CH691696A5 - Window. - Google Patents

Description

       

  



  The present invention relates to a window which includes a window frame, at least one pane and a pane frame. In spite of the rapid development in the thermal insulation properties of glazing and frames in recent years, the windows on a building basically remain heat holes. In the Central European climate, around a third of the heating energy in the house is lost through the windows. The problem with the window is the frame in particular. While the frame used to have the better thermal insulation coefficient (k-value) than the glazing, today it is the other way around, because the glazing technology has made great progress. Today, double glazing is mostly used, sometimes even triple glazing, and the air in the spaces is often replaced as much as possible with noble gases such as krypton or xenon.

   These offer better moisture behavior to avoid condensation and have a lower thermal conductivity than air. In many countries there are thermal insulation regulations for new buildings and old building renovations. In Switzerland, thermal insulation glazing with a minimum k value of 1.8 watts / m <2> K is required. The best triple heat protection glasses achieve k values around 0.4 watts / m 2 K, with the gaps filled with expensive xenon. However, the best glazing does not help if the frame is unsuitable. The tightness of the connection between the pane and frame on the one hand and the connection of the frame to the window reveal are of particular importance. If these transitions are not carried out carefully, the insulating effect of the glazing can be reduced by up to 70%.

   The wooden frames insulate best, are comparatively inexpensive and offer the greatest design options. Nevertheless, in addition to traditional wooden frames, metal and plastic frames have become increasingly popular in recent years. They are more permanent and do not have to be deleted from time to time. Plastic window frames made of PVC are somewhat cheaper than wooden frames and have only a little poorer insulation properties. With certain types of plastics, disposal is not possible by releasing dioxins when they are burned. PVC-free plastics such as polyolefin and polyurethane are therefore under discussion. Metal frames, especially aluminum frames, insulate less well than wooden or plastic frames and are even more expensive.

   However, they offer the advantage that they are particularly weather-resistant, light and stable, making even large pivoting and tilting windows easy to operate. The main problem with wooden frames is that when they are exposed to the weather, they inevitably suffer severely and therefore have a limited lifespan. Wooden windows require half as much energy for production, maintenance and final use as structures made of wood-aluminum and plastic, as the research report 115/24 by the Swiss Federal Laboratory for Materials Testing (EMPA) (CH-Dübendorf) showed. This fact makes wooden windows more environmentally friendly than alternative materials. Another topic is aesthetics. Architects and builders are increasingly requesting windows that are as slim as possible or have no mullions.

   Here the metal windows have advantages over plastic and wooden windows because their stability allows thinner frame thicknesses. The frame can be tightened on all sides so as not to reduce the clear height and width of the window reveal through the frame as much as possible. Nevertheless, a reduction in the light dimension of up to 3.5 cm must be expected in today's constructions. With a standard window of 2.56 m <2>, the frame reduces the clear area by at least 8.5%. There are also composite frames that, for example, are made of weather-resistant aluminum on the outside, but on the inside of well-insulated wood. These are somewhat 25% more expensive than pure wooden frames, but about 10% cheaper than pure aluminum window frames.

   Optimal insulation values and outstanding solidity are provided by sophisticated frame constructions with even several sealing levels and complicated hollow profiles, some of which are designed in composite construction. So far, however, this quality can only be bought with relatively high manufacturing costs.



  It is therefore the object of the present invention to provide a window which, above all, has a considerably better thermal insulation effect, is simpler and thus less expensive to manufacture and assemble, and which further allows the use of wood as a window frame material without its disadvantages to have to accept the weather wear, and that is more versatile in terms of aesthetic design options and in particular enables a larger effective window pane area with a certain window reveal than the previously known constructions.



  This task is solved by a window, consisting of a window frame, pane, pane frame and window reveal, which is characterized in that the window frame can only be installed from the inside of the window into a recess on the inner edge of the window reveal, so that it faces towards the Nowhere in the middle of the window so that it cannot be seen from the outside of the window.



