The invention relates to an electric switch defining a front surface and including at least two rocker keys, which rock about a corresponding rocker axis, and at least one base provided with at least two operating points for electrical connection and disconnection located at a point corresponding to the center of the corresponding key, where the rocking of the keys presses on the corresponding at least one operating point and causes the electrical connection or disconnection, wherein the key has two sections separated by the rocker axis, a first transmission section of the operating force and a second section that does not transmit the operating force to the operating point, and in that the rocker axes of the at least two keys are parallel to each other.

The present disclosure relates to a key structure and an electronic apparatus. The key structure includes a housing; an electronic switch; a key cap; and a rocker, wherein the housing is provided with an opening configured to mount the key cap, the electronic switch is located inside the housing and corresponds to a position of the opening, and the key cap is mounted in the opening, and wherein the rocker has a first end fixed to the key cap and a second end hinged to the housing, and the rocker has a length larger than or equal to a first predetermined value.

A switch button module is provided. The switch button module is adapted to be disposed in an electronic device. The electronic device includes a housing, a circuit board, and a switch element. The circuit board is disposed in the housing. The switch element is disposed on the circuit board. The switch button module includes a mounting base, a connection rod, and a button unit. The mounting base is affixed to the housing, wherein the mounting base is located between an edge of the circuit board and the housing. The connection rod pivots on the mounting base. The connection rod rotates between a first orientation and a second orientation.

A switch device includes an operation switch including a switch knob formed integrally with a recess configured to allow a finger to be inserted. The operation switch includes a detector configured to detect a change in a physical amount caused by operation of the switch knob.

A switch mechanism includes a housing with a fenestration, a switch element held in the housing, and a first tab and a second tab each being pivotally attached to an opposite lateral edge of the fenestration. The tabs are constrained to rotational movement relative to the housing so that contact with the first tab or the second tab causes the respective tab to rotate to actuate the switch element.

A push-button switch may include a housing, an operation unit, a lock lever unit, and a biasing portion. A lever support portion may be connected to the operation unit so as to be movable together with the operation unit when a lever body is positioned at a second position. The housing may have a deformation portion that, when the operation unit is pulled in an opening direction when the lever body is positioned at the second position, deforms the lever body so as to be capable of releasing the pressing to the lever body by a holding unit.

An electronic device according to an embodiment of the present disclosure may include: a housing including a first plate and a second plate, wherein the first plate includes an opening; a display panel at least partially exposed through the opening and including a touch sensor; a first support member coupled to the display panel and a portion of the first plate along at least part of one side of the opening; and a switch device configured to be actuated according to a depression of the display panel, the depression caused by a downward force exerted on an upper portion of the display panel. Other various embodiments are also possible.

A molded case circuit interrupter advantageously employs a circuitry component that is situated adjacent a rear exterior surface of the molded case of the molded case circuit interrupter. Previous circuit interrupters have sometimes employed a non-conductive backsheet of a nominal thickness of 0.062 inches that was adhered to the rear surface of the molded case circuit interrupter in order to electrically isolate screws, posts, and the like that were mounted to and that were exposed on the rear portion of a molded case thereof. The disclosed and claimed concept provides a circuitry component in place of or in addition to the back sheet, with the circuitry component including flexible ribbons having electrical conductors that extend through holes formed in the molded case and that are electrically connected with electronic components that are situated within the interior of the molded case.

A heat destructive disconnecting switch comprises a first conductive member, a second conductive member, a movable conductive member, an overheating destructive member, an operating component, and a second elastic member. The movable conductive member conducts electricity to the first conductive member and the second conductive member. The overheating destructive member is formed as an integral body on a limiting member, and a first elastic member is compressed to between a contact member and the overheating destructive member, thereby providing the first elastic member with a first elastic force. The second elastic member is provided with a second elastic force. When the overheating destructive member is destructed due to overheating, the first elastic force is smaller than the second elastic force, causing the movable conductive member to disconnect the first conductive member from the second conductive member to achieve a protective effect from overheating.

A key mechanism including one or more butterfly hinges. Each butterfly hinge may include a double wing design operative to move between a depressed position and non-depressed position. Hinged coupling mechanisms couple respective arms of the wings together. Additionally or alternatively, a key mechanism can include one or more half-butterfly hinges. Each half-butterfly hinge includes a double wing design operative to move between a depressed position and non-depressed position. A hinged coupling mechanism couples one set of corresponding arms of the wings together, while the other set of corresponding arms are not coupled together.