Provided is a method for access control, performed by an access control apparatus, including obtaining access authorization information that is communicated to the access control apparatus having at least one access authorization parameter and first check information; using at least the communicated access authorization parameters, the communicated first check information and a second key from a key pair, which second key is stored in the access control apparatus, to perform a first check on whether the communicated first check information has been produced by performing cryptographic operations by means of access authorization parameters corresponding to the communicated access authorization parameters using at least one first key from the key pair, and deciding whether access can be granted, based on the first check delivers a positive result and it is established that at least one predefined set of the communicated access authorization parameters respectively provides access authorization.

The invention relates to a method for deactivating the locking of at least one door of an accommodating device, said method comprising: effecting the unlocking of the at least one door, measuring the time since at least one event detected by an access-monitoring device of the accommodating device has occurred, and effecting, if the at least one door is open and the measured time exceeds a specified time threshold value, the deactivation of the locking of the at least one door in such a way that the at least one door cannot be locked. The invention further relates to an access-monitoring device, a computer program, an accommodating device, a system, and a use of the accommodating device.

The lockset of the present disclosure includes a housing, a lock body, a first A clamping hook and a second A clamping hook. The housing includes a housing top surface, and the housing top surface includes a lock body embedding opening, and a first A insertion hole and a second A insertion hole which are located in two opposite sides of the lock body embedding opening. The lock body is disposed in the housing and includes a lock body top surface. The first A clamping hook corresponds to the first A insertion hole, and is capable of selectively rotating to open or close the first A insertion hole. The second A clamping hook corresponds to the second A insertion hole, and is capable of selectively rotating to open or close the second A insertion hole. When the lockset is in an unlocked state, the lock body top surface is capable of being pushed by an external force at a position adjacent to the first A insertion hole to generate a downward displacement, so that the first A clamping hook is rotated to enable the first A insertion hole to be open; and the lock body top surface is capable of being pushed by an external force at a position adjacent to the second A insertion hole to generate a downward displacement, so that the second A clamping hook is rotated to enable the second A insertion hole to be open.

A parcel receptacle includes a bottom member, an exterior wall that extends upward from the bottom member and that defines an interior space, and a top member that is coupled with the exterior wall and configured to cover an opening of the receptacle to enclose the parcel within the interior space. The parcel receptacle also includes a lock mechanism that is operably coupled with the top member and the exterior wall. The lock mechanism is lockable to prevent user access to the interior space and is unlockable to enable the top member to be opened to allow user access to the interior space. A vertical lip of the top member overlaps at least a portion of the exterior wall so that a seam between the top member and the exterior wall is covered by the vertical lip.

A slam type locking mechanism is described. The locking mechanism allows a storage container with the locking mechanism to be slammed shut in a single motion. The operator may slam the lid or door to the container using a single hand that is only pressing or pushing the lid or door closed. The slam type locking mechanism includes a lock having a lock housing, a handle, and a spring loading mechanism. The handle is rotatably engaged to the spring loading mechanism. The rods are in a rotational engagement with the lock, wherein the rods have an offset that interacts with a striker on the container or lid in a locking relationship.

A locking apparatus (3) for securing a luggage article (1) comprises a mechanism for unlocking the locking apparatus (3) including at least one moveable member (11, 12, 13) which is moveable in an unlocking operation. The locking apparatus (3) has at least one detector arrangement (42, 49, 55a, 55b) associated with at least one moveable member (11, 12, 13) by at least one linkage (19, 37a, 37b, 41) between the detector arrangement (42, 49, 55a, 55b) and the moveable member (11, 12, 13), the linkage (19, 37a, 37b, 41) triggers the detector arrangement (42, 49, 55a, 55b) upon the movement of the moveable member (11, 12, 13).

A closing assembly is provided for a luggage case, particularly a top case for a motorized two-wheeled vehicle, which can be mounted on a support. The closing assembly has at least one base plate and a lock mechanism, which is mounted on the base plate and has at least a first and a second movable bolt structure. One of the bolt structures can be coupled to a cover of the luggage case, while the other bolt structure can be coupled to a mounting of the luggage case on the support. The first bolt structure is locked and unlocked by a push function and the second bolt structure is locked and unlocked by a rotary function of the lock mechanism.

The invention relates to locking devices, more particularly, gravity actuated locking devices, e.g., for waste containers. The locking device is designed to be fixed to a container and contains a gravity operated locking mechanism and a locking unit that couples the gravity operated locking mechanism to a locking bar. The locking bar allows the lid of the container to be blocked or opened depending upon the relative position of the locking bar to the lid. In the blocked position, the locking bar sits over the lid and does not allow it to be opened. In the opened position, the locking bar is removed from the lid and allows the lid to be opened. When in the container is in the upright position, the parts of the locking device cooperate to block the locking bar from being moved from the blocked position. However, when the container is tilted forward, e.g. for emptying the content of the container, gravity, acting on the parts of the locking device, allows the locking bar to be moved to the opened position.

A multimode electronic lock is disclosed. The lock has three mechanical flag members which move so as to break light beams and detect the position of the flag members, sending a signal to an electronic lock controller. This allows the electronic lock controller to accurately and reliably determine whether the lock is in a locked or unlocked state, regardless of whether an electronic lock/unlock command or a mechanical key and tumbler mechanism was last used to lock or unlock it. Optional features which allow the locking assembly to be secured from transient accelerations/impacts and to move in highly consistent and controllable ways are also disclosed. The electronic lock controller can accept lock/unlock commands from a smartphone or other pairable device, and can lock or unlock the lock according to preprogrammed schedules and/or proximity of the paired device.

A magnetic buckle device has a first base, a major inserting head, a second major base, two major components, and a controlling assembly. The major inserting head can be inserted into the first base to engage and lock. The second major base and the first base can be moved or rotated with respect to each other such that the major inserting head enters a disengaging state. The two major components are respectively mounted on the second major base and the major inserting head. When the major inserting head is close to a major insertion hole of the first base, a magnetic force is generated between the two major components to guide the major inserting head to close the major insertion hole and assist the major inserting head in inserting. After the major inserting head is inserted, the magnetic force also assists the major inserting head in staying in the engaging state.