A hand controller that includes a control member mounted on a hand held base for commanding a remote vehicle or movement of a virtual object within a virtual environment includes an input device mounted for generating tilt commands for a sensor mounted on the remote vehicle or the virtual object, the input device being located on a front of the base and oriented to be displaced up and down to tilt the sensor or the virtual point of view when the base is held during operation.

A gimbal support that senses rotational displacement and provides haptic feedback in one, two or three dimensions of a manually-operated control member used to generate control inputs using a single hand while also limiting cross-coupling.

A multi-way input device includes a first interlocking member, a second interlocking member, a hollow frame within which the interlocking members are mounted, and an operating shaft inserted through both a slit of the first interlocking member and a slot of the second interlocking member. The device also includes first and second sensing components capable of being operated respectively through the first and second interlocking members when rotating by operation of the operating shaft, along with third sensing component capable of being operated through the second interlocking member when pivoting by operation of the operating shaft. The device also includes an articulation member that is rotatably supported by the hollow frame around an axis. The second interlocking member is supported by the articulation member to form a mobile unit that is rotatable. The second interlocking member is also pivotally mounted on the articulation member.

A modular control apparatus for actuating hydraulic valve systems includes an actuating section including a tilting control member and a plurality of control rods provided with a pusher, which interacts with the control member so as to translate the control rods in the longitudinal direction, a sensor section including a plurality of sensor members suitable to detect a movement in the longitudinal direction of said control rods and a blocking section comprising a blocking device that is capable of individually blocking in the longitudinal direction each of said control rods. The actuating section can be alternately connected to the blocking section or to the sensor section so that the sensor section can be directly connected to the actuating section, detecting the longitudinal movement of the control rods also if the blocking section is not present.

Disclosed is a multi-directional input device, including a pressing switch. Each of two opposite side surfaces of the pressing switch is provided with a first protrusion. The base includes two base side surfaces respectively opposite to the two opposite side surfaces of the pressing switch. Each of the two opposite base side surfaces is provided with a second protrusion respectively, and the second protrusion is engaged with the first protrusion to fix the pressing switch.

Disclosed are a multi-directional input device and a game machine. The multi-directional input device includes a first rocker arm and a second rocker arm, the first rocker arm and the second rocker arm are distributed in up-down direction, each of the first rocker arm and the second rocker arm includes a C-shaped part, a rotating shaft part is provided on opposite ends of the C-shaped part, the rotating shaft part is fixed by the cover, and a rotating axis is defined at both ends of the rotating shaft part; the first rocker arm and the second rocker arm rotate relative to the cover through their respective rotating shaft part; the operating part is penetrated through the C-shaped part, and the C-shaped part defines an elongated hole guiding the operating part to pivot.

Disclosed are a multi-directional input device and a game machine. The operating part includes a hemispherical upper hemisphere at a lower end. The upper hemisphere includes a hemispherical plane part at a lower part. Diameters of the hemispherical plane part and the upper hemisphere are the same. The diameter of the upper hemisphere is greater than that of the operating part. An upper support is fixed to the base and defines a hemispherical hole and hole wall of which is abutted against the upper hemisphere. The upper support further defines a through hole above the hemispherical hole, and the operating part is penetrated through the through hole. A diameter of the through hole is greater than that of the operating part. The upper support includes an upper support plane part below the hemispherical hole. A diameter of the upper support plane part is greater than that of the hemispherical hole.

An operation device includes a tiltable lever, a driving body coupled to the lever and configured to apply a return force to the lever when the lever is tilted, a metal plate provided to oppose a contact part provided and having an upper surface on which the contact part slides while making elastic contact when the lever is tilted, and a flexible substrate provided on the upper surface of the metal plate in an overlapping manner. The metal plate includes a control part having a groove shape and provided in the upper surface of the metal plate outside a region where the contact part slides, and configured to control bleeding of grease, and a convex part famed on a back surface of the metal plate, opposite to the upper surface, at a position corresponding to the control part. The flexible substrate covers an upper surface of the control part.

A linking structure including an interlocking member pivotable in a second direction, and a lever tiltably linked to the interlocking member. The interlocking member includes a blind elongated hole extending in a first direction; first to fourth edges of the elongated hole; a bottom closing the elongated hole and being contiguous with the edges; and first and second shaft holes in the first and second edges to extend communicatingly from the elongated hole to opposite sides in the second direction. The lever includes a base in the elongated hole; first and second juts extending from the base, being swingably received in the elongated hole, and being in abutment with, or opposed with a narrow clearance to, the first and second edges; and first and second rotation shafts extending from the base and being supported in the first and second shaft holes such as to be rotatable in the first direction.

A multidirectional input device includes a frame, a plate-shaped base below the frame, a load detector provided on the frame or the base, and circuitry. The frame stores part of a tiltable operation stick and a tilt detector. The circuitry is configured to output an output signal representing the direction and the magnitude of an operation on the operation stick, based on the angle detection value of the tilt of the operation stick detected by the tilt detector and the load detection value of a load applied to the frame detected by the load detector. The circuitry is configured not to output the output signal or to output the output signal that sets the magnitude of the operation to zero, when the load detection value detected by the load detector is less than a predetermined threshold.