A shootbolt system for a fenestration assembly, such as a sliding patio door system, includes a chassis mountable to a stile of a sliding panel of the fenestration assembly, and a shootbolt slidably coupled to the chassis. The shootbolt is designed to be coupled to a corner drive system of the sliding panel for movement therewith upwardly or downwardly along the stile in response to an applied actuation force, such as from an operator handle. When extended, the shootbolt engages a receiver or stop mounted to the frame to prevent the sliding panel from rebounding when an adjacent second sliding panel is slidably moved to a closed position in contact with the sliding panel.

A locking device for a switch cabinet, with a lock door and a secondary door, wherein the secondary door, on a vertical outer edge opposite its hinge side, has a U-profile formed on a door leaf of the secondary door with a receptacle for a lock mechanism of the lock door, which receptacle is offset back relative to the door leaf and which is open towards the door leaf, wherein on an outer free profile side of the U-profile, a swivelling lever of a lock of the secondary door is pivotably mounted about an axis of rotation between an open position and a locking position. Furthermore, a corresponding switch cabinet is described.

A double door assembly bottom restraining device and method provide stability to the double door assembly during manufacturing and shipping. The double door assembly bottom restraining device may be installed on the bottom of a double door assembly.

A method of controlling a lock mechanism of an active door includes transiting an access controller of the lock mechanism to an authorized access mode and transitioning the access controller from the authorized access mode to an entry mode. Transitioning the access controller to the authorized access mode is in response to an authorized user being sensed approaching the active door from an exterior side of the active door or in response to input on a remote device. In the authorized access mode, an exterior handle of the active door is decoupled from a main latch of the lock mechanism. Transitioning the access controller to the entry mode is in response to sensed contact with the exterior handle. In the entry mode, the exterior handle is capable of rotating to transition the access controller to an unlocked mode in which the exterior handle is operably coupled to the main latch.

A method of controlling a lock mechanism of an active door includes transiting an access controller of the lock mechanism to an authorized access mode and transitioning the access controller from the authorized access mode to an entry mode. Transitioning the access controller to the authorized access mode is in response to an authorized user being sensed approaching the active door from an exterior side of the active door or in response to input on a remote device. In the authorized access mode, an exterior handle of the active door is decoupled from a main latch of the lock mechanism. Transitioning the access controller to the entry mode is in response to sensed contact with the exterior handle. In the entry mode, the exterior handle is capable of rotating to transition the access controller to an unlocked mode in which the exterior handle is operably coupled to the main latch.

Anti-vandalism padlocks are used to secure chains, latches or similar elements, consisting of two coupling armours, with a particular geometry according to their application, with a tumbler cam lock. This padlock does not have an exposed shackle nor any other similar element which may be subject to violation either by cutting, lever movements or the like.

Anti-vandalism padlocks are used to secure chains, latches or similar elements, consisting of two coupling armours, with a particular geometry according to their application, with a tumbler cam lock. This padlock does not have an exposed shackle nor any other similar element which may be subject to violation either by cutting, lever movements or the like.

A retention bracket configured for use with a latch mechanism including a laterally extending housing. The retention bracket includes a first wall, a second wall, a collar, and a deformable section. The first and second walls are longitudinally offset from one another and are structured to receive the housing therebetween. The collar extends longitudinally outward from one of the walls and defines an opening having an effective diameter. The deformable section has a natural state in which the effective diameter is a first diameter, and a deformed state in which the effective diameter is a second diameter greater than the first diameter.

A latch and method for a double sash tilt window includes a locking mechanism and a rack having proximal and distal ends. The proximal end of the rack is connected to the locking mechanism while the distal end of the rack is affixed to a slide bolt. The latch also includes a cam and a gear, the cam positioned on the gear and the gear enmeshed with the rack so that rotating the gear operates the slide bolt which prevents the window from tilting.

A charging cart includes a casing, at least one door leaf and a hooking mechanism. The casing has at least one first hooking slot. The door leaf is pivotally mounted to the casing so that the door leaf is rotatable relative to the casing about a first rotation axis. The hooking mechanism includes a movable assembly and at least one hooking member. The movable assembly is movably disposed on the door leaf. The hooking member is connected to the movable assembly. The hooking member is driven by the movable assembly to rotate relative to the door leaf about a second rotation axis to be moved between a locked position and an unlocked position. The second rotation axis is parallel to the first rotation axis.