The present invention relates to frames for windows and doors, in general and, in particular, to blind frames for aluminum windows and doors.
Building with aluminum door and window frames had been common for many years. Traditionally, the masons build a wall of cement blocks, with cement pillars and beams, leaving openings to receive the windows and doors. These openings are of approximately the size and in approximately the location of the doors and windows in the architect's plans, although precision is difficult if not impossible.
The aluminum specialist then measures the openings in the walls, and makes a custom blind frame of the correct dimensions for each opening. The blind frame is hidden in wall, and an outer frame holding a window sash or door panel is mounted thereon. The blind frame is disposed in the opening and affixed in place by means of bolts extending through the frame and into the cement defining the opening. It will be appreciated that this structure is not particularly stable, and cracks often appear in the plaster around the door and window frames, over time.
The window or door outer frame is then mounted on the blind frame and sealed in place with silicone to provide the desired seal to prevent moisture and wetness. Similarly, the jambs holding the door or window pane are mounted on the outer frame and sealed with silicone. It will be appreciated by those skilled in the art that the use of silicone is expensive and does not provide a flexible seal over time. Rather, inexpert work in inserting the silicone in place can cause water leakage. On the other hand, removing dried silicone is extremely inconvenient.
This building method is very labor intensive, as each window must be custom made for its frame, which is manufactured for it, and cannot be mounted in another opening. Furthermore, the frames are not sturdily mounted in the walls, leading to cracking of plaster around the frames, and often to loosening of the frame, which can result in the reduction of insulation of the room or building.
Accordingly, there is a long felt need for, and it would be very desirable to have a blind frame which is stable once in place, and it would be desirable to have such a frame which is substantially modular or of standard sizes.
The building methods described above relate to conventional building methods. However, it will be appreciated that many buildings are now prefabricated and assembled by industrial methods, such as using pre-cast elements which can be rapidly mounted on site. In such buildings, a portion of a wall is formed, a mold is built on the outside surface, an outer frame for each window is mounted in the wall, a mold is built on the inside surface, and concrete is cast into the mold. When the window has decorative elements, for example on the wall around an interior or exterior frame, these elements must be added later with the plaster, exterior cladding and other finish.
There is provided according to the present invention an outer frame for a window or door, the frame having a channel defining a space between the frame and an adjacent wall, said space being adapted and configured to receive an amount of cement or concrete so as to affix the frame in its location to the wall.
According to a preferred embodiment, the space extends substantially around the periphery of the frame.
According to one embodiment of the invention, the frame further comprises two pairs of frame segments of a pre-selected standard size.
According to one embodiment of the invention, the frame is formed of galvanized sheet metal.
According to a preferred embodiment of the invention, a portion of the channel includes a plurality of filling apertures opening into the space for casting concrete therethrough.
Further according to one embodiment, the space is defined partially by an integral shoulder, which acts as a stopper for a window or door mounted in the frame to abut against.
According to another embodiment of the invention, the frame further includes a top segment defining an accessory compartment configured and adapted for storing a window accessory, the accessory compartment including an external surface adapted and configured to support an amount of concrete and be embedded therein. The top portion may be curved and convex, or may have any desired geometric shape.
There is also provided according to the present invention a method for mounting a blind frame in a wall, the method including building a partial wall, disposing a blind frame on the partial wall, the blind frame having a space extending substantially around the periphery of the frame, building the wall around the sides of the frame, and casing concrete into the space between the frame and the wall.
There is further provided according to the invention an accessory compartment configured and adapted for storing a window accessory, the accessory compartment including a housing, said housing having an external surface adapted and configured to support an amount of concrete and be embedded therein. The external surface of the housing may be curved and convex, or may have any desired geometric shape.
There is also provided a method for mounting in a wall an accessory compartment configured and adapted for storing a window accessory, the method including providing a wall having a window aperture, providing a mold in the aperture, providing an accessory compartment having a housing, the housing having an external surface adapted and configured to support an amount of concrete and be embedded therein, seating the housing in the mold, and casting concrete in the mold around the housing so as to embed the housing in the concrete in the wall.
The present invention will be further understood and appreciated from the following detailed description taken in conjunction with the drawings in which:
a and 3b are perspective and sectional illustrations, respectively, of a profile for a blind frame constructed and operative in accordance with one embodiment of the present invention;
a and 6b are perspective and sectional illustrations, respectively, of a profile for an accessory compartment of a blind frame constructed and operative in accordance with one embodiment of the present invention;
c is a sectional illustration of a profile for an accessory compartment of a blind frame constructed and operative in accordance with another embodiment of the present invention;
a,
7
b and 7c are schematic plan, sectional and perspective illustrations of a portion of a wall holding a blind frame of
a is a side sectional view of a pre-cast wall with a blind frame according one embodiment of the present invention;
b is a plan view of a section of the wall of
The present invention relates to blind frames for windows and doors, particularly of aluminum, which can be manufactured and sold in pre-selected standard sizes, which can be affixed to a wall so that the windows and doors are more stable than conventional windows, and which are configured to be incorporated into a conventional or prefabricated wall during construction of the wall. This is accomplished by providing a blind frame having a peripheral channel defining a space, between the frame and the wall, which is adapted and configured to receive an amount of concrete or cement, so as to affix in a stable manner the frame in its location in a surrounding wall. Referring now to
Blind frame 20 defines a peripheral channel 21 defining a space 22 between the frame and the wall 12 in which the frame is mounted. Space 22 is adapted and configured to receive an amount of cast concrete 24 so as to affix the frame in its location in wall 12. A plurality of filling apertures 26 may be provided in channel 21 in the bottom portion of the frame, through which concrete or cement can be poured into space 22, in case it is not completely filled during casting. Blind frame 20 is generally formed of two pairs of frame segments, possibly of a pre-selected standard size, as explained in detail hereinbelow, welded or clamped to one another to form a substantially rectangular frame. Alternatively, the frame may be of any shape and size as designed by the architect. The embodiment illustrated in
A portion of the channel preferably defines a stop member configured to engage sealing means on the outer frame of a window or door, when the outer frame is mounted on the blind frame.
