An input device provides an improved feeling of operation to a user and allows the user to recognize an operation of a handle by providing haptic feedback by limiting a direction of movement of the handle of the input device provided in a vehicle according to a control item, applying a reaction force to the handle, or generating a vibration. The input device includes the handle that is movable in a first direction and a second direction and a motor that is configured to generate force related to a movement of the handle. A driver is configured to operate the motor. A controller operates the driver to limit a moving direction of the handle to the first direction or the second direction according to a control item controlled by the movement of the handle.

A finger pointing joystick with magnetic induction is provided. The finger pointing joystick with magnetic induction includes a main housing having a bottom case and an upper cover; a support frame having a fixed end fixedly to an end of the bottom case; a movable sphere disposed on a receiving ring; a joystick body fixed on the movable sphere; an elastic piston piece having a connecting rod inserted through a piston groove, an elastic disc fixed below the connecting rod, a return spring fixed between the movable sphere and the elastic disc, and a magnet correspondingly fixed to the elastic disk; and a magnetic induction element disposed below the magnet.

An operation device includes a lever, a holder rotatably supporting the lever, a rotation restriction mechanism restricting a rotation range of the lever to the rotation range including a forward movement operation range, a backward movement operation range, and a neutral position, and a lever holding mechanism holding the lever at the neutral position. The lever includes a base portion rotatable supported by the holder, and an operation portion being movably connected to the base portion with respect to the base portion in an extending direction of the operation portion. The lever holding mechanism holds the lever at the neutral position so as not to be rotatable when the operation portion moves toward one side in the extending direction, and brings the lever into a rotatable state from the neutral position when the operation portion moves toward the other side in the extending direction.

The present disclosure relates generally to control systems, and in particular apparatus, methods, and systems for controlling flights remotely or onboard the vehicle. More specifically, the present disclosure describes embodiments of a control system that allows a user to control the motion of a target in or along one or more degrees of freedom using a single controller. The control system described herein also include mechanisms that permit the conversion of user intent into discrete 3-D motions with tactile feedback relative to the null command.

A pointing device includes: a substrate; an operation member that is provided tiltably with respect to the substrate, and includes a protrusion protruded from one of an inner wall and an outer wall; and a rotation member that is provided rotatably on the substrate, and includes a hole which the protrusion enters when the rotation member overlaps the operation member; wherein the rotation member rotates in conjunction with the operation member when the protrusion contacts an edge of the hole according to rotation of the operation member, wherein the hole is formed in a range in which the protrusion is movable by tilt of the operation member.

An input device, such as a joystick, has an operating device, a magnetorheological brake device, and a controller for activating the brake device. An operating lever is disposed on a supporting structure for pivoting around at least one pivot axis. The brake device is coupled with the pivot axis for controlled damping of a pivoting motion of the operating lever. The brake device has a rotary damper with two components, namely, an inside component and an outside component. The outside component radially surrounds the inside component and a damping gap is formed in between that is filled with a magnetorheological medium. The damping gap can be exposed to a magnetic field to damp a pivoting motion between the two contrapivoting components about an axis. One of the components has radial arms equipped with an electric coil whose winding extends adjacent to and spaced apart from the axis.

A control device for a human-machine interface includes a base and a moveable member in the form of a lever or a push element, which can be moved relative to the base. The control device further includes at least one electroactive element positioned between the moveable member and a fixed element of the base.

The invention relates to a force application device for a control stick of an aircraft, said control stick comprising a control lever that is connected to at least one motor comprising a drive shaft that can be rotated about an axis, the force application device comprising: a first pin connected to the shaft, a housing, an electromagnet, a movable actuator comprising a magnetic material, a coupling device comprising an input gear connected to the housing and an output gear comprising a second pin, and means for clamping the first pin and the second pin which comprise a first tooth and a second tooth, said device having an operating configuration in which the electromagnet is active and the output gear is positioned at a distance from the input gear, and a blocking configuration in which the electromagnet is inactive and the gears are meshed.

A joystick for controlling a machine in multi-axes includes: a handle assembly allowed to rotate around a central axis extending along a longitudinal direction of the joystick, comprising a button body in which an upper circuit board having an upper sensor is provided; a control assembly having a lower body in which a lower circuit with an lower sensor is provided; and a control lever partly introduced to the handle assembly and mounted on a pivotal member for pivotal movement relative to the lower body. The control lever is at least partly made of plastic in an injection-molding operation and has an overmolded lower magnet provided in the proximity of the lower circuit of the a control portion, wherein the control lever has a further upper magnet provided in the proximity of the upper circuit of the handle assembly.

In order to further improve a control device for controlling unmanned and/or manned and/or virtual airborne objects in such a way that the control is easier to use and can be learned intuitively and more quickly even by untrained individuals, the control device has a first control element for controlling a movement about a vertical axis, a longitudinal axis and a transverse axis of the airborne object, a rotary movement and/or pivoting movement of the first control element about its vertical axis, its longitudinal axis and its transverse axis causing the airborne object to move about its vertical axis, longitudinal axis and transverse axis, and the control device also has a second control element for changing the flying altitude and/or a speed and/or a thrust of the airborne object.