An anti-barricading turn hub assembly is configured for use with a lockset including a bolt movable to lock and unlock a door. The anti-barricading turn hub assembly includes a spindle connected to a thumb turn on one side of the lock. The spindle is releasably engaged to a turn hub that is operable by the key from the other side of the door. Under normal operation, the spindle and turn hub rotate together to lock and unlock the bolt. In a barricading situation in which the thumb turn is held to prevent the turn hub assembly from rotating, the turn hub disengages from the spindle upon application of sufficient force through rotation of the key, and the disengaged turn hub can be rotated to unlock the bolt even if the thumb turn is held to keep the spindle from rotating.

The present application relates to a handle arrangement (1) for a door (10), comprising a handle (2) and a locking clamp (3) for engaging a locking element on a door frame (70). The locking clamp is arranged to rotate around a first axis (A) from a locking to an intermediate position and to move linearly along a second axis (B) from the intermediate to an open position, when the handle is moved between a closed, intermediate, and open state. The arrangement comprises a resilient means (8) arranged to keep the locking clamp from moving from the intermediate position towards the open position until a force applied in the direction of the linear movement of the locking clamp towards the open position exceeds a resilient force of the resilient means. With this arrangement, a handle arrangement which may be opened in several steps is provided such that the opening of a door may be performed in a controlled manner.

A latch assembly is provided with a child lock mechanism having a spring system including a first spring member and a separate second spring member that requires a first force to move the child lock mechanism from an off position to an on position and a second force to move the child lock mechanism from the on position to the off position, wherein the required second force is greater than the required first force, thereby indicating to a user by tactile feedback the relative position (on/off) the child lock mechanism is in, thereby assuring intended movement of the child lock mechanism from one of the on/off positions to the other.

The invention is directed to a latch assembly for use with a top cap for connecting the top cap to a container body. The latch assembly includes a latch having a latch body with a planar portion and an arcuate portion. A snap hook and a pull tab is connected to an end of the arcuate portion. The latch also includes a clasping portion for securing it to a ramp on the top cap and a spring element.

A door locking apparatus is provided including a first plate, a second plate, a front assembly, a lock clip, and at least one control. The first plate includes at least one vertical slot. The lock clip is rotatably attached to the front assembly and includes at least one horizontal slot in a first end. The at least one control is mounted to the first plate and includes at least one protrusion. The at least one protrusion projects through the at least on vertical slot and through the at least one horizontal slot. The at least one control moves vertically between a first position and a second position. The lock clip is in an open position when the at least one control is in the first position and a locked position when the at least one control is in the second position.

A signal feedback device used for an automotive locking apparatus is provided, comprising a car power supply, a motor, a transmission, an actuating lever, a signal feedback module, and a body control module. The signal feedback module is provided with a first feedback circuit, a second feedback circuit, and a third feedback circuit. The first feedback circuit is connected in series to a first resistor and a first on-off switch. The second feedback circuit is connected in series to a second resistor and a second on-off switch. The third feedback circuit is connected in series to a third resistor. The actuating lever is provided with a touch spot, and the corresponding circuits are turned on under driving of linear movement of the actuating lever, to provide different signal feedbacks. When the locking apparatus is abnormal or is powered off, an abnormal state signal can be detected, and the body control module can make logic judgment under the different states according to different measured resistance values, so that the situation of misjudgment caused by confusion of signals is avoided.

An anti-barricading turn hub assembly is configured for use with a lockset including a bolt movable to lock and unlock a door. The anti-barricading turn hub assembly includes a spindle connected to a thumb turn on one side of the lock. The spindle is releasably engaged to a turn hub that is operable by the key from the other side of the door. Under normal operation, the spindle and turn hub rotate together to lock and unlock the bolt. In a barricading situation in which the thumb turn is held to prevent the turn hub assembly from rotating, the turn hub disengages from the spindle upon application of sufficient force through rotation of the key, and the disengaged turn hub can be rotated to unlock the bolt even if the thumb turn is held to keep the spindle from rotating.

The present application relates to a handle arrangement (1) for a door (10), comprising a handle (2) and a locking clamp (3) for engaging a locking element on a door frame (70). The locking clamp is arranged to rotate around a first axis (A) from a locking to an intermediate position and to move linearly along a second axis (B) from the intermediate to an open position, when the handle is moved between a closed, intermediate, and open state. The arrangement comprises a resilient means (8) arranged to keep the locking clamp from moving from the intermediate position towards the open position until a force applied in the direction of the linear movement of the locking clamp towards the open position exceeds a resilient force of the resilient means. With this arrangement, a handle arrangement which may be opened in several steps is provided such that the opening of a door may be performed in a controlled manner.

A door locking apparatus is provided including a first plate, a second plate, a front assembly, a lock clip, and at least one control. The first plate includes at least one vertical slot. The lock clip is rotatably attached to the front assembly and includes at least one horizontal slot in a first end. The at least one control is mounted to the first plate and includes at least one protrusion. The at least one protrusion projects through the at least on vertical slot and through the at least one horizontal slot. The at least one control moves vertically between a first position and a second position. The lock clip is in an open position when the at least one control is in the first position and a locked position when the at least one control is in the second position.

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.