A hinged door with a latch described. The latch may be used to secure the door of a cabinet in a closed position. The door hingedly connects to the cabinet by a hinge. The latch includes a handle. The handle includes a pawl tip. The latch includes a base, and the handle rotates relative to the base. The handle is biased to a closed position by a spring or biasing member. The handle and the base are mounted to the door of the cabinet. A striker is mounted to a wall the cabinet. The striker includes a catch that is spaced from an interior side of a wall of the cabinet. The pawl tip of the handle lockingly engages with the catch of the striker to secure the door.

The lock according to the invention is meant for locking cabinets, vaults and different machines. The lock has a lock frame, which comprises a bolt. A lock cylinder has been arranged in connection with the lock frame. The lock frame further comprises a power transmission mechanism between the lock cylinder and the bolt. The power transmission mechanism comprises a transmission lever and a latch. The transmission lever additionally comprises a retaining protrusion. The bolt comprises a locking pin and the lock frame additionally comprises a hole for the locking pin. The lock is arranged to allow movement of the lock cylinder and the power transmission mechanism in the direction of the longitudinal axis of the lock cylinder due to an external hit or drilling of the lock cylinder, whereby the movement in the direction of the longitudinal axis moves the retaining protrusion away from the locking pin. Thus, the end of the locking pin moves into the hole in the frame.

The lock according to the invention is meant for locking cabinets, vaults and different machines. The lock has a lock frame, which comprises a bolt. A lock cylinder has been arranged in connection with the lock frame. The lock frame further comprises a power transmission mechanism between the lock cylinder and the bolt. The power transmission mechanism comprises a transmission lever and a latch. The transmission lever additionally comprises a retaining protrusion. The bolt comprises a locking pin and the lock frame additionally comprises a hole for the locking pin. The lock is arranged to allow movement of the lock cylinder and the power transmission mechanism in the direction of the longitudinal axis of the lock cylinder due to an external hit or drilling of the lock cylinder, whereby the movement in the direction of the longitudinal axis moves the retaining protrusion away from the locking pin. Thus, the end of the locking pin moves into the hole in the frame.

The present invention relates generally to the field of cabinet locks. More specifically, the present invention relates to a cabinet lock device primarily comprised of a pendulum housing, a latch housing, a catch housing release, and a door plate that can be attached to a rear door surface of a cabinet door. The door plate further receives the catch housing release. The pendulum and latch housing is further comprised of a latch and a pendulum wherein the pendulum activates a series of internal mechanisms within the pendulum and latch housing when movement of the cabinet is detected, which ultimately releases the latch into the catch housing release such that the cabinet door automatically locks in an automatic fashion. The catch housing release is further comprised of a release lever that can be used to unlock the cabinet from the outside after the device has been locked.

The present invention relates generally to the field of cabinet locks. More specifically, the present invention relates to a cabinet lock device primarily comprised of a pendulum housing, a latch housing, a catch housing release, and a door plate that can be attached to a rear door surface of a cabinet door. The door plate further receives the catch housing release. The pendulum and latch housing is further comprised of a latch and a pendulum wherein the pendulum activates a series of internal mechanisms within the pendulum and latch housing when movement of the cabinet is detected, which ultimately releases the latch into the catch housing release such that the cabinet door automatically locks in an automatic fashion. The catch housing release is further comprised of a release lever that can be used to unlock the cabinet from the outside after the device has been locked.

An electric lock device for furniture or storage has an RFID transmitter/receiver for communication with portable data carriers. A controller detects a data carrier nearby, reads a set of data from it, and determines if the data carrier is at least an access requesting or function determining type. If access requesting, the controller retrieves identity information from the read set of data, compares the identity information to stored reference information, and controls an electric activator for a securing member. If function determining, the controller retrieves function determining information from the read set of data and performs any of the following: switching to any of a plurality of operational modes having different principles for access control; reading an operational status; or setting an operational parameter. At least one of these actions is variable controlled and based on a variable value in the function determining information.

A cabinet lock includes a latch configured to translate between extended and retracted positions and a lever configured to rotate between engaged and disengaged positions. The latch may be coupled to the lever with a pin in a corresponding slot. When the lever is in the disengaged position the latch may be in the extended position and when the lever is in the engaged position the latch may be in the retracted position. The lever includes a ferromagnetic portion responsive to a magnet within a threshold distance, where the presence of the magnet moves the lever to the engaged position.

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.

A magnetic lock which requires only a single magnet for operation, yet which is biased into a locking position. A latch is slideably mounted in a slide way defined by a housing with a latch opening at one end. The latch comprises a magnet at its base, and a latch positioner of ferromagnetic material is positioned within the housing alongside the latch. The positioner is longer than the magnet, such that the magnetic field biases the magnet to locate at the center of the length of the latch positioner. The latch itself is sufficiently long that it projects beyond the latch opening of the housing when the magnet is allowed to center. The slide way is open below the magnet a sufficient distance that when a “key” of a ferromagnetic, or optionally magnetic, material, is located near the base of the housing, the magnet and its associated latch are drawn further into the housing a sufficient distance that the latch is drawn out of the way of an associated catch.

A magnetic lock which requires only a single magnet for operation, yet which is biased into a locking position. A latch is slideably mounted in a slide way defined by a housing with a latch opening at one end. The latch comprises a magnet at its base, and a latch positioner of ferromagnetic material is positioned within the housing alongside the latch. The positioner is longer than the magnet, such that the magnetic field biases the magnet to locate at the center of the length of the latch positioner. The latch itself is sufficiently long that it projects beyond the latch opening of the housing when the magnet is allowed to center. The slide way is open below the magnet a sufficient distance that when a “key” of a ferromagnetic, or optionally magnetic, material, is located near the base of the housing, the magnet and its associated latch are drawn further into the housing a sufficient distance that the latch is drawn out of the way of an associated catch.