PL73346Y1 - Set covering the combination of at least two windows - Google Patents

Abstract

The subject of the design is a unit covering the combination of at least two windows: the upper (3) and the lower (4), each made of a sash with a glazing unit and a common frame, and the covering unit is composed of subassemblies, so that each window is assigned one covering subassembly. : upper (1) and lower (2), the upper covering subassembly (1) is mounted on the upper window (3), and the lower covering subassembly (2) is mounted on the lower window (4), and on the lower window (4) located in the combination under the upper window (3) with the upper covering subassembly (1), there is a lower covering subassembly called the lower angular subassembly (2), which is made of angle strips (21), the ends of which are rotatably mounted in the recesses of the side guides (22) of this component, and the angular position of the corner strips (21) in relation to the glass unit of this window is variable.

Description

Description of the pattern The subject of the utility model is a unit covering a combination of windows, especially roof windows, where the covering unit is composed of upper and lower subassemblies, so that each window is assigned one covering subassembly. There is a known solution DE20206327U1, in which the authorized person disclosed a unit covering the combination of two roof windows. Each window has an independent covering subassembly of a similar design, i.e. it has a cassette with a roller on which the covering material is rolled, in this case slats connected to each other. The cassette of the first window is attached to one of the window frames, while the cassette of the second window is mounted in the place where the windows are joined, largely overlapping the glazing unit of the second window. There is also a known solution from the German application DE102014014342A1, which presents a roof window roller blind composed of a box with a drive shaft and a covering material, which is a strip material, rolled up or lowered along the side guides at a certain height of the window. A spring shaft with wound covering material in the form of an awning is held on the end strip of the covering material, which serves to cover the remaining part of the window. There is also a known solution published in the patent PL219780B1, presenting an external roller blind for a roof window with an external cassette, inside which there is a roller on which the covering material is rolled. The covering material, in the form of a flexible material, is guided along the window in two side guides manually or by means of a drive. Side guides enable the window to be opened in both tilt and rotation modes. The essence of the design is a covering unit, intended to cover the combination of at least two windows. One of the combination windows has a sash with a glazing unit, which is embedded in the frame and suspended in it using hinges that enable its sash to rotate around the axis of rotation parallel to one of the window frames. The hinge connection of the sash and frame allows the window to be opened tilting and/or rotating. In a tilting window, the rotation axis is located at one of the window frames, and in a pivot window, the rotation axis is located between two of its frames. In a pivot window, in its open position, the upper part of the sash, located above the axis of rotation, is inside the room, and the lower part of the sash, located below the axis of rotation, is outside the room. The second window may be a non-opening window composed of at least one frame constituting a frame with a glazing unit. Preferably, in a combination of windows installed in the roof, the opening window is located above the non-opening window. Each window is assigned a covering component: upper or lower, and the names of the components result from the direction of the roof slope in which the roof window combination is mounted. Therefore, the upper subassembly is attached to the upper window of the combination, located above the second, lower window in the combination, and the lower subassembly is attached to the lower window located below the upper window. The upper, especially cassette, component of the window is a roller shutter with a structure analogous to the structure of the roller shutter presented in the PL219780B1 patent. It is made of a covering material consisting of cassette slats connected to each other using flexible connectors and mounted in a sliding manner in the recesses of the side guides of the component attached to the side frames of the window. The cassette strips are not covered, wound on a shaft and hidden in the cassette of the cassette subassembly. The cassette is attached to one of the frames of the window frame. For an opening window, the side guides of the cassette subassembly are mounted rotatably with the cassette and the frame stile located on the opposite side of the cassette, in such a way that when the window is opened, the roller blind cassette slats together with the guides lift up relative to the window. For pivot-opening windows, the side guides can be divided along their length, generally in the area of the sash rotation axis, in such a way that the lower part of the assembly covering the lower part of the sash rises with the window towards the outside of the room, and the upper part of the component remains in a plane parallel to the plane of the window frame. The cassette strips of the cassette subassembly are guided along the guides manually or by means of a drive. The electrical energy needed to control the component automatically is generated in the cassette's photovoltaic panel, which converts solar energy into electrical energy, or the component is connected directly to a constant power source. The lower component, especially the angular one, is a blind made of angle slats mounted in a rotating manner with the side guides of this subassembly. The mentioned swivel connection allows you to change the angular position of the component's corner strips in relation to the surface of the window glazing. The angular position of the angle strips is determined according to the user's needs and may be a position that completely covers the window, in which the angle strips occupy a position at most parallel to the surface of the glazing unit, as well as intermediate positions, resulting in a gradual reduction in the degree of window covering. The cassette strips of the cassette subassembly can also be rolled up using a pull cord, completely exposing the window with this subassembly. Similarly to the cassette component, the position of the angle slats of the angle component can be controlled manually or using an external source of electricity, e.g. by connecting the blinds to a power source in the room. In both cases, the ends of the strips are connected to each other by a system of at least two strands. The cables act as a means of guiding the movement of the corner strips. The blind can also be equipped with a tensioner that guarantees appropriate tension of the blind's tendons. The upper subassembly can also be used as an angular subassembly. When the windows are closed, the corresponding side guides of the components are located in one plane, but they are unconnected elements, so the covering components work independently. It is advantageous that the lower subassembly is an angular subassembly without a cassette, which would cover the transparent surface of the lower window, i.e. the glazing unit, limiting the aesthetic and functional properties of the window. The solution is presented in the drawing, which shows: Fig. 1 - covering unit, in a position covering both windows of the anastomosis, which are in the closed position, in a three-dimensional view, Fig. 2 - covering unit, being in a position covering both windows of the anastomosis , of which in the open state there is a window with a cassette subassembly, in a three-dimensional view, Fig. 3 - a covering unit which is in a position exposing both windows of the combination being in a closed state, in a three-dimensional view. The covering unit serves as protection against excessive sunlight in the rooms and is intended to be mounted on roof windows that are part of a combination. A special case of such a window is the double-sash window of the "Galeria FGH" type, manufactured by FAKRO. The covering unit is composed of two subassemblies: the upper subassembly 1 and the lower subassembly 2. The upper covering subassembly 1 shown in Fig. 1 is a cassette subassembly composed of cassettes 11, cassette slats 12 connected to each other by means of a flexible connector. The ends of the cassette slats 12 are located in the side guides 13, mounted on the side frames of the upper window 3 of the combination is shown in Fig. 2. The structure of the upper cassette subassembly 1 is identical to the structure of the roller shutter unit with guides presented in the patent PL219780B1. The lower window 4 of the combination is equipped with a lower angular subassembly 2, which is composed of angle strips 21, of which the ends are hidden in the side guides 22. The ends of the angle strips 21 are mounted in the side guides 22 in an articulated and sliding manner. Fig. 3 shows the combination of windows: upper 3 and lower 4, whose components are in a position exposing the glass units. PL