  In the figures, the new window is shown in different views and explained in the description below. It shows:
 
   Figure 1 shows a cross section through window reveal, window frame, window frame and window pane in a plan view.
   2 shows a perspective sectional drawing of the window according to the invention;
   Fig. 3 shows a version with roller shutter box in a side view.
 



  Fig. 1 shows the invention seen in a cross section through the window from above. The window outside is in this representation above the picture. The construction essentially consists of a window frame 1 with a sealing profile 3, a window frame 2 and a window pane 4. The window frame 1 and the window frame 2 are preferably made of wood. The special feature of this window system is that not a single wooden frame part is exposed to the weather and that the window pane 4 completely fills the clear height and width of the window reveal 9. When the window is closed, the pane 4 is sealed on the outside by means of a circumferential rubber seal 7 which is inserted in the profile 3. This profile 3 is flush with the four levels of the window reveal 9.

   The entire window frame can only be installed from the inside of the window in a recess on the inner edge of the window reveal 9, so that it does not project beyond it towards the center of the window and is therefore not visible from the outside of the window. The outer wall 6 here consists of a wall or of wood and it is clad on the outside with an outer insulation 5. The inner edge of the window reveal formed by this wall and the associated outer insulation has a recess into which the window frame 1 can be installed flush with the inner wall. In practice, this can be done simply by screwing it into the masonry or into the wood of the outer wall. The window frame 2 with the window 4 enclosed by it is then inserted.

   In the example shown here, this is connected to the window frame 1 via the hinge 8. On the opposite side, the window frame 2 is pressed in the closed state of the window by means of a conventional locking mechanism on the window frame 1 and there on the rubber lip 7 of the profile 3 fastened to the window frame.



  2 shows the window in a perspective view, the lower part of the window also being shown, which can be identical to the upper part. In the example shown here, you have double glazing. The two panes 4 are held in a conventional manner in a pane frame 2, which is hinged to the actual window frame 1. The rubber seal 7 runs around the entire window reveal 9 in levels that are practically flush with the window reveal 9. If the window is closed, the outer pane 4 is pressed all around against this rubber seal 7 and ensures optimum thermal insulation. In addition, the window reveal 9 is not reduced in size by the frame, neither by the pane frame 2 nor by the window frame 1.

   The see-through pane 4 completely fills the clear surface of the window reveal 9. Apart from the actual outer pane 4, only the sealing profile 3 and the rubber seal 7 are exposed to the weather when the window is closed. However, these two elements are not even in the window plane, but perpendicular to it, so that the weather influences can only have a very reduced effect on them. If aluminum profile is used as sealing profile 3, it is extremely weather-resistant. The rubber seal 7 is hardly exposed to the weather and should it become brittle due to the sun, this seal 7 can be replaced very easily. The other parts of this window have been completely removed from the weather. Therefore wood can be used as a frame material without further notice.

   This is environmentally friendly and, moreover, very inexpensive. Only the two profiles 1, 2 for window frame 1 and window pane 4 have to be produced, either by milling from solid material or by gluing several profile pieces. The installation of the window is very easy. The window frame 1 is screwed vertically onto the wall. If the window reveal 9 is not exactly correct, this can be easily corrected. If it is somewhat too large, for example, the profile 3 can be removed from the window frame 1 and this is then planed off a little there, after which the profile 3 is mounted on the window frame 1 again. Conversely, if the window reveal 9 is somewhat too small, something can be underlaid between the profile 3 and the window frame 1. Any space in between can be filled with a sealing compound.



  Instead of hinging the window frame 2 to the window frame 1, in another embodiment the window frame 2 can also be moved parallel into the window frame 1. By means of a special mechanism, it can then be displaced in parallel from the plane of the window frame 1 towards the interior of the room, after which it can then be displaced towards the top, bottom or to the side. If the shift is to take place upwards or downwards, counterweights can reduce the necessary shifting forces when actuated.



