An input device includes: a rotating member that rotates about a predetermined rotation axis; and a mover that includes a protrusion protruding toward an inner peripheral surface of the rotating member and moves in a direction different from a rotation direction of the rotating member along with rotation of the rotating member. The protrusion protrudes toward an inner peripheral surface of the rotating member. The rotating member includes a first projection and a second projection that project from the inner peripheral surface toward the mover. The protrusion of the mover is inclined with respect to the predetermined rotation axis and disposed between the first projection and the second projection.

An input device includes an operating body that moves through an operation performed by an operator, a movable portion that slides in accordance with movement of the operating body, a lever including a first end portion that engages with the movable portion, a rotation center, a second end portion located on an opposite side of the rotation center from the first end portion, and a magnet provided on the second end portion, where the lever rotates in accordance with sliding of the movable portion, and a magnetic sensor disposed facing the magnet. A second length from the rotation center of the lever to the magnet is greater than a first length from the rotation center to the first end portion of the lever.

The present invention relates to the field of remote control technologies, and provides a remote control, including: a body, a first rocker device, a processor, and a signal transmission device. A first joystick component of the first rocker device may move in parallel relative to the body. The processor is connected to the first rocker device, and when the first joystick component moves in parallel relative to the body, the processor generates a remote control instruction, where the remote control instruction is used to control a movable object to move in a horizontal plane of the movable object. The signal transmission device is connected to the processor, and used to receive the remote control instruction generated by the processor, and send the remote control instruction to the movable object. In the remote control of the present invention, when the first joystick component moves in parallel relative to the body, the processor generates a remote control instruction, where the remote control instruction is used to control the movable object to move in a horizontal plane of the movable object, and the parallel moving direction of the first joystick component may be set to correspond to the moving direction of the movable object in the horizontal plane of the movable object, so that the operation of the remote control is intuitive and simple.

A remote control includes a body, a first rocker device, a second rocker device, a processor, and a signal transmission device. The first rocker device and the second rocker device are installed on the body. The processor connects to the first rocker device, the second rocker device, and the signal transmission device. The first rocker device includes a joystick component. The second rocker device includes a second joystick component. When the first joystick component moves in parallel relative to the body, the processor generates a remote control instruction used to control a movable object to move in a horizontal plane. When the second joystick component moves straightly relative to the body along a first direction or a second direction, the processor generates a remote control instruction used to control the movable object to move upward or move downward in a vertical direction of the movable object.

A user interface for an interactive device, the user interface comprising: an interactive surface formed by an array of displaceable surface members, the surface members having a resting position; an oscillatory signal generator configured to generate a oscillatory signal, the oscillatory signal generator being coupled to the surface members by a cable array which is configured to carry the oscillatory signal to the surface members, the surface members having a resting position with respect to the cable array; wherein the cable array is arranged such that movement of the surface members from the resting position adjusts the oscillatory signal producing a modified oscillatory signal and/or such that a modified oscillatory signal causes the surface members to move from the resting position; the user interface further comprising a signal converter which converts the modified oscillatory signal to and/or from an electrical signal of the interactive device.

A user interface for an interactive device, the user interface comprising: an interactive surface formed by an array of displaceable surface members, the surface members having a resting position; an oscillatory signal generator configured to generate a oscillatory signal, the oscillatory signal generator being coupled to the surface members by a cable array which is configured to carry the oscillatory signal to the surface members, the surface members having a resting position with respect to the cable array; wherein the cable array is arranged such that movement of the surface members from the resting position adjusts the oscillatory signal producing a modified oscillatory signal and/or such that a modified oscillatory signal causes the surface members to move from the resting position; the user interface further comprising a signal converter which converts the modified oscillatory signal to and/or from an electrical signal of the interactive device.

Disclosed is an operation pedal for a simulation device. The present invention comprises: a fixing shaft horizontally installed; a pedal main body mounted on the fixing shaft and rotatable in the forward and backward directions by an external force; a foothold mounted on the upper surface of the pedal main body and rotatable in the left and right directions by an external force; a forward and backward rotation sensing means for sensing a forward and rearward rotation of the pedal main body and transmitting a signal thereof; and a left and right rotation sensing means for sensing a left and right rotation of the foothold and transmitting a signal thereof. According to the present invention, a user can easily operate and control various action motions of a play object in a program by using both feet, such that more various motions or environments can be applied.

Control of a self-powered floor preparation machine is provided by an ergonomic controller having a guarded control stick which has various characteristics, including its pitch, roll, yaw and height, that may all be adjusted.

An integrated driving control device configured to integrally control acceleration, deceleration, shifting and steering of a vehicle, may include a knob unit, a rotating unit engaged to the knob unit and configured to control steering of a vehicle in a response to rotation of the knob unit, and a sliding unit engaged to the rotating unit and configured to control acceleration and deceleration of the vehicle in a response to sliding movement of the knob unit.

An integrated driving control device configured to integrally control acceleration, deceleration, shifting and steering of a vehicle, may include a knob unit, a rotating unit engaged to the knob unit and configured to control steering of a vehicle in a response to rotation of the knob unit, and a sliding unit engaged to the rotating unit and configured to control acceleration and deceleration of the vehicle in a response to sliding movement of the knob unit.