An emergency stop device for a machine or industrial plant comprises an emergency button, a rigid protective element close to the emergency button and light signalling means designed to generate a light signal associated with said protective element, wherein the protective element comprises at least one signalling portion which is transparent or translucent with respect to the light signal.

A switch assembly including a housing. An escutcheon portion on the front surface of the housing has a raised platform. A transition ramp extends from the platform to a rest area and a finger area is adjacent the rest area. A perimeter frame encloses the finger area so that the escutcheon portion defines opposing notches aligned with the rest area. A handle has a hub with an axial bore so that a pivot pin insert through the axial bore rotatably couples the handle to the housing. A finger grip extends from the hub. The finger grip has a surface for selectively abutting against the rest area and a textured portion for manual actuation when a finger in inserted into the finger area.

An operation device includes an operation plate, an electrode, a determination portion, an output portion, a dial, a dummy electrode, a for-dummy determination portion, and a disablement portion. The operation plate includes an operation surface that is contact-operated by an operators fingertip. The determination portion determines whether the contact-operation is performed based on an amount of capacitance change between the fingertip and the electrode. The output portion outputs a predetermined command signal on the condition that the contact-operation is determined to be performed. When it is determined by the dummy electrode and the for-dummy determination portion that an operator's hand is placed at a position where a dial is operable, the disablement portion prohibits an output of the command signal or disables the outputted command signal.

A transfer switch including a lockout-tagout assembly and lockout-tagout method are provided. An example method includes a latch of a transfer switch actuating a first switch, wherein actuating the first switch sends an inhibit signal to an electronic controller of the transfer switch. The example method further includes the latch actuating a second switch, wherein actuating the second switch opens operator cutoff thereby preventing function of an operator assembly of the transfer switch. Still further, the example method includes, after the latch actuating the first switch and the second switch, locking the latch so as to mechanically prevent the source contact from closing.

The present invention relates to a door locking device for household appliances. The device according to the present invention allows to detect a door closing or opening condition, to actuate, only with the door closed, an electromagnetic actuator that triggers door locking means and a respective switch, and finally to detect the door locking condition. The operation of the door lock required by current safety standards is obtained here by means of an architecture of the door lock which allows to simplify the architecture of the door lock itself, in particular by reducing the connecting contacts with the household appliance to only two.

A flip guard safety system for preventing inadvertent actuation of an aircraft switch. The flip guard safety system includes a flip guard having a cover that pivots between a guarded positions in which the cover protects the aircraft switch against inadvertent actuation and an unguarded position in which the cover provides access to the aircraft switch. A flip guard safety has a gate that pivots between a closed position in which the gate retains the cover in the guarded position and an open position in which the gate does not retain the cover in the guarded position, such that the cover is pivotable from the guarded position to the unguarded position. The gate pivots from the closed position to the open position in a first direction and the cover pivots from the guarded position to the unguarded position a second direction that is opposite of the first direction.

A power tool includes a tool body, a grip, a trigger, a locking switch, and a locking retainer. The locking retainer is configured to apply a locking force to the locking switch to keep the locking switch in the locking state. During a process in which the locking switch is operated to switch from the locking state to the unlocking state, the locking force changes from large to small.

A flip guard safety system for preventing inadvertent actuation of an aircraft switch. The flip guard safety system includes a flip guard having a cover that pivots between a guarded positions in which the cover protects the aircraft switch against inadvertent actuation and an unguarded position in which the cover provides access to the aircraft switch. A flip guard safety has a gate that pivots between a closed position in which the gate retains the cover in the guarded position and an open position in which the gate does not retain the cover in the guarded position, such that the cover is pivotable from the guarded position to the unguarded position. The gate pivots from the closed position to the open position in a first direction and the cover pivots from the guarded position to the unguarded position a second direction that is opposite of the first direction.

A device including a mechanical button, a capsense circuit, and a microcontroller is provided. The mechanical button is configured to generate an input signal. The capsense circuit is electrically coupled to the mechanical button. The capsense circuit is configured to (1) measure, while in a scanning state, a capacitance corresponding to the input signal; (2) enter a debouncing state in response to the capacitance exceeding an actuation threshold; (3) generate, while in the debouncing state, a debounced signal in response to the capacitance remaining above the actuation threshold for a predetermined period; and (4) transmit the debounced signal to a microcontroller to initiate a function.