A door lock device is provided. The door lock device includes a panel and a mounting base. The panel is arranged opposite to the mounting base and is connected with the mounting base. The mounting base includes a recess located in a middle of one side of the mounting base and on a first surface of the mounting base close to the panel, and the recess and the panel form a handle structure.

Described herein are example fluid guards that can be used with locking devices. Various aspects may be particularly applicable to electrical locks, but they may also be applicable to mechanical locks. A locking device guard can include a guard head, a guard body, and a hinge. The guard head may include a fluid absorber, a frame that is shaped to receive the fluid absorber, and a fastening mechanism. The guard body can be coupled with an electronic lock. The guard body can include an aperture that is configured to expose a face of the electronic lock.

Certain aspects of the technology disclosed herein include an apparatus and method for electrically and mechanically connecting a deadbolt to a main housing of a lock. The main housing can be configured to extend a deadbolt along a path to lock and/or unlock a door while receiving electrical energy from an energy storage device disposed in the deadbolt. The energy storage device disposed in the deadbolt can be proximate to one or more electrical contacts electrically connected to one or more components in the main housing via conductive components of a bolt carriage. The bolt carriage includes a groove attachable to a male detent connector attached to the deadbolt. The groove in the bolt carriage provides a mechanical connection to the deadbolt and also aligns pogo pins with electrical components of the bolt carriage to enable electrical transmission from the deadbolt to the main housing.

Determining a position of a deadbolt used to lock and unlock a door is disclosed. An electromechanical lock can include a deadbolt that can retract or extend along a linear path as the door is to be locked and unlocked. A sensor such as an accelerometer can rotate along a non-linear path as the deadbolt moves along a linear path. The accelerometer can determine a gravity vector that can be indicative of a position of the accelerometer along the non-linear path. A controller can then determine a position of the deadbolt based on the gravity vector.

Electrified mortise lock for sliding door is a mortise lock for a sliding door. Electrified mortise lock for sliding door is electrified wherein an electric motor is used to latch and unlatch the mortise lock and lock and unlock the mortise lock. Electrified mortise lock for sliding door includes multiple types of door locks including sliding door locks that meet the ANSI and BHMA standards for a privacy, entry, office, and classroom door lock. Electrified mortise lock for sliding door mounts within a mortise pocket of a sliding door. Electrified mortise lock for sliding door can automatically latch when the sliding door in closed and automatically unlatch when the sliding door is opened. Electrified mortise lock for sliding door can also automatically lock when the sliding door in closed and automatically unlock when the sliding door is opened. Electrified mortise lock for sliding door receives power from a power unit located: in the upper door jamb or in the strike plate in the door jamb.

Auto latching mortise lock for sliding door is a mortise lock for a sliding door. Auto latching mortise lock for sliding door is a system with interchangeable components to yield multiple types of door locks including sliding door locks that meet the ANSI and BHMA standards for a passage, office, communicating/patio, storeroom, privacy, entry, and classroom lock for a sliding door. Auto latching mortise lock for sliding door mounts within a mortise pocket of a sliding door. Auto latching mortise lock for sliding door can automatically latch when the sliding door in closed and automatically unlatch when the sliding door is opened. Auto latching mortise lock for sliding door can also automatically lock when the sliding door in closed and automatically unlock when the sliding door is opened.

A lock, adapted for being assembled on a door panel, is provided. The door sheet has an assembling hole and a latch slot connected and communicated with the assembling hole. The lock includes a latch assembly, a first locking mechanism, and a second locking mechanism. The latch assembly is assembled in the latch slot and extended into the assembling hole. The first locking mechanism and the second locking mechanism are assembled in the assembling hole from the two sides thereof respectively to automatically position and affix the latch assembly. Because the latch assembly can be to led to move and positioned in the latch slot and the assembling hole by the first locking mechanism and no screw or other tool are required for fastening in the entire process of the assembling, the present invention is therefore easy and convenient to assemble.

Cylinder assembly with rotating winged latch bolt for sliding door lockset includes a special latch bolt that holds in an extended position and holds in a retracted position which alternates back and forth by pressing the latch bolt with your finger. The special latch bolt rotates ninety degrees by turning the doorknob, door handle, thumb turn, or coin turn and rotates back ninety degrees by turning the doorknob, door handle, thumb turn, or coin turn back. The special latch bolt has a special winged shape that catches within the strike plate when rotated ninety degrees and releases from the strike plate when rotated ninety degrees back. Also there is a special face plate or cylinder face plate with tabs or notches that serve as a two-position mechanical stop to prevent the latch bolt from over rotating beyond ninety degrees in either direction.

An exemplary pushbar assembly generally includes a mounting assembly, a latch control assembly movably mounted to the mounting assembly, a pushbar operable to actuate the latch control assembly, a master cam rotatably mounted to the mounting assembly, a slide plate, and an insert. The slide plate is slidably mounted to the mounting assembly, and is configured to move between a locking position and an unlocking position in response to rotation of the master cam between a locking orientation and an unlocking orientation. The insert is configured to limit rotation of the master cam to a predetermined angular range less than 360°.

Certain aspects of the technology disclosed herein include an apparatus and method for a extending a deadbolt. The electromechanical lock can include a deadbolt extending device disposed between a main housing and a deadbolt. The deadbolt extension device can be used to adapt the electromechanical lock to doors of various sizes. The deadbolt extension device can include another electrical connection and another attachment mechanism for the deadbolt. The another electrical connection can be configured to electrically connect the deadbolt with the main housing. The another attachment mechanism can be configured to attach the deadbolt a pre-defined distance apart from the main housing.