An electronic device and a knob module thereof are provided. The knob module includes a circuit board, a rotary encoder, a light guide structure, a plurality of light emitting units, and a rotation cover. The rotary encoder is disposed on the circuit board. The light guide structure is disposed on the circuit board. The light guide structure includes a light guide ring and an annular light guide wall. The light guide ring surrounds the rotary encoder. The annular light guide wall extends downward from the light guide ring to abut against the circuit board. The plurality of light emitting units is disposed on the circuit board and located between the annular light guide wall and the rotary encoder for emitting light toward the annular light guide wall. The rotation cover is disposed on the rotary encoder.

An input device is provided, which includes an operation shaft and a case configured to house the operation shaft such that a tilting operation to tilt an axial direction of the operation shaft to a desired direction can be performed. A coil constituting a resonant circuit for performing signal interaction through electromagnetic induction coupling with a position detection sensor is housed in the operation shaft, such that a direction of magnetic flux penetrating the coil is in the axial direction of the operation shaft. The operation shaft can be tilted to a desired direction within the case, with a predetermined position between a first end side and a second end side of the operation shaft in the axial direction of the operation shaft serving as a rotation center, so that a direction of tilt of the operation shaft and a magnitude of an angle of the tilt are detected.

An input device is provided, which includes an operation shaft and a case configured to house the operation shaft such that a tilting operation to tilt an axial direction of the operation shaft to a desired direction can be performed. A coil constituting a resonant circuit for performing signal interaction through electromagnetic induction coupling with a position detection sensor is housed in the operation shaft, such that a direction of magnetic flux penetrating the coil is in the axial direction of the operation shaft. The operation shaft can be tilted to a desired direction within the case, with a predetermined position between a first end side and a second end side of the operation shaft in the axial direction of the operation shaft serving as a rotation center, so that a direction of tilt of the operation shaft and a magnitude of an angle of the tilt are detected.

A device having push button switches for operating a power seat of a vehicle, includes a switch module in which a plurality of push button type switches for an input operation to drive a power seat to a target position and in a target direction are modularized; a plurality of touch sensors embedded in the plurality of push button type switches and configured to indicate operating directions of the power seat; a main controller configured to determine an operating direction of the power seat according to a sensing signal from a touch sensor in which a touch sensing operation is performed among the plurality of touch sensors; and a display configured to display the operating direction of the power seat determined by the main controller as one arrow and visually guide a user.

A switch unit includes a switch body and a switch base. The switch body is subjected to a pull-up operation from a normal position to an operated position. The switch base supports the switch body such that the switch body is pivotable about an axis parallel to a first direction extending. The switch body includes an aesthetic wall disposed to extend along an opening, and an operation wall extending toward an inner side relative to the aesthetic surface from one side at an outer edge of the aesthetic wall, the one side extending in the first direction. The operation wall is located inward of an arc centered on the axis, the arc passing through the one side extending in the first direction. A shielding wall intersecting the first direction is provided at at least one of both side edges of the operation wall in the first direction.

A controlling device has a moveable touch sensitive panel positioned above a plurality of switches. When the controlling device senses an activation of at least one of the plurality of switches when caused by a movement of the touch sensitive panel resulting from an input at an input location upon the touch sensitive surface, the controlling device responds by transmitting a signal to an appliance wherein the signal is reflective of the input location upon the touch sensitive surface.

A controlling device has a moveable touch sensitive panel positioned above a plurality of switches. When the controlling device senses an activation of at least one of the plurality of switches when caused by a movement of the touch sensitive panel resulting from an input at an input location upon the touch sensitive surface, the controlling device responds by transmitting a signal to an appliance wherein the signal is reflective of the input location upon the touch sensitive surface.

The present disclosure relates to a controlling system console and a controlling system. In the console, a central control component is connected to an electric hoist control device via network, enhancing transmission speed and stability of signals. The console can send a combination action control signal through a combination action control component, such that the central control component creates a combination action control instruction and sends the combination action control instruction to the electric hoist control cabinet to make the electric hoist perform combination actions. The console can further send a collaboration action control signal through a collaboration action control component, such that the central control component creates a collaboration action control instruction and sends the collaboration action control instruction to the electric hoist control cabinet to make the electric hoist to act in collaboration with other arena devices.

An input device is configured to provide input to various electronic devices. The input device includes: a manipulation unit; a substrate; a tilting mechanism; and a detector. The manipulation unit includes a handle which is rotatable around a rotation axis and is pressed along the rotation axis, and outputs a first signal corresponding to rotation of the handle and a second signal corresponding to pressing of the handle. The tilting mechanism includes a cylindrical shaft fixed to the substrate, and a bearing fixed to the body, wherein the shaft is perpendicular to the rotation axis, and the tilting mechanism allows the substrate to swing around the shaft between a first manipulation position and a second manipulation position. The detector is disposed on the surface of the substrate facing the body, and outputs a third signal when the substrate is in the second manipulation position.

An input device is configured to provide input to various electronic devices. The input device includes: a manipulation unit; a substrate; a tilting mechanism; and a detector. The manipulation unit includes a handle which is rotatable around a rotation axis and is pressed along the rotation axis, and outputs a first signal corresponding to rotation of the handle and a second signal corresponding to pressing of the handle. The tilting mechanism includes a cylindrical shaft fixed to the substrate, and a bearing fixed to the body, wherein the shaft is perpendicular to the rotation axis, and the tilting mechanism allows the substrate to swing around the shaft between a first manipulation position and a second manipulation position. The detector is disposed on the surface of the substrate facing the body, and outputs a third signal when the substrate is in the second manipulation position.