A gate includes a gate barrier, an upper hinge configured to rotatably support the gate barrier about a rotation axis, and a lower hinge configured to rotatable support the gate barrier about the rotation axis. The upper hinge portion may include a first upper hinge portion having a first receptacle and a first ramp disposed adjacent the first receptacle, and a second upper hinge portion having an upper hinge projection configured to engage the first receptacle to inhibit rotation of the first upper hinge portion. The lower hinge may include a first lower hinge portion coupled to the gate barrier, the first lower hinge portion having a receptacle and a lower hinge projection extending from a base of the receptacle, and a second lower hinge portion having an annular projection configured to engage the receptacle and receive the lower hinge projection.

A cooking appliance includes a door for closing a cooking compartment and a guide device which guides the door when moving into and out of a stowage compartment and includes a guide track in a stowage-compartment delimiting wall and a guide carriage connected to the door and including a guide runner guided in the guide track and connected to a connecting rod of the guide carriage. A door-opening device automatically moves the door between closed and open positions and includes a coupling rod which is mechanically coupled directly to the connecting rod such as to permit a relative movement between the coupling rod and the connecting rod, and which is mounted for rotation about an axis of rotation oriented in a heightwise direction so that, when the coupling rod is pivoted about the axis of rotation, the connecting rod is carried along in a depthwise direction of the cooking appliance.

A fenestration unit such as a door operable in a sliding mode and a bi-fold folding mode. Examples include a frame, a first panel, a second panel, and one or more fold hinges releasably pivotally connecting a second side portion of the first panel to a first side portion of the second panel and defining a folding axis. In the sliding mode (1) the fold hinges are configured to disconnect the first and second panels, (2) the first panel is in a closed position with respect to the frame, and (3) the second panel is configured to slide along a path generally parallel to the first panel between a closed position and a sliding open position. In the folding mode (1) the fold hinges are configured to pivotally connect the second side portion of the first panel and the first side portion of the second panel, and (2) the first panel and second panel fold with respect to one another about the folding axis with the first panel pivoting with respect to the frame and the second panel sliding and pivoting with respect to the frame as the first and second panels move between the closed positions and folding open positions.

A cooking appliance may have side-by-side, outwardly-opening doors. The doors may be operatively coupled to each other such that they rotate together and also translate together into respective storage slots on either side of an appliance cavity. Translation into the storage slots may include guiding respective roller carriages of the doors along tracks in the storage slots.

A guide system for guiding at least one movably-supported door wing, in particular a folding-sliding-door, relative to a stationary furniture part. The guide system includes a carrier for movably supporting the at least one door wing, a guide rail configured to be fixed to the stationary furniture part for guiding the at least one carrier, a guiding device for displaceably supporting the at least one carrier along the guide rail, a running carriage configured to be coupled to the at least one door wing, and a receiving device for receiving the at least one running carriage. The receiving device adjoins the carrier in a longitudinal direction of the carrier, and the receiving device is movably supported relative the carrier in the longitudinal direction of the carrier.

A mainframe door assembly for a frame is provided. The mainframe door assembly includes a door having opposed first and second sides and first and second mount assemblies. The first and second mount assemblies are configured to mount the first and second sides of the door to the frame, respectively, such that the door can occupy and move between an installed position and a loading position. In the installed position, the door is flush with the frame. In the loading position, the first mount assemblies support and the second mount assemblies permit a swinging of the door about the first side or the second mount assemblies support and the first mount assemblies permit a swinging of the door about the second side.

Disclosed are front entry cabs, and power machines with front entry cabs, having a door that is moveable between opened and closed positions. In the opened position, the door is positioned within an operator compartment of the cab above the operator seat and below a top of the cab. A linkage system defines the travel path of the door between closed and opened positions. The linkage system is configured to minimize interference with operator visibility.

A fenestration unit such as a door operable in a sliding mode and a bi-fold folding mode. Examples include a frame, a first panel, a second panel, and one or more fold hinges releasably pivotally connecting a second side portion of the first panel to a first side portion of the second panel and defining a folding axis. In the sliding mode (1) the fold hinges are configured to disconnect the first and second panels, (2) the first panel is in a closed position with respect to the frame, and (3) the second panel is configured to slide along a path generally parallel to the first panel between a closed position and a sliding open position. In the folding mode (1) the fold hinges are configured to pivotally connect the second side portion of the first panel and the first side portion of the second panel, and (2) the first panel and second panel fold with respect to one another about the folding axis with the first panel pivoting with respect to the frame and the second panel sliding and pivoting with respect to the frame as the first and second panels move between the closed positions and folding open positions.

An arrangement for guiding a sliding door or folding-sliding door on a furniture wall includes a first guide system to be fastened on the furniture wall and a second guide system to be fastened on the furniture wall at a vertical distance from the first guide system. The two guide systems each have at least one guide and a guide body which is displaceably mounted on the guide, and a carrier on which the sliding door or folding-sliding door is to be fastened and which is connected in a movement-coupled manner to the two guide bodies of the guide systems. The carrier is assembled in the vertical direction from at least two carrier portions, and the at least two carrier portions can be releasably connected.

A door assembly is provided for which can alternate between a pivoting and a sliding configuration. The door assembly can include a door panel, a track, a first carriage assembly, a second carriage assembly, and a locking mechanism. The first and second carriage assembly can connect the door panel to the track. The first and second carriage assemblies can be slidably movable on the track, and the first carriage assembly can further include a pivot mechanism that pivotably couples the door to the track. The locking mechanism can configure the door between the sliding and pivoting configurations. For example, the locking mechanism can mechanically couple the door panel to the second carriage assembly in the sliding configuration and mechanically decouple the door from the second carriage assembly in the pivoting configuration.