An apparatus for window is used for moving a movable window plate among an insertion position for being inserted into an aperture portion of a fixed window plate, an extraction position for being extracted from the aperture portion toward an indoor side, and an opening position for being moved from the extraction position in a sliding direction that is different from an inserting and extracting direction to open the aperture portion. The apparatus includes a rotating shaft rotatably supported at a predetermined position for the movable window plate; a movement conversion mechanism configured to convert a rotation of the rotating shaft into a translation of the movable window plate between the insertion position and the extraction position; and a drive shaft, fixed to the rotating shaft, configured to rotate the rotating shaft around a central axis of the rotating shaft by revolving around the central axis of the rotating shaft.

A side structure for a passenger vehicle has a side element, which at least partially delimits a lateral window opening, and a transparent side window, which is movable relative to the side element between a closed position closing at least a partial region of the window opening and at least one open position opening up the partial region of the window opening. The side structure has a strut which extends in the longitudinal direction of the vehicle and on which the side window is held via a hinge device so as to be movable relative to the side element and relative to the strut in such a manner that the side window is movable outwards in the transverse direction of the vehicle and downwards in the vertical direction of the vehicle from the closed position into the open position.

A side structure for a passenger vehicle has a side element, which at least partially delimits a lateral window opening, and a transparent side window, which is movable relative to the side element between a closed position closing at least a partial region of the window opening and at least one open position opening up the partial region of the window opening. The side structure has a strut which extends in the longitudinal direction of the vehicle and on which the side window is held via a hinge device so as to be movable relative to the side element and relative to the strut in such a manner that the side window is movable outwards in the transverse direction of the vehicle and downwards in the vertical direction of the vehicle from the closed position into the open position.

A roller carriage arrangement for a door or a window of a building, wherein the window or the door has a fixed frame and a leaf which can be released from the fixed frame and which can be displaced relative to the fixed frame together with the roller carriage arrangement.

A fitting arrangement for a sliding window or a sliding door has an actuating mechanism that can be arranged on a sliding sash and that is movable at least with a portion in the rebate circumferential direction, and a first control element that is arranged on the portion of the actuating mechanism, and a second control element that is arranged on a transverse slide. The transverse slide has a locking element, and the control elements interact and are tailored to one another in such a way that, upon a movement of the portion in the locking direction, the locking element is moved away from the sliding sash perpendicularly to a main plane of the sliding window or of the sliding door.

A fitting arrangement for a sliding window or a sliding door has an actuating mechanism that can be arranged on a sliding sash and that is movable at least with a portion in the rebate circumferential direction, and a first control element that is arranged on the portion of the actuating mechanism, and a second control element that is arranged on a transverse slide. The transverse slide has a locking element, and the control elements interact and are tailored to one another in such a way that, upon a movement of the portion in the locking direction, the locking element is moved away from the sliding sash perpendicularly to a main plane of the sliding window or of the sliding door.

A roller carriage arrangement for a door or a window of a building, wherein the window or the door has a fixed frame and a leaf which can be released from the fixed frame and which can be displaced relative to the fixed frame together with the roller carriage arrangement.

An apparatus for window is used for moving a movable window plate among an insertion position for being inserted into an aperture portion of a fixed window plate, an extraction position for being extracted from the aperture portion toward an indoor side, and an opening position for being moved from the extraction position in a sliding direction that is different from an inserting and extracting direction to open the aperture portion. The apparatus includes a rotating shaft rotatably supported at a predetermined position for the movable window plate; a movement conversion mechanism configured to convert a rotation of the rotating shaft into a translation of the movable window plate between the insertion position and the extraction position; and a drive shaft, fixed to the rotating shaft, configured to rotate the rotating shaft around a central axis of the rotating shaft by revolving around the central axis of the rotating shaft.

The present invention relates to a moving window installation structure of a sliding window system. More specifically, the present invention relates to a moving window installation structure of a sliding window system which is configured to prevent a vertical reaction force from being applied between a rail and a roller for supporting the weight of a moving window that constitutes a sliding window having an aluminum alloy sash structure such that the moving window can be smoothly moved in a direction perpendicular to the longitudinal direction of the rail and the sliding mobility of a large-sized window having a heavy weight can be improved, and to improve a profile cross-section structure of a window installation frame provided with a sliding window such that heat insulation can be remarkably improved and wind pressure resistance against wind pressure can be enhanced.

A guide system for movably supporting a cover element for covering an opening in a stationary structure includes a first assembly for arranging on the stationary structure and second assembly for arranging on the cover element. A first guide device allows the two assemblies to be moved relative to each other in a first movement direction, and a second guide device allows the two assemblies to be moved relative to each other in a second movement direction that is transverse, in particular orthogonal, to the first movement direction. A blocking device can be arranged in a blocking position in which a movement of the second assembly along the second movement direction can be braked and/or blocked, and in a release position, in which a movement of the second assembly along the second movement direction is substantially uninfluenced by the blocking device.