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 doll is in a configuration to simulate a pet. The doll has a mouth with an opening with upper, lower, front and side edges. The upper and lower edges are in a U-shaped configuration. A clasp has an upper component with upper teeth and a lower component with lower teeth. A clasp has upper and lower handles. The upper handle is formed as an extension of the upper component and the lower handle formed as an extension of the lower component. The handles are located in the doll and diverge to form an angle. The upper and lower components are essentially parallel while the system is at rest with the upper and lower teeth in contact. The clasp has a hinge. The hinge pivotally couples the upper and lower components. Coil springs urge the handles away from each other while urging the components and teeth toward each other.

A doll is in a configuration to simulate a pet. The doll has a mouth with an opening with upper, lower, front and side edges. The upper and lower edges are in a U-shaped configuration. A clasp has an upper component with upper teeth and a lower component with lower teeth. A clasp has upper and lower handles. The upper handle is formed as an extension of the upper component and the lower handle formed as an extension of the lower component. The handles are located in the doll and diverge to form an angle. The upper and lower components are essentially parallel while the system is at rest with the upper and lower teeth in contact. The clasp has a hinge. The hinge pivotally couples the upper and lower components. Coil springs urge the handles away from each other while urging the components and teeth toward each other.

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 toy figure is provided that incorporates a torso, rotatably mounted on a spine, a pelvis fixed to the spine separate from the torso, a movable leg mounted on the pelvis, and a movable arm movably mounted to the torso. A lever extending from the movable leg into the torso rotates the torso on the spine as a result of the motion of the leg. The movable arm, attached to the spine by a linkage, is moved as a result of the relative motion of the rotating torso and the spine. The linkage may be attached within the movable arm near the shoulder or near the elbow.

A toy figure is provided that incorporates a torso, rotatably mounted on a spine, a pelvis fixed to the spine separate from the torso, a movable leg mounted on the pelvis, and a movable arm movably mounted to the torso. A lever extending from the movable leg into the torso rotates the torso on the spine as a result of the motion of the leg. The movable arm, attached to the spine by a linkage, is moved as a result of the relative motion of the rotating torso and the spine. The linkage may be attached within the movable arm near the shoulder or near the elbow.

A toy head assembly with facial features that can be adjusted by touching the facial features with enough force to alter their shape and/or position. Within the toy head assembly is a head base that is surrounded, in part, by a face that is made of an elastomeric material. Facial features on the face are supported, in part, by posable elements that lay under the elastomeric material of the face. Each posable element extends from the interior head base at a different ball and socket joint. Each posable element also has a post that extends from the ball and socket joint. The post contacts the interior surface of the face, wherein movement of a post alters a point of contact between the post and the face within the contact area. Changes in the point of contact cause changes in the contours of the face. This alters the facial features.

A toy head assembly with facial features that can be adjusted by touching the facial features with enough force to alter their shape and/or position. Within the toy head assembly is a head base that is surrounded, in part, by a face that is made of an elastomeric material. Facial features on the face are supported, in part, by posable elements that lay under the elastomeric material of the face. Each posable element extends from the interior head base at a different ball and socket joint. Each posable element also has a post that extends from the ball and socket joint. The post contacts the interior surface of the face, wherein movement of a post alters a point of contact between the post and the face within the contact area. Changes in the point of contact cause changes in the contours of the face. This alters the facial features.