A locking mechanism is applicable to an intelligent cabinet system having a first object and a second object movable relative to each other. The second object is configured to be located at one of a retracted position, a predetermined extension position and an open position. The locking mechanism includes a locking member and a driving device. The driving device is configured to drive the locking member to move from a first predetermined position to a second predetermined position. When the second object is moved relative to the first object from the retracted position along a direction and when the locking member is located at the second predetermined position, the locking member is configured to block the second object at the predetermined extension position. The predetermined extension position is located between the retracted position and the open position.

A locking mechanism is applicable to an intelligent cabinet system having a first object and a second object movable relative to each other. The second object is configured to be located at one of a retracted position, a predetermined extension position and an open position. The locking mechanism includes a locking member and a driving device. The driving device is configured to drive the locking member to move from a first predetermined position to a second predetermined position. When the second object is moved relative to the first object from the retracted position along a direction and when the locking member is located at the second predetermined position, the locking member is configured to block the second object at the predetermined extension position. The predetermined extension position is located between the retracted position and the open position.

A process and apparatus for providing a cabinet security system is disclosed. The system includes a magnetic lock to be mounted on a movable cabinet panel and a catch that is mounted on a cabinet frame and configured to engage the magnetic lock to hold the cabinet panel in a closed position relative to the cabinet frame.

A process and apparatus for providing a cabinet security system is disclosed. The system includes a magnetic lock to be mounted on a movable cabinet panel and a catch that is mounted on a cabinet frame and configured to engage the magnetic lock to hold the cabinet panel in a closed position relative to the cabinet frame.

A tool chest may include a base portion, two opposing sidewalls, a drawer portion and a lid. The sidewalls extend substantially parallel to each other on opposite sides of the base portion to define a tool repository between the sidewalls. The lid has a closed position covering a top of the tool chest, and an open position in which access is provided to the tool repository. The drawer portion is slidable to at least partially remove the drawer portion from the base portion. The drawer portion is automatically locked by closing the lid via a locking assembly that is operable configured to automatically unlock with the lid is open unless the locking assembly is retained in a locked position.

A tool chest may include a base portion, two opposing sidewalls, a drawer portion and a lid. The sidewalls extend substantially parallel to each other on opposite sides of the base portion to define a tool repository between the sidewalls. The lid has a closed position covering a top of the tool chest, and an open position in which access is provided to the tool repository. The drawer portion is slidable to at least partially remove the drawer portion from the base portion. The drawer portion is automatically locked by closing the lid via a locking assembly that is operable configured to automatically unlock with the lid is open unless the locking assembly is retained in a locked position.

A tubular lock for push locking has a lock housing, a switching handle mounted in a front end portion of the lock housing, an upper pin seat and a lower pin seat mounted in the lock housing and the switching handle, and multiple pin assemblies and a core shaft mounted in the upper pin seat and the lower pin seat. A key is only needed when unlocking the tubular lock, and then the tubular lock can be locked by pushing the core shaft. The tubular lock can be used to latch a pivotal mechanism. When the tubular lock is in an unlocking state, the user can switch the latch to the locking angular position or an unlocking angular position by turning the switching handle without using the key. Therefore, flexibility and convenience in using the tubular lock can be efficiently improved.

A tubular lock for push locking has a lock housing, a switching handle mounted in a front end portion of the lock housing, an upper pin seat and a lower pin seat mounted in the lock housing and the switching handle, and multiple pin assemblies and a core shaft mounted in the upper pin seat and the lower pin seat. A key is only needed when unlocking the tubular lock, and then the tubular lock can be locked by pushing the core shaft. The tubular lock can be used to latch a pivotal mechanism. When the tubular lock is in an unlocking state, the user can switch the latch to the locking angular position or an unlocking angular position by turning the switching handle without using the key. Therefore, flexibility and convenience in using the tubular lock can be efficiently improved.

Runner assembly 10 for carrying a receptacle 12 towards and away from a structure 14. The runner assembly 10 includes: at least one pair of first bearings 16, each first bearing 16 being mountable to the structure 14 so that the first bearings 16 of the, or each, pair are spaced apart; an elongate runner 18 defining a longitudinal length and having an opposed pair of first tracks 22 spaced from each other, each first track 22 configured to cooperate with the first bearings 16 to allow the runner 18 to be carried by the first bearings 16; at least one second bearing 24 mounted to the runner 18; and an elongate track member 26 mountable to the receptacle 12, the track member 26 having a second track 28 defining at least one pair of opposed bearing surfaces 30, 31 spaced from each other and configured to cooperate with the at least one second bearing 24 to allow the track member 26 to be carried by the at least one second bearing 24.

A door locking mechanism for a sterilizer that minimizes the occurrence of jamming during operation, and that can be manually actuated if necessary. The door locking mechanism abuts the door of the sterilizer, and comprises a locking arm hingedly connected to a frame to permit the locking arm to move between a locked position and an unlocked position, the locking arm having a cutaway portion, the cutaway portion permitting an extendible portion of the door to extend therethrough; a sensor arm arranged adjacent to the locking arm, the sensor arm being flexible to permit the sensor arm to be at least partially displaced away from the locking arm in response to applied pressure to the sensor arm from the extendible portion of the door as it passes through the cutaway portion; a motor in communication with the operating system; a camshaft actuated by the motor; a cam attached to the camshaft, the cam being in contact with the locking arm to move the locking arm between the locked position and the unlocked position; a closing switch positioned within the locking mechanism to detect displacement of the sensor arm, the closing switch being in communication with an operating system of the sterilizer such that when the closing switch detects displacement of the sensor arm it signals to the operating system that the door is in a latched position; and a locking switch positioned within the locking mechanism to detect movement of the locking arm into the locked position, the locking switch being in communication with the operating system such that when the locking switch detects the movement of the locking arm into the locked position it signals to the operating system that the door is in the locked position.