A lock assembly comprising: a hand-operable member configured to move laterally relative to a fore-end of the lock assembly; wherein lateral movement of the hand-operable member causes the lock assembly to move between a locked mode and an unlocked mode. A lock assembly comprising: a latch, the latch configured to move rotationally relative to the lock assembly; and a hand-operable member configured to move laterally relative to a fore-end of the lock assembly; wherein the hand-operable member is coupled to the latch such that lateral movement of the hand-operable member drives rotational movement of the latch. Methods of installing a lock assembly, comprising setting a hub of a lock assembly to one of a first unlocked position, a first locked position, a second unlocked position, a second locked position, or a deadlocked position, and installing a cylinder lock for engagement with the hub.

A lock assembly comprising: a hand-operable member configured to move laterally relative to a fore-end of the lock assembly; wherein lateral movement of the hand-operable member causes the lock assembly to move between a locked mode and an unlocked mode. A lock assembly comprising: a latch, the latch configured to move rotationally relative to the lock assembly; and a hand-operable member configured to move laterally relative to a fore-end of the lock assembly; wherein the hand-operable member is coupled to the latch such that lateral movement of the hand-operable member drives rotational movement of the latch. Methods of installing a lock assembly, comprising setting a hub of a lock assembly to one of a first unlocked position, a first locked position, a second unlocked position, a second locked position, or a deadlocked position, and installing a cylinder lock for engagement with the hub.

A window fastener including: a base configured for connection to a window sash; a handle carrying a latching tongue, pivotally connected to the base between a latched position and an unlatched position; and an interface between the base and the handle, wherein the interface causes the latching tongue to move axially closer to the base when the handle pivots from the unlatched position to the latched position; and wherein the interface causes the latching tongue to move axially away from the base when the handle pivots from the latched position to the unlatched position.

The present disclosure generally relates to providing electronic locking systems. Using novel designs and network technology, the present systems, methods, and apparatuses can provide a secure alternative to a cam lock or a lock box for storing items that may be left unattended, without the use of a physical key. For example, in certain embodiments, the present systems, methods, and apparatuses can facilitate the locking and unlocking of a cam lock or a lock box by using a digital construct, an encryption system, and various native and/or third-party software components.

A latch includes a base having a bore extending therethrough defining an axis, a plunger positioned within the bore and rotatable about the axis, a drive shaft positioned adjacent the base and engaged with the plunger such that rotation of the plunger about the axis causes corresponding rotation of the drive shaft about the axis, a bracket positioned adjacent the base and the drive shaft and engaged with the drive shaft such that rotation of the drive shaft about the axis causes movement of the bracket, and a closure element coupled to the bracket such that movement of the bracket causes the closure element to move between a position wherein the closure element allows a structure to move with respect to an adjacent structure and a position in which the closure element prevents the structure from moving with respect to the adjacent structure.

A lock mechanism according to an embodiment includes an engaging portion, a hook, and a pressing portion. The engaging portion is provided in any one of a housing and a door that is configured to open and close a housing opening portion of the housing. The hook is provided in the other one of the housing and the door to be rotatable around a rotation axis, is engageable with the engaging portion, and is normally disengaged from the engaging portion by its own weight. The pressing portion is provided separately from the hook and is configured to press the hook. The hook includes a hook side engaging portion that is configured to engage with the engaging portion with the rotation axis interposed therebetween, and a hook side pressing portion that is configured to cause the engaging portion to engage with the hook side engaging portion by being pressed by the pressing portion.

A lock mechanism includes a pedal, a vertical rod, a rod support, a hinge, a hinge support, a hinge lock, and magnets. When the pedal is pushed up the vertical rod, the hinge will lower into a cavity of the hinge lock and the lock mechanism will be in a “locked” mode. To “unlock” the lock mechanism, the user pushes the pedal down the vertical rod, then the hinge will raise out of the cavity of the hinge lock and now the lock mechanism will be in an “unlocked” mode. Then when the user wants to lock the lock mechanism while being inside a bathroom stall, the user will align a door with a wall/stand of the bathroom stall and then push the pedal up so the hinge will lower into the cavity of the hinge lock and the lock mechanism will be in a “locked” mode.

Systems, methods, and apparatus are disclosed involving a door blocking apparatus to reduce a likelihood of, and possibly prevent, opening of a door by unauthorized personnel. The apparatus may be networked in a security system and may be connectable to an online security platform. In a particular embodiment, an embodiment of the invention may include a security system involving a plurality of door locations having a plurality of networked door blocking apparatus. Each door blocking apparatus may include a door blocking mechanism operable by a user on a safety side of a door, such as having the user rotate an apparatus handle that rotates the door blocking mechanism between a non-blocking position and a blocking position. In the non-blocking position, the door blocking apparatus does not block the door from opening and closing. In the blocking position, the door blocking apparatus blocks the door from opening and from closing completely.

A door assembly is provided having a latch assembly. The latch assembly includes a head portion, a first latch housing, a second latch housing, a latch hub, and a hub cradle. The latch housings both define a respective opening. The hub cradle defines a recess offset from a center of the hub cradle. The hub cradle is positioned between the latch housings, and the latch hub is positioned in the hub cradle so that it is aligned with the recess. The hub cradle is configured to be received in the openings of the latch housings to provide a latch assembly having a short backset panel configuration or a long backset panel configuration. A distance from the head portion to the latch hub in the long backset panel configuration is larger than a distance from the head portion to the latch hub in the short backset panel configuration.

A casement lock for locking a door, the casement lock having a casement lock housing, an actuation element rotatably mounted on the casement lock housing,. and a locking element which is coupled with the actuation element and can be translationally moved in a first angular range of the actuation element and rotationally moved in a second angular range of the actuation element, the actuation element being axially secured by securing means in the first angular range and being axially released by the securing means in the second angular range.