The disclosure relates to a door handle for a vehicle door which can be installed as such from the door inner side on a handle recess of the outer skin of the vehicle door, wherein the handle unit has a handle module and an especially elongate handle part which is accommodated by the handle module, wherein the handle module has a mechanism for the motorized adjustment of the handle part, wherein the handle unit can be pre-installed on the door. The door handle unit can have a fastening slide which, with the handle unit pre-installed is connected to the handle module on one side and to the motor vehicle door on the other side, wherein for the final installation of the door handle unit an installation movement can be introduced into the fastening slide by a tool in an installation direction from a narrow side of the vehicle door.

Disclosed is a refrigerator. The refrigerator includes a cabinet (10) defining a first storage region (2) in which food is stored, a door (20) rotatably connected to a first rotating shaft (42), located at the front of the cabinet (10), via a first hinge member (40) to open or close the first storage region (2), a gasket (26) provided at the door (20), a container (100) defining a second storage region (52) received in the first storage region (2), the container (100) being rotatably connected to a second rotating shaft, located at the door (20), via a second hinge member (200), a latch member installed to the container (100), and a fastening device (600) provided at the door (20), the fastening device (600) being caught by the latch member to selectively couple the door (20) and the container (100) to each other. The fastening device (600) includes a seal (626) configured to prevent outward movement of cold air through the fastening device (600) in a coupled state of the door (20) and the container (100).

Disclosed is a refrigerator. The refrigerator includes a cabinet (10) defining a first storage region (2) in which food is stored, a door (20) rotatably connected to a first rotating shaft (42), located at the front of the cabinet (10), via a first hinge member (40) to open or close the first storage region (2), a gasket (26) provided at the door (20), a container (100) defining a second storage region (52) received in the first storage region (2), the container (100) being rotatably connected to a second rotating shaft, located at the door (20), via a second hinge member (200), a latch member installed to the container (100), and a fastening device (600) provided at the door (20), the fastening device (600) being caught by the latch member to selectively couple the door (20) and the container (100) to each other. The fastening device (600) includes a seal (626) configured to prevent outward movement of cold air through the fastening device (600) in a coupled state of the door (20) and the container (100).

A refrigerator including an inner door rotatably coupleable to a cabinet to open and close a storage compartment, the inner door having an opening, an outer door rotatably coupleable to the front of the inner door to open and close the opening of the inner door, a hook locking groove formed on the inner door, a manipulation handle provided to be rotatable with respect to a transverse shaft coupleable to the outer door and including a movable contact part, and a locking member provided to be rotatable with respect to a longitudinal shaft coupled to the outer door, wherein the locking member includes a hook lockable to and unlockable from the hook locking groove, and a passive contact part to selectively contact with the movable contact part.

The present disclosure relates to a door handle having a grip with a first end and a second end. The door handle further includes an upper mounting plate coupled to the first end of the grip and a lower mounting plate coupled to the second end of the grip. A mounting post is coupled to the lower mounting plate and is configured to move relative to the lower mounting plate. Means for adjusting the position of the mounting post with respect to the lower mounting plate facilitate movement of the mounting post along at least two axes. The means for adjusting the mounting post may further comprise a rotating arm that is pivotally connected to the lower mounting plate and to which the mounting post is attached.

Opening and closing a door without the use of one's hands is facilitated. For instance, an apparatus can comprise one or two rotatable rings. For a one ring apparatus, the ring can have an opening so that the inner cross section of the opening of the ring can be pushed with a forearm or knee so that the ring will rotate and the person can then pull on the ring with his/her forearm or knee to open the door. In a two-ring apparatus, two adjacent rings, both with openings, can comprise similar push surfaces. When pushed on the pushed surfaces, the rings will rotate and the cross sections of the openings of the rings come into contact with one another, creating a surface against which a forearm or knee can pull on to open the door. A rotation plane converter can turn a doorknob using the apparatus.

Opening and closing a door without the use of one's hands is facilitated. For instance, an apparatus can comprise one or two rotatable rings. For a one ring apparatus, the ring can have an opening so that the inner cross section of the opening of the ring can be pushed with a forearm or knee so that the ring will rotate and the person can then pull on the ring with his/her forearm or knee to open the door. In a two-ring apparatus, two adjacent rings, both with openings, can comprise similar push surfaces. When pushed on the pushed surfaces, the rings will rotate and the cross sections of the openings of the rings come into contact with one another, creating a surface against which a forearm or knee can pull on to open the door. A rotation plane converter can turn a doorknob using the apparatus.

A latch and lock assembly for a double door arrangement having a first door and a second door, in use, being pivotally mounted for movement about either a common pivot axis or closely adjacent parallel pivot axis to a door frame. The latch and lock assembly include: a releasably latching mechanism operatively adapted to releasably latch at least one of the first and second doors to the door frame; a releasable connection mechanism operatively adapted to releasably connect the first door to the second door; and an operating system operatively adapted to control both the latching mechanism and the connection mechanism. The operating system includes an electrical drive operable by an electric power source to drive an actuator that operates the releasable latching mechanism, the releasable connection mechanism, or both.

Assembly (10) for an electronic locking system (84), the assembly (10) comprising an actuating element (12) rotatably arrangable with respect to a base member (16) for rotation about a first axis (18) and rotatably arranged about a second axis (24) substantially perpendicular to the first axis (18), an electric generator (74) comprising a rotor (76), and a transmission arrangement (82) configured to transmit a rotational actuation of the actuating element (12) about the second axis (24) into a rotation of the rotor (76) of the electric generator (74) to generate electric energy.

A handle mechanism used for driving a lock module in operation includes a handle, a linking member and a transmission rod, wherein the linking member is selectively engaged with the handle and the transmission rod. The handle is unable to drive the lock module in operation by the transmission rod driving and prevents the lock module from damage once an excessive force is applied to the handle when the linking member is not engaged with the handle and the transmission rod. Oppositely, the handle is able to drive the lock module in operation by the transmission rod driving when the linking member is engaged with the handle and the transmission rod.