An interlocking system for a joystick in a catheter procedure system includes a joystick configured to generate a first voltage output signal based on a linear activation of the joystick and a second voltage output signal based on a rotational activation of the joystick. A joystick cover is disposed over the joystick and includes an upper portion having an electrode plating on an inner surface of the upper portion and a lower portion having an inner surface. A capacitive touch detection circuit is coupled to the electrode plating of the upper portion of the joystick cover and is mounted on the inner surface of the lower portion of the joystick cover. The capacitive touch detection circuit is configured to detect a proximal change in capacitance in the electrode plating of the upper portion of the joystick cover and to generate a touch output signal to indicate whether a change in capacitance has been detected. A signal enable circuit is coupled to the joystick and the capacitive touch detection circuit and is configured to generate a linear enable voltage output signal and a rotational enable voltage output signal based on whether a change in capacitance has been detected.

A control system for hazardous environments decreases flame paths, decreases punctures to the control system when installing interfaces, and increases safety. The control system may be characterized as a one size fits all controller that is able to automatically recognize a plurality of user interfaces. The controller has an enclosure to which the interfaces can be attached. The interfaces may interact with control electronics wholly contained in the enclosure using a variety of wireless mechanisms. Such mechanisms include reflecting light waves, infrared (IR) communication, radio-frequency identification, inductive coils, short-range wireless communication, camera images, piezoelectricity, and magnetism, and the like. The interfaces may include switches, indicator lights, smoke detectors, and the like.

A game joystick switch assembly, includes a base, defining positioning holes; a joystick base movably mounted on the base; a joystick located on the joystick base; a first coupled member defining a slit aperture; a second coupled member arranged in an orthogonal direction relative to the first coupled member, and defining an elongated groove; a housing, defining a first through opening, positioning columns formed on the housing; a first electronic component; a second electronic component; and a metal fixing bracket including a main body, a second through opening in accordance with the first through opening for the joystick to stick out, four pins and side pins, and a containing space; wherein the housing and the base are received in the containing space, the housing and the base are positioned and combined by the positioning columns and the positioning holes.

An input device includes: an operation component that tilts in a first direction in response to a user operation; an expansion component that tilts in the first direction relative to the operation component, in conjunction with tilting of the operation component; a magnet supported by the expansion component; a sensor board that is disposed to face the magnet, and detects a tilting movement made by the operation component; a detent pin supported by the expansion component in a retractable manner; and an energizing component that energizes the detent pin toward a detent surface to press a tip of the detent pin against the detent surface. With respect to a tilt amount of the operation component, the expansion component increases a movement amount of the magnet and a movement amount of the tip of the detent pin in a direction parallel to the detent surface.

A multidirectional input device is capable of performing a tilting operation and a pressing operation. The device includes a strain inducing body that includes a cylindrical portion and one or more deformable portions provided on an outer side of the cylindrical portion, a plunger provided inside of the cylindrical portion of the strain inducing body, a strain detecting element provided at the deformable portion of the strain inducing body, a substrate provided on a bottom portion of the cylindrical portion of the strain inducing body, and an elastic member provided between the substrate and a bottom portion of the plunger. The strain inducing body is fixed to a device main body at an outer end portion of the deformable portion. The substrate is fixed to the strain inducing body.

A joystick sensor includes a housing, a reset assembly, a rocker assembly, a circuit assembly, the reset assembly, the rocker assembly and the circuit assembly are mounted on the housing; the rocker assembly includes two magnets, an upper rocker arm, a lower rocker arm, and a rocker body, one end of the upper rocker connected with one of the two magnets; one end of the rocker arm is connected with the other one of the two magnets, the other end of the lower rocker arm is secured a pressing block; the circuit assembly includes a flexible circuit board, two Hall IC elements, and a switch spring, the two Hall IC elements and the switch spring are arranged on the flexible circuit board, positions of the Hall IC elements respective correspond to positions of the magnets; a position of the switch spring corresponds to a position of the pressing block.

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 control system for hazardous environments decreases flame paths, decreases punctures to the control system when installing interfaces, and increases safety. The control system may be characterized as a one size fits all controller that is able to automatically recognize a plurality of user interfaces. The controller has an enclosure to which the interfaces can be attached. The interfaces may interact with control electronics wholly contained in the enclosure using a variety of wireless mechanisms. Such mechanisms include reflecting light waves, infrared (IR) communication, radio-frequency identification, inductive coils, short-range wireless communication, camera images, piezoelectricity, and magnetism, and the like. The interfaces may include switches, indicator lights, smoke detectors, and the like.

Provided is a multi-operating switch unit for vehicles including: a housing part; a substrate; a switch shaft part; a rotary switch part; a directional switch part; and a push switch part. The directional switch part has: a directional slide part in which the position thereof can vary in the housing part due to a tilting directional operation of the switch shaft part; a directional switch that is arranged on the substrate and is operated due to the positional variation of the directional slide part; and a directional return part that returns the directional slide part and the switch shaft part. The directional return part has a return plunger; a return elastic part; and a return groove. The return plunger can be movable in the axial length direction of the switch shaft part with respect to the housing part, and the return groove is formed in the directional slide part.

A multidirectional input device is capable of performing a tilting operation and a pressing operation. The device includes a strain inducing body that includes a cylindrical portion and one or more deformable portions provided on an outer side of the cylindrical portion, a plunger provided inside of the cylindrical portion of the strain inducing body, a strain detecting element provided at the deformable portion of the strain inducing body, a substrate provided on a bottom portion of the cylindrical portion of the strain inducing body, and an elastic member provided between the substrate and a bottom portion of the plunger. The strain inducing body is fixed to a device main body at an outer end portion of the deformable portion. The substrate is fixed to the strain inducing body.