| 主权项 |
1. A moving window installation structure of a sliding window system of an aluminum alloy sash, the moving window installation structure comprising:
a window frame (100) including an inner frame (100a) and an outer frame (100b) which are made of an aluminum alloy material, and a thermal break (100c1) which interconnects the inner and outer frames and is made of a synthetic resin, the window frame (100) being installed in a rectangular loop shape in a building wall and a rail guide being installed in a horizontal direction on a bottom surface of the window frame (100); a fixed window (200) and a moving window (300) as window members installed within the window frame (100), each of which includes an inner frame (200a, 300a) and an outer frame (200b, 300b) which are configured to support a window panel (200g, 300g), such as a glass window, and is made of an aluminum alloy material, and a thermal break (200c, 300c) which interconnects the inner and outer frames and is made of a synthetic resin; a moving window sealing frame (100d) including, on a front surface, a first thermal break sealing member (100s), the moving window sealing frame (100d) being made of an aluminum alloy material and provided in a rectangular loop shape in a moving window closing region inside the outer frame (100b) of the window frame to interconnect the inner frame (100a) and the outer frame (100b); a roller device (400) installed below the moving window (300) to be separated from the moving window (300) so as to provide a vertical sliding movement of the moving window (300) along the length of the rail guide 100r of the window frame (100) for sealing in relation to the moving window sealing frame (100d); a moving window horizontal-moving device (500) installed in an inner pocket of the lower frame (300d) of the moving window (300) to conduct a horizontal sliding movement for sealing across the rail guide (100r) such that a second thermal break sealing member (310s) which is provided on a rear surface of the moving window (300) by separating the moving window (300) from the roller device (400) comes in contact with the first thermal break sealing member (100s) of the moving window sealing frame (100d); and a vertical sliding unit (600) provided between a top surface of the roller device (400) and a bottom surface of the lower frame (300d) of the moving window (300) so as to guide rolling movement while allowing only a moving displacement of the lower frame (300d) of the moving window (300) orthogonal to the rail travel direction of the rail guide (100r) in relation to the top surface of the roller device (400), so that a vertical component force is not applied to the roller device (400) while the moving window (300) conducts a sealing sliding movement across the rail guide (100r) by the operation of the moving window horizontal-moving device (500), and the moving window (300) and the roller device (400) can travel integrally while the moving window (300) is moved along the longitudinal direction of the rail guide (100r), wherein a thermal break (100c1), which is made of a synthetic resin material and installed to interconnect the inner frame (100a) and the outer frame (100b) that constitute the window frame (100) in a heat transfer blocking manner, and a thermal break (100c2), which is made of a synthetic resin material and installed to interconnect the moving window sealing frame (100d) connected to the outer frame (100b) and the inner frame (100a) in a heat transfer blocking manner, are arranged such that the installation directions of the thermal breaks (100c1, 100c2) are orthogonal to each other, and thus the inner frame (100a), the outer frame (100b), the moving window sealing frame (100d), and the inner frame (100a) are connected in a rectangular loop shape through the thermal breaks (100c1, 100c2: 100c) so as to form a thermal insulation air layer (300i) therein. |
