A domestic electrical appliance, in particular a dishwashing machine, includes a main appliance body having a product treatment chamber, a door mounted on the main appliance body so as to be pivotable about a horizontal pivot axis close to the floor for closing an access opening to the product treatment chamber and a locking device having a locking assembly arranged on the main appliance body and a closing pin arranged on the door. The locking assembly has a latch movable between a release position and a latching position where the latch engages behind the closing pin to hold the door closed and releases the closing pin to open the door. The latch performs a rotational movement along a horizontal plane as it moves between the release position and the latching position, the closing pin being oriented vertically when the door is closed.

A door latch for a domestic electrical appliance includes a latch assembly that includes a locking element arranged to be displaceable between an unlocking position and a locking position, and an arresting element which moves from its release position into the arresting position as the door is closed. The arresting element in the arresting position can be locked by means of the locking element against movement into the release position and in the locked state prevents the closed door from opening. The latch assembly further includes an electric switch which, when the door is closed, responds to a movement of the locking element from the unlocking position into the locking position, and a switch auxiliary control member which, as the door is closed, is urged by the closing body from an active position against a restoring spring force into an inactive position.

A locking mechanism comprises an S-shaped locking member which comprises respective locking hooks arranged at the end of opposed arms of the locking member. A pivot is arranged between the arms of the locking member. The locking member rotates around the axis (A) of the pivot. The locking mechanism further comprises a coupling for coupling the locking member to an actuator for rotating the locking member around the pivot axis (A). The coupling comprises at least one coupling element, an actuator coupling for coupling the at least one coupling element to the actuator and first and second drive couplings for coupling the at least one coupling element independently to each arm of the locking member for transmitting rotational movement thereto, such that failure of one arm of the locking member will not cause loss of drive to the other arm of the locking member.

A wire crate latch apparatus having, in a first embodiment, a pivoting member that is continually drawn to a closed position by gravity and that is deflected into a catch when the door having the pivoting member is swung closed. The latch apparatus further includes upper and lower stops to contain a distal end of the pivoting member and to hold the distal end in the position to hit an oblique portion of the catch when the door is closed. In a second embodiment, a sliding latch apparatus is deflected by a catch and is relatively inaccessible from inside of the wire crate by back plates on the latch and catch.

A container is disclosed that has a housing and a lid. The lid has a planar portion and a latch that is freely movable parallel to the planar portion of the lid. The latch has a retention feature and a first reference surface that is perpendicular to the planar portion of the lid. There is a latch mechanism coupled to the housing that has an engagement element configured to engage the retention feature of the latch and a first alignment feature having a first alignment surface. The first alignment feature is configured to laterally displace the latch in a first direction such that the first reference surface aligns with the first alignment surface when the lid is brought together with the housing with the fastener laterally displaced away from the engagement element in a second direction that is opposite to the first direction.

A latch system for vehicle doors includes a powered latch including a powered actuator that is configured to unlatch the powered latch. An interior unlatch input feature such as an unlatch switch can be actuated by a user to provide an unlatch request. The system may include a controller that is operably connected to the powered actuator of the powered latch. The controller is configured such that it does not unlatch the powered latch if a vehicle speed is greater than a predefined value unless the interior latch feature is actuated at least two times according to predefined criteria.

A motor vehicle hood latch mechanism comprises a latch assembly including a primary latch and a secondary latch. The secondary latch restrains the hood in a released position subsequent movement of the primary latch to an unlocked position. The secondary latch secures a striker to restrain the hood in a released position and allows the hood to move to an open position upon manipulation. An improved secondary latch release handle comprises a secondary latch release handle arm having a retracted position and a deployed position outside of the motor vehicle, the secondary latch release handle arm extending longitudinally forward relative the motor vehicle in each of the retracted and deployed positions, wherein the secondary latch release handle arm is extended forward to the deployed position by purely translational motion upon movement of the primary latch to the unlocked position.

A door latch assembly equipped with a single ratchet-double pawl latching arrangement having a ratchet, a primary pawl and a secondary pawl. The primary pawl is configured to include a first or primary lug and a second or secondary lug, with each lug having a distinct profile to respectively provide an eccentric backout characteristic and a concentric backout characteristic in relation to the ratchet.

A lock (1) for a motor vehicle door, comprising:—an assembly of control means (7), each control means being mobile;—an assembly of opening levers (10A, 10B) of said door (2), each lever (10A, 10B) being intended to enable the opening of the door (2) by a control means (7) of the control means assembly, each lever (10A, 10B) comprising a cam (11A, 11B) which can rotate about an axis of rotation (8) and is fixed to said control means (7) in a fixation region (9) so as to be rotated during a movement of the control means (7);—a blocking means (12) configured to take an active blocking position, in which said blocking means (12) blocks an opening lever (10A), and a rest position in which said blocking means (12) authorises the movement of each opening lever (10A, 10B),—a spring-back blocking means (14) configured to switch said blocking means (12) from the rest position to the active blocking position, and—a trigger means (16) configured to take a rest position in which said trigger means (16) blocks the blocking means (12) in the rest position thereof and an active unblocking position in which said trigger (16) releases said blocking means (12) so that said blocking means switches from the rest position to the active blocking position,—the blocking means (12) and one opening lever (10B) not blocked by the blocking means in the blocking position (10) interacting so as to convey the blocking means (12) from the active blocking position to the rest position when said non-blocked opening lever (10B) pivots in the opening direction of the door (2).

A door lock comprises an electromagnet (410), a latch shaft (320), a crank device (430) and the like. The crank device (430) is connected with the latch shaft (320) and driven by the electromagnet (410) to transform the linear motion of the electromagnet (410) into the rotary motion of the latch shaft (320). When the electromagnet (410) pushes or pulls the crank device (430), a latch head (202) rotates around an axis so that it can move to a locked position or an unlocked position. The door lock (200) of the present invention can transform the linear motion of the electromagnet (410) into the rotary motion of the latch head (202), so that the latch head (202) can be conveniently installed on the lateral surface rather than at an end of the door lock (200). The door lock (200) can be advantageously installed in the middle gap of a front panel (102) along an edge of a control panel of the washing machine (100) to lock the upper cover (101) from the middle part.