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.

Disclosed is a multi-tactile fusion feedback handle, characterized in that the handle comprises three areas, namely, a finger tactile function area, a palm tactile function area and a space positioning function area. The finger tactile function area comprises one or more tactile buttons, a finger can operate the tactile buttons alone or in combination, and the tactile buttons have feedback functions for one or more kinds of tactility, namely, softness, temperature, surface friction and texture, and shape. The palm tactile function area comprises a multi-point independent vibration source and/or a multi-point independent heat source, which can be used for multi-point independent vibration feedback and/or multi-point independent temperature feedback, as well as vibration flow and heat flow feedback. The space positioning function area comprises a space positioning module, which can obtain position information of the handle in space in real time. Compared with a traditional various discrete-type tactile feedback apparatus, the present invention gives a user a complete and realistic composite tactile experience in a virtual scene, and the handle is feasible in integration and convenient for holding.

The invention relates to a force application device for a control stick of an aircraft, said stick comprising a control lever that is connected to a motor comprising a drive shaft, said device having: a first pin connected to the drive shaft, a housing, a second pin secured to the housing, an electromagnet secured in relation to the housing, a movable actuator which comprises a magnetic material such that said actuator can be displaced depending on a supply of current of the electromagnet, 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 actuator separates the teeth away from the first pin and the second pin, and a blocking configuration in which the electromagnet is inactive, with the first tooth and the second tooth coming into contact with the first pin and the second pin.

A handle assembly for an armrest control console of a steering system of a work vehicle. The handle assembly includes a base member, a hand-receiving member, and an electro-mechanical connection located in between the base member and the hand-receiving member. The electro-mechanical connection detachably connects the hand-receiving member to the base member such that the hand-receiving member is rigidly supported by and electrically coupled with the base member. The electro-mechanical connection is located exterior to the armrest control console.

A lever type integrated control unit of a vehicle, may include a lever housing pivotally displaced in a width direction of a vehicle, an acceleration unit located at one end portion of the lever housing and configured to transmit acceleration information related to the vehicle, and an acceleration controller connected to the acceleration unit and configured to receive the acceleration information related to the vehicle from the acceleration unit.

A joystick with a first casing that has a piece of a sensor/effector pair. A second section is attached to the first casing, where at least one of the first and second casings form a void within the first and second casings. A puck with a cylindrical shape is disposed within the void, where the puck has a piece of the sensor/effector pair. A shaft is connected to the puck, with a distal end free to move, thereby rotating the puck. The shaft passes through a void between the first and second casings, and as the shaft is moved and the puck rotates, an interaction between the pieces of the sensor/effector pair produces a signal indicating a degree of movement of the shaft.

A controller is capable of controlling an asset or target in physical and/or virtual three-dimensional space using a single hand by generating control inputs in four or more degrees of freedom while also limiting cross-coupling (unintended motions). The controller includes a first control member is configured to be gripped in a user's single, second control member is disposed on or near a top end of the first member movable with at least one degree of freedom independently of the movement of the first control member, and a third control member positioned on the first member for displacement by one or more digits of the user's single hand and coupled with the second member to move in opposition to movement of the second control member.

An input device for performing control functions of a machine having a work tool may include a left-hand joystick mounted on a left armrest of an operator's seat, and a right-hand joystick mounted on a right armrest of an operator's seat. Each of the left-hand and right-hand joysticks may include a base portion configured to conform to and least partially cradle an operator's hand, a handle extending from the base portion with a proximal end of the handle being connected to the base portion, and a distal end of the handle supporting a head portion of the joystick. The head portion of the joystick may include a front surface including a configurable face plate. The configurable face plate may include one of a pair of upshift and downshift buttons or a roller configured to perform one of discrete or continuously variable shifting, respectively, of a transmission of the machine. The handle may include a thumb rest area at the distal end of the handle transitioning into the head portion of the joystick.

A joystick for performing control functions of a machine having a work tool may include a base portion configured to at least partially support an operator's hand, and a handle extending from the base portion. The base portion may be configured for connection to a control interface surface in a machine cabin or on a remote control console or a remote operator's station for the machine. The handle may extend from the base portion with a proximal end of the handle being connected to the base portion, and a distal end of the handle supporting a head portion of the joystick. The head portion of the joystick may include a back surface that is contiguous with a back surface of the handle, and a front surface including a face plate tilted at an angle of 10 degrees plus or minus 5 degrees in a direction toward a position of the operator sitting in an operator's seat of the machine with respect to a plane parallel to the back surface.

Devices for controlling movement of aerial buckets via hydraulic systems. Each hydraulic system has valves that control movement of the aerial bucket. A control head of the device has a joystick that is moveable and encoders that detect movement of the joystick. A valve actuator manifold of the device is coupled between the control head and the hydraulic system and supports valve actuators moveably coupled to the valves. Servo drive systems supported by the valve actuator manifold are coupled to the valve actuators and are controllable to move the valve actuators. A processor module of the device is in communication with the encoders and the servo drive systems. The processor module controls the servo drive systems based on input from the encoders such that moving the joystick controls movement of the aerial bucket.