A toy gearbox comprising at least one gear shaft (1, 2) rotatably supported by a gear support construction and having at least one spline, and at least one gear wheel (21, 22, 23, 24) rotatably arranged on the gear shaft (1, 2), a first clutch member (50) being attached to the gear wheel (21, 22, 23, 24) and rotatably arranged on the gear shaft (1, 2) and a second clutch member comprising a driving ring (41, 42) being fixed against rotation about and slidably arranged on the gear shaft (1, 2) and comprising a guide member (45) and at least one claw clutch (46, 47) for selectively engaging or disengaging with the first clutch member (50) and thereby engaging or disengaging the gear wheel (21, 22, 23, 24) from rotating along with the gear shaft and where an axial cam (10) arranged on a gear shifter axle (11) being mounted in the gear support construction and having an axis of symmetry extending parallel with the gear shaft (1, 2), so that the guide member (45) on the axially slidable driving ring (41, 42) engages with the axial cam (10).

A toy gearbox comprising at least one gear shaft (1, 2) rotatably supported by a gear support construction and having at least one spline, and at least one gear wheel (21, 22, 23, 24) rotatably arranged on the gear shaft (1, 2), a first clutch member (50) being attached to the gear wheel (21, 22, 23, 24) and rotatably arranged on the gear shaft (1, 2) and a second clutch member comprising a driving ring (41, 42) being fixed against rotation about and slidably arranged on the gear shaft (1, 2) and comprising a guide member (45) and at least one claw clutch (46, 47) for selectively engaging or disengaging with the first clutch member (50) and thereby engaging or disengaging the gear wheel (21, 22, 23, 24) from rotating along with the gear shaft and where an axial cam (10) arranged on a gear shifter axle (11) being mounted in the gear support construction and having an axis of symmetry extending parallel with the gear shaft (1, 2), so that the guide member (45) on the axially slidable driving ring (41, 42) engages with the axial cam (10).

The disclosure herein relates to dolls and action figures that are capable of lifelike movement via a manual controller. In some embodiments, only the movement of the arms or legs is manually controlled. In another embodiment, the movement of both the arms and legs is manually controlled. In some embodiments, the actuator gearing system includes a clutch to help prevent the gears from stripping. In other embodiments, the controller is removable.

The disclosure herein relates to dolls and action figures that are capable of lifelike movement via a manual controller. In some embodiments, only the movement of the arms or legs is manually controlled. In another embodiment, the movement of both the arms and legs is manually controlled. In some embodiments, the actuator gearing system includes a clutch to help prevent the gears from stripping. In other embodiments, the controller is removable.

This invention generally relates to pull back toy cars. Specifically, this invention discloses mechanisms relating to uses of a gearbox contained inside an wheel assembly in order to create vibration sensitivity to enhance user experiences. More specifically, the unique feature of placing more than one gearbox in the wheel assembly offers the pull back toy car with more variety in terms of play style, including a wheel-like pull back toy car, a two-wheel pull back toy car with various levels of vibration set by a user. Further, this invention includes the user of a handle attached to a gearbox so that the location of the gearbox placed within the wheel assembly can be changed so that the level of vibration of the wheel assembly or the toy vehicle can also be adjusted freely by the user.

A rollable toy car of the present disclosure relates to the technical field of toys. The rollable toy car includes a car body device, a rolling device arranged on the car body device, and a transformation actuating device arranged on the car body device, wherein a transformation actuator actuates a first car body to rotate by means of a first gear set; the transformation actuator actuates a third car body to rotate by means of a third gear set; and a first rolling frame is driven to rotate by the first car body, and a third rolling frame is driven to rotate by the third car body, so that the first rolling frame, a second rolling frame and the third rolling frame are jointly enclosed into a rollable shape.

A rollable toy car of the present disclosure relates to the technical field of toys. The rollable toy car includes a car body device, a rolling device arranged on the car body device, and a transformation actuating device arranged on the car body device, wherein a transformation actuator actuates a first car body to rotate by means of a first gear set; the transformation actuator actuates a third car body to rotate by means of a third gear set; and a first rolling frame is driven to rotate by the first car body, and a third rolling frame is driven to rotate by the third car body, so that the first rolling frame, a second rolling frame and the third rolling frame are jointly enclosed into a rollable shape.

Disclosed is a toy device with a visual dislocation effect, which includes: a chassis; a wheel group, mounted on the chassis; a displacement driving motor group, mounted on the chassis and configured to drive the wheel group to move so as to drive the chassis to move and turn; a rotating driving motor, mounted on the chassis; a vehicle housing, covering above the chassis and separated from the chassis; and a transmission mechanism, connected to the rotating driving motor and the vehicle housing, wherein under the driving of the rotating driving motor, the transmission mechanism drives the vehicle housing to rotate relative to the chassis. According to the toy vehicle, the visual dislocation effect can be achieved; and the entertainment is greatly improved.

According to embodiments of the disclosed technology, systems and methods are provided for a mobile gateway I.T. system that is configured to receive a message from a source for transmission to a destination and multiple varying communication channels on which to transmit the message to the destination. The system may use a logic control library that is tightly coupled to the mobile gateway and the communication channels. The logic control library may be configured to select a first communication channel from the communication channels to route the message for transmission to the destination. The logic control library may be further configured to select a second communication channel from the communication channels to route the message for transmission to the destination in response to a period of time expiring without receiving a confirmation protocol from the destination via the first communication channel.

A handheld touch apparatus for providing a variety of tactile sensations to the fingers and thumb of a hand of a user. The touch apparatus includes a cubic body having an outer surface defined by a plurality of faces that are planar and orthogonal to one another and joined together by radiused edges that meet together to form rounded corners. The cubic body is sized for holding within the palm of the user's hand and for being supported, rotated and manipulated by the fingers and thumb of the same hand. The touch apparatus further includes tactile features extending from the faces of the cubic body and that are selectively movable relative to their associated faces. The tactile features are contained within the volume of an imaginary sphere defined by the rounded corners and isolated from the tactile features on adjacent faces by the radiused edges of the cubic body.