A stroke adjustment cover for clip-type micro switch, the stroke adjustment cover comprises a cover body connected to a clip-type micro switch, a stroke adjustment member disposed in the cover body, and an elastic member used to provide the stroke adjustment member with a reciprocating stroke perpendicular to the direction of an actuation stroke of the clip-type micro switch. Through an adjustment section of the stroke adjustment member includes at least one brake portion used for braking the clip-type micro switch to generate the actuation stroke in the reciprocating stroke provided by the elastic member. The present invention not requires modification of the actuation stroke and structure of the clip-type micro switch, while an actuation time of a switching command signal of the clip-type micro switch is extended by the stroke adjustment cover provided with the different reciprocating strokes and being easy to install.

A button assembly for an electronic device is disclosed. The button assembly integrates a biometric sensor below a top surface of the button. The button assembly is positioned relative to a secondary display of an electronic device. The secondary display can be positioned relative to a keyboard, such as above a top row of keys of the keyboard.

A button assembly for an electronic device is disclosed. The button assembly integrates a biometric sensor below a top surface of the button. The button assembly is positioned relative to a secondary display of an electronic device. The secondary display can be positioned relative to a keyboard, such as above a top row of keys of the keyboard.

The invention relates to an emergency stop device, comprising: an electric module suited to being soldered onto a printed circuit board (PCB), comprising a body, at least two fixed contacts arranged in the body and at least one contact actuator bearing a moveable contact able to connect said fixed contacts electrically, an actuating module suited to being mechanically coupled to the electric module and to being mounted on a panel (P), the actuating module comprising a body and an actuator moveable with respect to the body, the body comprising a so-called rear part able to extend through the panel (P) on a side opposite to the actuator and to receive the electric module, the actuating module being able to be actuated by an operator between the following positions: a rest position in which the moveable contact ensures an electrical connection between the fixed contacts, and an activated position in which the actuator exerts a depression force on the contact actuator so as to break the electrical connection between the fixed contacts.
Said device comprises a locking system configured to secure in a reversible manner the mechanical coupling of the electric module to the actuating module.

A keyboard device includes a key switch, a base plate, a connecting element and a replaceable key. The replaceable key includes a coupling plate and a keycap. The connecting element is connected between the coupling plate and the base plate. The coupling plate includes a first sliding part. The keycap includes a second sliding part. When the second sliding part is slid relative to the first sliding part, the keycap is combined with the coupling plate or the keycap is detached from the coupling plate. Consequently, the keycap is easily assembled or disassembled. Moreover, since the connecting element is not touched during the process of disassembling the keycap, the connecting element is not damaged.

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.

A computing device may include a housing with an aperture. A switch with an activation surface is connected to the housing. A button may be slidable within the aperture and may be configured to receive an activation force from a user to activate the switch. The button may be moveable to activate the switch. The button may have a back surface that is offset from the activation surface of the switch such that when the button is moved to the active position the activation surface and the back surface do not come into direct contact. An adapter may be positioned between the switch and the button, where the adapter has a switch surface and a button surface. The button surface may be aligned with the back surface of the button and the switch surface may be aligned with the activation surface of the switch.

A rotary switch operating apparatus has a drive shaft and a first and a second drive element, the first drive element having a rotationally fixed coupling to the drive shaft, and the second drive element being rotatably mounted on the first drive element. The apparatus includes a spring coupling the first and the second drive element together with a spring action, a lock limiting rotational movements of the second drive element in a first rotation direction and a second rotation direction, opposite the first, and a releaser for canceling rotational movement limitation of the second drive element in pre-specified rotation positions of the first drive element. Latches bearing against the drive elements' guide sections are provided, the first drive element guide section having release sections as releasers and the second drive element guide section having two latch stops as locks.

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.

A key is disclosed herein. The key is disposed on a baseplate of a keyboard device, and comprises a sheet metal keycap and a supporting structure. The sheet metal keycap includes a body portion and two bending portions. The two bending portions are formed by extending downward from a side of two punching holes on the body portion, respectively. The supporting structure is disposed between the sheet metal keycap and the baseplate. Two sides of the supporting structure are pivotally connected to the bending portions and the baseplate, respectively. The key is thinner due to sheet metal keycap which is integratedly formed. A keyboard device with a plurality keys is also provided herein.