intermesh and enable different modular toy elements to snap together. The formations also generate noise as two interconnected toy elements are moved in relation to one another. The noise that is generated is enhanced by the resonance chambers within the toy elements that create the noise.

A mechanical spinning toy provides a rectangular body, with a cylindrical handle protruding perpendicularly from the center of each long side. The handles provide an axis of rotation for a swing, with two arms extending down the long sides of the body and terminating in a plate with a narrow clearance from the end of the body. The swing rotates easily around the axis of the handles in a 360 arc. An aperture extends longitudinally through the centerline of the body, containing a cylindrical stopper head. A simple mechanism causes the stopper head to protrude a short distance from one end of the body or the other, and may be retracted with a quick twist of the user's wrists or a quick press of the user's thumb. This enables the swing to continue rotating around the body.

An articulating toy figurine comprises a body, a member coupled to the body via a shaft and an actuator pivotally coupled to the member. The shaft may comprise opposing first and second ends disposed within the member and body, respectively. The first end may comprise a bevel gear. The actuator may be pivotally coupled to the member to drive a gear assembly disposed in an internal cavity of the member. The gear assembly may be operably coupled to the bevel gear of the shaft to rotate the body around a rotation axis defined by the shaft. The rotation axis defines an angle .sub.1 that is less than 90 degrees, preferably 30 degrees to 60 degrees, relative to an axis defined by the member. The actuator may be movable from a first position to a second position to cause the body to rotate 360 degrees around the rotation axis.

An articulating toy figurine comprises a body, a member coupled to the body via a shaft and an actuator pivotally coupled to the member. The shaft may comprise opposing first and second ends disposed within the member and body, respectively. The first end may comprise a bevel gear. The actuator may be pivotally coupled to the member to drive a gear assembly disposed in an internal cavity of the member. The gear assembly may be operably coupled to the bevel gear of the shaft to rotate the body around a rotation axis defined by the shaft. The rotation axis defines an angle .sub.1 that is less than 90 degrees, preferably 30 degrees to 60 degrees, relative to an axis defined by the member. The actuator may be movable from a first position to a second position to cause the body to rotate 360 degrees around the rotation axis.

A figure system includes a drive unit and a figure. The drive unit includes a plurality of first actuators. The figure includes a plurality of joints. The joints have one or more axial joint mechanisms. Drive force derived from at least one of the first actuators is transmitted to corresponding at least one of the axial joint mechanisms through a wire. The drive unit includes, as the plurality of first actuators, a plurality of servomotors having respective drive shafts. The figure includes coupler members having respective bearing holes. The bearing holes are detachably coupled to the respective drive shafts of the servomotors, or configured to be detachably coupled to the respective drive shafts of the servomotors. The wire has a first end coupled to corresponding one of the axial joint mechanisms, and a second end coupled to corresponding one of the coupler members.