Provided is a switch device including rotor members mounted so as to be rotatable about a longitudinal axis of a lever main body, knob members mounted so as to be integrally rotatable with the rotor members, the knob members including cam surfaces that face the cam surfaces of the rotor members with a gap therebetween, a movable contact member being movable in the longitudinal axis direction by a rotational operation of the rotor members and the knob members about the longitudinal axis, and a flexible substrate linearly disposed in the longitudinal axis direction in at least a movable range of the movable contact member, the flexible substrate including a contact portion, a contact terminal of the movable contact member being brought into contact with and separated from the contact portion in association with the movement in the longitudinal axis direction of the movable contact member.

A computer mouse that includes a plurality of tunable switch assemblies is disclosed. According to certain embodiments, the tunable switch assembly comprises a plurality of tunable switches and a rotatable wheel casing that houses the plurality of tunable switches. Each tunable switch of the plurality of tunable switches is distinct from any other tunable switch in the plurality of tunable switches in a given tunable switch assembly of the plurality of tunable switch assemblies, according to certain embodiments.

An operating device includes a knob, which is formed into a rod form, and a resilient body, which is formed into a ring form. Position limiting parts, which limit a position of the resilient body, include at least one primary rib, which is placed on one side of the resilient body in a longitudinal direction of the knob, and at least one secondary rib, which is placed on another side of the resilient body in the longitudinal direction of the knob. The at least one primary rib and the at least one secondary rib radially outwardly project from the outer peripheral portion of the knob within an extent that does not extend beyond the resilient body.

A double seesaw switch has two seesaw switches arranged side-by-side inside a case. Each of the two seesaw switches has a central terminal arranged on a bottom surface inside the case, a pair of fixed contacts separately arranged, a moving contact supported pivotably with respect to the central terminal and has a contact portion for contacting one of the fixed contacts, an operation body supported rotatably with respect to the case, and pivots the moving contact by moving on the moving contact in correspondence with a rotation movement of the operation body, and a biasing part biasing the operation body towards a neutral position. The biasing part is a leaf spring piece formed in a U shape from a portion of a ceiling surface of the case, and to press against the operation body in a power storing state of a leading end portion compressed.

A rotational movement detection device includes a rotating member including a through hole passing therethrough from a first surface to a second surface opposite the first surface, the rotating member rotating around the through hole to generate a magnetic field around the rotating member, a rotation angle detection part that detects a rotation angle of the rotating member, a movement detection part that detects a movement along a rotational axis of the rotating member, and a holding part including a guide part and an arrangement part formed integrally therein, the guide part being inserted into the through hole to guide the rotation of the rotating member and to hold the rotating member, the arrangement part having thereon the movement detection part arranged facing a side surface of the rotating member.

A circuit breaker including a trip unit having an internal support and a friction adjustment control system for knob control is provided. The internal support includes a first opening to receive a first rotary knob having one or more first smooth rings and a second opening to receive a second rotary knob having one or more second smooth rings. The trip unit includes a first knob control of the first rotary knob. The first knob control includes a first structural support, a first housing and a first spring installed in the first housing against the first structural support. The trip unit further includes a second knob control of the second rotary knob. The second knob control includes a second structural support, a second housing and a second spring installed in the second housing against the second structural support.

A cycle selector knob to rotary encoder user interface for the operation of an appliance has a knob for rotating a shaft of a rotary encoder wherein the shaft is received by a control panel barrel to provide radial and thrust bearing surfaces. The knob has an axial boss dimensioned to affix to the shaft and bear against the radial bearing surface of the barrel and a shoulder to bear against the thrust bearing surface of the barrel. The control panel is secured to a console so that radial and thrust forces of the knob are directed via the radial and thrust bearing surfaces only to the console through the control panel.

Electronic devices are disclosed. According to the present invention, an electronic device may comprise a base; a rotor rotating on the base; a first magnetic body positioned at a center of rotation of the rotor; a second magnetic body having a different polarity from the first magnetic body, facing the first magnetic body, and positioned in the base; a first plurality of magnetic bodies positioned around the second magnetic body and having at least two different polarities; a hall sensor embedded in the rotor and sensing a change in magnetic property provided from the first plurality of magnetic bodies according to the rotation of the rotor; a wireless communication unit embedded in the rotor or the base; and a controller embedded in the rotor or the base and transmitting information obtained by the hall sensor through the wireless communication unit.

The rotary dial apparatus of the present disclosure includes: a housing; a dial being rotatably held relative to the housing; a magnet rotating in accordance with rotation of the dial; and a magnetic sensor disposed in the housing and detecting rotation of the magnet. The magnet and the magnetic sensor are disposed in different regions from each other with a wall being interposed between the magnet and the magnetic sensor.

A control device, includes a switch (2) with a rotary control rod (20) having a diametrical slot (21) which extends in a plane of reference (P), a molded plastic knob (3) which includes a housing receiving the control rod, the housing including two flexible fingers (31, 32) which are diametrically opposed and provided so as to be resilient radially inward, and two fixed fingers (33, 34) which are diametrically opposed and are connected together via a connecting wall (35) which extends along the plane (P), the connecting wall (35) being received in the diametric slot without any play in order to immobilize the knob in relation to the control rod in a direction (Y) perpendicular to the plane (P), the two flexible fingers holding the knob along the axis (A) by friction or by mechanical or spring-assisted blocking.