Embodiments are directed to a watch having a rotatable and translatable input member. In one aspect, the watch includes a housing defining a watch body. The watch may include a crown positioned within an aperture of the housing and a shaft coupled with the crown at a first end of the shaft. To measure input at the crown, the watch may include a tactile dome positioned at a second end of the shaft that is configured to detect translation of the crown and a sensing element positioned within the housing that is configured to detect rotation of the crown.

A cable pulling system may be provided. The cable pulling system may comprise a cable puller, a cable feeder located remotely from the cable puller, a puller end switch located at the cable puller, and a feeder end switch located at the cable feeder. The puller end switch may have a puller end switch trigger. The puller end switch may be configured to stop the cable puller and the cable feeder when the puller end switch trigger is actuated. The feeder end switch may have a feeder end switch trigger. The feeder end switch may be configured to stop the cable puller and the cable feeder when the feeder end switch trigger is actuated.

A cable pulling system may be provided. The cable pulling system may comprise a cable puller, a cable feeder located remotely from the cable puller, a puller end switch located at the cable puller, and a feeder end switch located at the cable feeder. The puller end switch may have a puller end switch trigger. The puller end switch may be configured to stop the cable puller and the cable feeder when the puller end switch trigger is actuated. The feeder end switch may have a feeder end switch trigger. The feeder end switch may be configured to stop the cable puller and the cable feeder when the feeder end switch trigger is actuated.

According to one embodiment, a casing of a hazard detector includes a body portion and a button portion. The button portion is coupled with the body portion via a plurality of arms. The arms allow the button portion to be axially movable relative to the body portion and also couple the button portion with the body portion so that tabs that extend radially outward from the button portion are positioned under and contact an inwardly facing surface of the body portion. The arms bias the button portion axially outward relative to the body portion so as maintain contact between the tabs and the inwardly facing surface. In this configuration, when the button portion is pressed at a position off-axis from a central axis of the button portion, the button portion pivots about one or more contact points between one or more tabs and the inwardly facing surface.

A pressing operation device is configured such that a base and an operating body are linked to each other by a link member. A support-side shaft of the link member is rotatably supported by a bearing of the base. The bearing of the base includes a first regulation portion that regulates movement of the support-side shaft of the link member in an ascending direction of the operating body and a second regulation portion that regulates movement of the support-side shaft in a direction intersecting the ascending direction, and is provided with a flat spring portion that presses the support-side shaft against the second regulation portion and the first regulation portion.

The control panel and display of a cart-borne ultrasound system are support by a lift which can be controlled to allow the control panel and display to be raised, lowered, and rotated. The lift has a first pivot elbow mounted to the ultrasound system cart and a second pivot elbow on which the control panel and display are mounted. A four-bar linkage is coupled between the pivot elbows which enables to control panel and display to be raised and lowered while maintaining the inclination of the control panel. The pivot elbows allow the control panel and display to be turned and rotated. A pair of hydraulic struts are mounted to the four-bar linkage to support the weight of the control panel and display. When a control button on the handle of the control panel is depressed the control panel and display can be freely raised, lowered and rotated. When the control button is released the pivot elbows and four-bar linkages are locked in their current positions.

The control panel and display of a cart-borne ultrasound system are support by a lift which can be controlled to allow the control panel and display to be raised, lowered, and rotated. The lift has a first pivot elbow mounted to the ultrasound system cart and a second pivot elbow on which the control panel and display are mounted. A four-bar linkage is coupled between the pivot elbows which enables to control panel and display to be raised and lowered while maintaining the inclination of the control panel. The pivot elbows allow the control panel and display to be turned and rotated. A pair of hydraulic struts are mounted to the four-bar linkage to support the weight of the control panel and display. When a control button on the handle of the control panel is depressed the control panel and display can be freely raised, lowered and rotated. When the control button is released the pivot elbows and four-bar linkages are locked in their current positions.

A key switch device includes a pressing type switch, an operating key, and a light emitting unit. The operating key includes a key top and a key base. The key top is exposed from an operating panel and is pressed by a user. The key base is assembled with the key top. The key base is positioned between a substrate and the operating panel to turn on the switch. In a place corresponding to the light emitting unit between the key top and the key base, a hollow part is formed.

A keycap support mechanism increases the stability of supporting a keycap through structure designs of supports. Two supports are pivotally connected around a pivot axis; therein, at least one of the supports includes a support body and a reinforcement part embedded into the support body. The elastic modulus of the reinforcement part is greater than the elastic modulus of the support body. In an embodiment, the reinforcement part has a surrounding portion. The surrounding portion surrounds three sides of a pivot hole of the support. In another embodiment, the two supports both have a reinforcement part. The two reinforcement parts have overlapping portions in a vertical direction. A keyswitch structure includes a base plate, a keycap, and any of the above keycap support mechanisms. The keycap support mechanism supports the keycap above the base plate.

A keycap lifting mechanism increases the stability of supporting a keycap through structure designs of supports. For example, a pivot of two supports overlaps base holes of the supports along the pivot axis. For another example, each of supports has support arms extending non-parallel to the pivot axis. The free end of each support arm is connected to a base plate. For another example, among a plurality of pivotally-connecting structures between supports, at least one includes a fully-open pivot hole, achieved by two opposite hooks, and at least one includes a semi-open pivot hole, achieved by two opposite hooks and a blind hole. A long rectangular keyswitch structure includes a keycap and any of the above mechanisms. The distance from a sliding hole of one support to an adjacent keycap long side is greater than the distance from a holder hole of another support to another adjacent keycap long side.