A confinement cabin has a load-bearing structure, confinement walls connected to the load-bearing structure to delimit an inner space of the cabin, an access opening to the inner space, and a door connected to the load-bearing structure to close the access opening. The door is movable in opening and closing with a pivoting-tilting movement and has a movable arm which at a first end is rotationally connected to the load-bearing structure to rotate around a hinging axis, and a closing panel rotationally connected to a second end of the movable arm to rotate around a tilting axis. Rotation of the panel around the tilting axis is synchronized with rotation of the movable arm around the hinging axis by an elastic transmission system between a first pulley coaxial to the hinging axis and a second pulley coaxial to the tilting axis. Rotation of the panel around the tilting axis is in the opposite direction to rotation of the movable arm around the hinging axis.

A door device for the interior of a passenger transport vehicle, and a passenger transport vehicle having at least one door device. The device includes a double-leaf sliding door with a first door leaf and a second door leaf in one plane. The door device has an upper guide for the first door leaf and an upper guide for the second door leaf. The guides are parallel with one another, and at least the upper guide for the first door leaf is offset with respect to the plane of the first and the second door leaf.

A door device for the interior of a passenger transport vehicle, and a passenger transport vehicle having at least one door device. The device includes a double-leaf sliding door with a first door leaf and a second door leaf in one plane. The door device has an upper guide for the first door leaf and an upper guide for the second door leaf. The guides are parallel with one another, and at least the upper guide for the first door leaf is offset with respect to the plane of the first and the second door leaf.

A door closure assembly and a method of moving a door is disclosed. The door closure assembly includes a cabinet attachment member attachable to a cabinet, a door attachment member attachable to a door, and first and second arms hingedly attached to the cabinet attachment member and the door attachment member. In some embodiments, the cabinet attachment member is attached to a central portion of the door and the door attachment member is attached to an end portion of the door.

A door closure assembly and a method of moving a door is disclosed. The door closure assembly includes a cabinet attachment member attachable to a cabinet, a door attachment member attachable to a door, and first and second arms hingedly attached to the cabinet attachment member and the door attachment member. In some embodiments, the cabinet attachment member is attached to a central portion of the door and the door attachment member is attached to an end portion of the door.

A flush-mount refrigerator is provided that includes a cabinet defining a compartment and including a pair of side walls that extends forwardly of the compartment. A pair of doors is coupled to the cabinet and positioned on either side of a centerline of the cabinet. The pair of doors are spaced apart by a predetermined spacing. A storage feature is positioned within the compartment of the cabinet and movable between an extended position and a recessed position when one or both of the pair of doors is in an open position. A hinge assembly is coupled to the cabinet and to one of the pair of doors. The hinge assembly includes a six-link mechanism that keeps the door within a predefined distance of at least one side wall when the door is moved from a closed position to the open position.

A flush-mount refrigerator is provided that includes a cabinet defining a compartment and including a pair of side walls that extends forwardly of the compartment. A pair of doors is coupled to the cabinet and positioned on either side of a centerline of the cabinet. The pair of doors are spaced apart by a predetermined spacing. A storage feature is positioned within the compartment of the cabinet and movable between an extended position and a recessed position when one or both of the pair of doors is in an open position. A hinge assembly is coupled to the cabinet and to one of the pair of doors. The hinge assembly includes a six-link mechanism that keeps the door within a predefined distance of at least one side wall when the door is moved from a closed position to the open position.

A refrigerator is provided herein. The refrigerator includes a cabinet defining a compartment. A door is configured to seal the compartment and is operable between open and closed positions. A hinge assembly is operably coupled to the cabinet and to the door. The hinge assembly includes a first link coupled to the cabinet. A second link is pivotable about the first link. A third link is pivotable about the second link and a fourth link. The fourth link is further coupled to the door. A fifth link is pivotable about the second link and the fourth link. A sixth link is pivotable about an intermediate portion of the fifth link and the first link. The sixth link is disposed through a void defined by the fifth link.

A refrigerator is provided herein. The refrigerator includes a cabinet defining a compartment. A door is configured to seal the compartment and is operable between open and closed positions. A hinge assembly is operably coupled to the cabinet and to the door. The hinge assembly includes a first link coupled to the cabinet. A second link is pivotable about the first link. A third link is pivotable about the second link and a fourth link. The fourth link is further coupled to the door. A fifth link is pivotable about the second link and the fourth link. A sixth link is pivotable about an intermediate portion of the fifth link and the first link. The sixth link is disposed through a void defined by the fifth link.

Embodiments of the present invention provide improvements to printers including the use of engineered structures to limit bending, flexing, and/or twisting during impacts and the use of impact absorbing materials to prevent cracks and breaks. Design features and materials add to the rigidity of the printer design to prevent twisting and flexing during impacts and add to the strength of the printer design in typical breakage areas. For example, embodiments provide improvements that strengthen traditional break areas by the use of improved materials and design optimization to distribute impact forces. Embodiments allow the printer to maintain an operational status following a drop test and/or a tumble test.