Provided is a refrigerator having an opening/closing device with an improved structure which allows a storage box to be automatically inserted and withdrawn according to the opening and closing of a door and allows the storage box to be further pushed backward while the door is closed. The refrigerator includes a main body, a storage chamber having a front side that is open, and provided at an inside with a storage box that is movable in a front-rear direction, a door rotatably coupled to the main body to open and close the storage chamber, and provided at a rear surface with a pusher that protrudes in a direction toward the storage chamber, and an opening and closing device provided at one side of the storage box, and formed to allow the storage box to be moved in the front and rear direction according to the opening and closing of the door, wherein the opening and closing device includes a rack gear configured to move in a front and rear direction according to the opening and closing of the door, a locking member rotatably coupled to the rack gear to be locked with and released from the storage box, the locking member configured to move in the front and rear direction together with the rack gear, and a catcher configured to rotate to be caught with and released from the pusher according to the opening and closing of the door, wherein the catcher is rotated to be caught with the pusher when the door is a closed state to push the rack gear such that the rack gear is moved backward.

Provided is a refrigerator having an opening/closing device with an improved structure which allows a storage box to be automatically inserted and withdrawn according to the opening and closing of a door and allows the storage box to be further pushed backward while the door is closed. The refrigerator includes a main body, a storage chamber having a front side that is open, and provided at an inside with a storage box that is movable in a front-rear direction, a door rotatably coupled to the main body to open and close the storage chamber, and provided at a rear surface with a pusher that protrudes in a direction toward the storage chamber, and an opening and closing device provided at one side of the storage box, and formed to allow the storage box to be moved in the front and rear direction according to the opening and closing of the door, wherein the opening and closing device includes a rack gear configured to move in a front and rear direction according to the opening and closing of the door, a locking member rotatably coupled to the rack gear to be locked with and released from the storage box, the locking member configured to move in the front and rear direction together with the rack gear, and a catcher configured to rotate to be caught with and released from the pusher according to the opening and closing of the door, wherein the catcher is rotated to be caught with the pusher when the door is a closed state to push the rack gear such that the rack gear is moved backward.

A refrigerator includes a cabinet defining a storage chamber, a drawer door, a motor assembly provided at the storage chamber and configured to provide a driving force that moves the drawer door relative to the storage chamber, and a rack gear assembly provided at the drawer door and having an extendable rack gear. The rack gear includes a fixed rack fixed to the drawer door and a moving rack slidably coupled to the fixed rack. The drawer door includes a drawer part that defines an upwardly open storage space, and a door part that is configured to, based on the drawer door being inserted into the storage chamber, close the storage chamber.

A refrigerator includes a cabinet defining a storage chamber, a drawer door, a motor assembly provided at the storage chamber and configured to provide a driving force that moves the drawer door relative to the storage chamber, and a rack gear assembly provided at the drawer door and having an extendable rack gear. The rack gear includes a fixed rack fixed to the drawer door and a moving rack slidably coupled to the fixed rack. The drawer door includes a drawer part that defines an upwardly open storage space, and a door part that is configured to, based on the drawer door being inserted into the storage chamber, close the storage chamber.

A furniture fitting for mounting, preferably movably, a first furniture part onto a second furniture part, includes a metal piece made from sheet metal, more particularly a connecting piece, having two faces spaced apart from one another by a material thickness of the sheet metal. The two faces have a regular arrangement of successive elevations and depressions, and one elevation on one of the two faces lies opposite a depression on the other of the two faces, and vice versa.

A furniture fitting for mounting, preferably movably, a first furniture part onto a second furniture part, includes a metal piece made from sheet metal, more particularly a connecting piece, having two faces spaced apart from one another by a material thickness of the sheet metal. The two faces have a regular arrangement of successive elevations and depressions, and one elevation on one of the two faces lies opposite a depression on the other of the two faces, and vice versa.

A furniture damper includes a damper housing, a fluid chamber therein, a damping fluid therein, and a piston displaceably supported within the fluid chamber. A switch element can be moved, when a damping stroke is below a predetermined pressure threshold value, into a first position in which the channel of the piston is at least partially covered by the switch element and a first flow rate of the damping fluid streams through a channel of the piston. The switch element is also configured to be moved, when the damping stroke is above the predetermined pressure threshold value, from the first position into a second position in which the channel of the piston is at least partially unblocked by the switch element and a second flow rate of the damping fluid streams through the channel of the piston, with the second fluid rate being larger than the first fluid rate.

A drawer rail for a drawer pull-out guide, including a first rail configured to be fixed to a drawer, and a second rail configured to be arranged on a carcass rail or on a central rail of a drawer pull-out guide. The first rail and the second rail are configured to be connected to one another by sliding onto each other, and a spring member is arranged on the first or second rail. A protrusion is arranged on the other rail, the position of which on and/or the extension of which along the other rail is chosen such that the protrusion, in a connected condition of the first and second rail, co-operates with the spring member so as to limit transverse movements of the two rails to one another.

A drawer rail for a drawer pull-out guide, including a first rail configured to be fixed to a drawer, and a second rail configured to be arranged on a carcass rail or on a central rail of a drawer pull-out guide. The first rail and the second rail are configured to be connected to one another by sliding onto each other, and a spring member is arranged on the first or second rail. A protrusion is arranged on the other rail, the position of which on and/or the extension of which along the other rail is chosen such that the protrusion, in a connected condition of the first and second rail, co-operates with the spring member so as to limit transverse movements of the two rails to one another.

A slide rail assembly includes a first rail, a second rail, a returning device and a connecting device. The returning device is arranged on the first rail and includes an elastic member and a movable member. The connecting device is arranged on the second rail and includes a first connecting member and a second connecting member. During a process of the second rail being moved relative to the first rail from an extended position along a retracting direction, the second connecting member is configured to contact the movable member, in order to drive the movable member to switch from a second state to a first state. Accordingly, the second rail is configured to be driven to move to a retracted position by an elastic force of the elastic member.