  Fig. 3 shows how a roller shutter box 10 is installed in this new window. In contrast to conventional constructions, in which the roller shutter box is always connected to the window frame at the top following the window or window frame, there is a separation between the roller shutter box 10 and window frame. This avoids an unnecessary thermal bridge. The roller shutter box 10 is simply mounted on the window reveal 9 at the top outside the pane surface 4. The drive is guided through a tunnel around the window frame, which is prepared before the window is installed. In more and more cases, it is no longer a mechanical drive train, but rather electrical cables of an electrical drive unit that is accommodated directly in the roller shutter box 10.

   The roller shutter rails are installed in the vertical parts of the window reveal or built on them laterally.



  This window makes it possible to realize larger window areas with existing window reveals and thereby ensure optimal thermal insulation. As a result, a greater incidence of light is achieved with an existing size of a window reveal, which leads to brighter rooms inside and is basically aimed for. The windows should generally be subdivided less often, because if you open the windows for ventilation, the window should be opened as far as possible anyway and ventilation should take place in short time intervals in order to achieve the greatest possible air volume exchange with as little heat loss as possible. A large one-piece window is more suitable than one with several small window sashes.

   Small window sashes may have the right to open a window to look out, for example, so that you can stick your head out of the window or shout something to someone who is outside. In principle, however, many windows are divided unnecessarily today, out of sheer habit. But far from every window you have to be able to open a casement and stick your head out of the window. In addition, one has to ask the question, how often does an opening actually take place for this purpose. In most cases, the windows are opened purely for ventilation or for cleaning the panes. For every unnecessary subdivision of a window, there is a considerable reduction in thermal insulation.

   If the window should be subdivided for aesthetic reasons, this can also be implemented with this new window. Metal, plastic or wood profiles can be glued to the outside of the window pane for purely decorative purposes or, as is already done conventionally, between the panes. The same can be done on the inside. In this way, even the most delicate decorations can be realized on request. These subdivisions then no longer have a technical function, but they do not deteriorate the thermal insulation.


    

Claims (7)

  1. Window consisting of window frame (1), pane (4), pane frame (2) and window reveal (9), characterized in that the window frame (1) exclusively from the inside of the window into a recess on the inner edge of the window reveal (9 ) can be installed so that it does not protrude anywhere towards the center of the window and is therefore not visible from the outside of the window. 2. Window according to claim 1, characterized in that the window frame (1) on the inside of the window has a recess into which the pane frame (2) can be pivoted, the pane (4) with its outside when the window is closed all around on a rubber lip ( 7), which rotates on the window frame (1) directed towards the inside of the window. 3rd  Window according to claim 1, characterized in that the window frame (1) on the inside of the window has a recess into which the pane frame (2) can be inserted, the pane (4) with its outside when the window is closed all around on a rubber lip (7) is applied, which rotates on the window frame (1) directed towards the inside of the window. 4. Window according to one of the preceding claims, characterized in that the window frame (1) on the outside of the window with the window reveal (9) is flush and towards the center of the window is completed by a profile (3) into which one against the inside of the window directed rubber lip (7) is used. 5.  Window according to one of claims 1, 2 or 4, characterized in that the window frame (2) is hingedly connected to the window frame (1) on at least one vertical side, the window frame (1) is flush with the window reveal (9) and in Direction towards the center of the window is completed by a profile (3) into which a rubber lip (7) directed towards the inside of the window is inserted. 6. Window according to claim 3, characterized in that the window frame (2) by means of a mechanism from the plane of the window frame (1) against the interior of the room can be displaced in parallel, after which it can be moved towards the top, bottom or to the side. 7.  Window according to one of the preceding claims, characterized in that a roller shutter box (10) on the outside in front of the window glass (4) is attached directly to the window reveal (9) and is therefore not connected to a window frame part.