Provided herein is an improved a bi-stable actuator including a first core component coupleable to a housing, the first core component including a central bore containing a shaft and a shaft spring. The actuator may further include a second core component extending around the first core component, wherein the second core component and the first core component are axially moveable relative to one another, and a third core component extending within the second core component, wherein the third core component and the second core component are axially moveable relative to one another. The actuator may further include a positioning sphere extending through an opening of the first core component, wherein the positioning sphere abuts the second core component when the bi-stable actuator is in a first position, and wherein the positioning sphere abuts a detent of the shaft when the bi-stable actuator is in a second position.

Provided herein is an improved a bi-stable actuator including a first core component coupleable to a housing, the first core component including a central bore containing a shaft and a shaft spring. The actuator may further include a second core component extending around the first core component, wherein the second core component and the first core component are axially moveable relative to one another, and a third core component extending within the second core component, wherein the third core component and the second core component are axially moveable relative to one another. The actuator may further include a positioning sphere extending through an opening of the first core component, wherein the positioning sphere abuts the second core component when the bi-stable actuator is in a first position, and wherein the positioning sphere abuts a detent of the shaft when the bi-stable actuator is in a second position.

Various examples are directed to apparatus and methods for providing a door latch block assembly. An apparatus includes a first planar surface configured to mount parallel to and facing away from a first side of a door frame, and a second planar surface configured to mount flush with and facing toward the first side of the door frame. The apparatus further includes a rectangular protrusion extending from the second planar surface configured to extend through an aperture in the door frame and protrude from a second side of the door frame. The apparatus also includes cylindrical openings extending through the latch block apparatus configured to receive hardware for affixing a latching mechanism to a distal end of the protrusion. The apparatus is configured to provide precise alignment of the latching mechanism for securing the door frame to a door.

In a door latch for a hinged or pivoting door having a latch fixture mounted in or on the door that supports a slideable bolt that is magnetically attracted to a fixed strike so as to effect latching action by extension of the bolt, a safety catch mechanism which, while engaged, prevents the bolt from extending, the safety catch mechanism having a catch member that operatively acts between the moveable bolt and the latch fixture, and an operating mechanism to operate the catch member responsive to magnetic forces from the strike. First and second actuators are disposed to opposite sides of the door, each of the first and second actuators being coupled to the latching mechanism to effect withdrawal of the latch bolt from its extended position to its retracted position upon operation by a user. A privacy lock mechanism is operable from one side of the door only and can be used to prevent the actuator on the other side of the door from operating the latch.

In a door latch for a hinged or pivoting door having a latch fixture mounted in or on the door that supports a slideable bolt that is magnetically attracted to a fixed strike so as to effect latching action by extension of the bolt, a safety catch mechanism which, while engaged, prevents the bolt from extending, the safety catch mechanism having a catch member that operatively acts between the moveable bolt and the latch fixture, and an operating mechanism to operate the catch member responsive to magnetic forces from the strike. First and second actuators are disposed to opposite sides of the door, each of the first and second actuators being coupled to the latching mechanism to effect withdrawal of the latch bolt from its extended position to its retracted position upon operation by a user. A privacy lock mechanism is operable from one side of the door only and can be used to prevent the actuator on the other side of the door from operating the latch.

A locking assembly for a door assembly of an agricultural vehicle includes: an actuator that defines an actuator axis and is linearly movable between a first position and a second position and rotatable about the actuator axis between a first locking orientation and a second locking orientation and includes a pair of locking features; a biaser configured to bias the actuator toward the first position; an energizer configured to bias the actuator toward the first locking orientation when the actuator is in the second locking orientation; and a lock configured to engage a second locking feature when the actuator is in the second locking orientation. Linear movement of the actuator from the first position to the second position while the actuator is in the second locking orientation causes the lock to disengage from the second locking feature so the energizer rotates the actuator towards the first locking orientation.

Rack and drawer systems. An embodiment of a system of the present disclosure comprises a support box at least partially surrounding a first tray positioned below a second tray; a first glider mechanism and a second glider mechanism each coupled to the first tray and the support box and configured to allow the first tray to be extended outward from the support box in a first direction; and a third glider mechanism coupled to the first tray and the second tray and configured to allow the second tray to be extended sideways perpendicular to the first direction.

The present invention relates to a safety locking device for interlocking a safety door, having a movable part designed for being fastened to a moving part of the safety door and having a locking element, and a stationary part designed for being fastened to a non-moving part of the safety door. The stationary part includes a receiving section having an opening for the reception of the locking element, where the locking element can be inserted into the receiving section from different insertion directions when the locking element is aligned in the insertion direction. The stationary part includes a latch selectively movable from a locking position into a release position.

The present invention relates to a safety locking device for interlocking a safety door, having a movable part designed for being fastened to a moving part of the safety door and having a locking element, and a stationary part designed for being fastened to a non-moving part of the safety door. The stationary part includes a receiving section having an opening for the reception of the locking element, where the locking element can be inserted into the receiving section from different insertion directions when the locking element is aligned in the insertion direction. The stationary part includes a latch selectively movable from a locking position into a release position.

A lock with a roller deadbolt includes a driving member having a first slot and a transverse slot. The driving member is connected to a first spring, a second spring and a positioning rod. A deadbolt includes a body, an insertion member, a roller and a slide. The driving member is connected to the body. The insertion member is received in the body. The second spring biases the insertion member. The slide is restricted by the positioning rods of the driving member and has a first guide pin extending through the first slot. The slide is movable along the first slot. The guide hole includes an extension slot and an inclined slot which inclinedly communicates with the extension slot. When in a non-transmission position, the roller protrudes beyond the receiving space. When in the transmission position, the roller does not protrude beyond the receiving space.