According to one embodiment of the invention, the frame is formed of galvanized sheet metal. Alternatively, the frame may be formed of any suitable strong material.
Preferably, a portion of the channel 21 defines a stop member 28 configured to engage sealing means 27 on the outer frame 14 of a window or door, when the outer frame is mounted on the blind frame. It will be appreciated that provision of such a stop member permits the use of rubber seals between the outer window frame and the blind frame, which provide a substantially hermetic seal against gases, rather than using conventional silicone seals. In the embodiment of
The method of mounting the frame in a wall of cement blocks is as follows. The sizes of the various windows, as designed by the architect, are sent to the factory. Blind frames are constructed, and sent to the building site. The wall is built by the mason up to the level of the bottom of the window frame as designed by the architect. Preferably, the wall is leveled so as to be substantially horizontal. The blind frame is now placed on the wall, and may be held in place, as by bolts 29.
Once the blind frame is in place, the mason continues to build the wall around the sides of the frame, until he reaches the top of the frame. A mold is built around the frame and a horizontal beam is then cast above the frame and the adjacent walls, filling the spaces 22 on the top, sides and bottom of the frame with concrete, so that the frame will remain affixed to the wall in a very stable manner. If necessary, additional concrete can be poured into space 22 beneath the frame through filling apertures 26 in channel 21 in the bottom portion of the frame, in order to ensure that space 22 is completely filled. According to one preferred embodiment of the invention, frame 20 is manufactured from a profile cut into several pre-selected standard sizes. This is possible due to the above-described method of mounting the frame in the wall. In this method, the architect will design the windows utilizing the pre-selected standard sizes, and the windows and their associated frames can be formed in the factory using the standard size elements. It will be appreciated that this provides a substantial savings in both manufacturing and mounting of windows and doors. Two pairs of same size frame segments may be welded together to form the frame, or the segments may be coupled to one another by clamps, to permit last minute adjustment on site.
a and 3b are perspective and sectional illustrations, respectively, of a profile 46 for forming a blind frame in accordance with one embodiment of the present invention. Profile 46 can be cut to any desired length for forming the blind frame. Profile 46 includes a shoulder 48 defining one side of a symmetrical channel 50. Alternatively, channel 50 may be asymmetrical. Profile 46 is shown with an angled edge 52, such as that described above with respect to
It is a particular feature of this embodiment of the invention that the access to the window accessory 76 is through the bottom of top segment 72, rather than through an unsightly opening in the wall, itself, as occurs in conventional so-called “mono-block” frames, and the accessory can be reached in situ, without having to remove the window frame from the wall. Thus, a removable closure profile 79 may be provided, as between the window frame and the track for a roller blind, which can be opened when standing inside the window and which permits removal, repair and replacement of the window accessory through the bottom of top segment 72.
One exemplary embodiment of a top segment or accessory compartment 86 is shown in perspective and sectional views in
This embodiment may be mounted as follows, with reference to
Now the mason continues to build the wall, e.g., concrete blocks 97, on top of beam 98 around the sides of the frame 92, until he reaches the top of the top segment 94. Concrete 100 can now be poured from the top segment 94 over the entire blind frame 92, filling the spaces in the sides and bottom of the frame, and the frame will remain affixed to or embedded in the wall in a very stable manner. Reinforcing rods 102 may be provided, as desired.
According to an alternative building method, the walls may be built on the lower beam 98 around the sides of an opening for receiving the frame, and only then is the pre-fabricated frame placed in the opening. Then, as above, concrete is poured around the entire frame, anchoring it in place in the wall. It will be appreciated that the concrete may be cast together with an upper beam 104 along the top of the window. In this way, the top segment 94 of the frame will be firmly embedded in the concrete. Additional blocks 99 may be added above the upper beam 104, until the level of the ceiling is reached.
According to one preferred embodiment of the invention, top segment 94 is manufactured from a profile cut into several pre-selected standard sizes. This provides a substantial savings in both manufacturing and mounting of holders for storing accessories for windows and doors.
The building methods described above, with reference to Figures la to 7c, relate to conventional building methods. When utilizing the frames of the present invention in industrialized building, such as using prefabricated elements, the conventional industrial method can be used when the window is no wider than the wall. See, for example,
However, when the window of the invention is wider than the wall, or has decorative elements, for example on the wall around an interior or exterior frame, this method is problematic. According to the present invention, there is further provided a blind frame for a window which is suited for prefabricated buildings, one exemplary embodiment of which is illustrated in
As can be seen in
As can be seen, space 126 is not symmetrical. Rather, the shoulder portion of channel 125 which faces the interior of the building is adapted and constructed to be sufficiently large to provide a firm anchorage for the complementary interior portion 124. Similarly, the top segment 130 of the mounting portion is cut off and includes an upwardly extending extension 132. Extension 132 both serves as a mold portion for holding the concrete on top of the top segment, and as an affixing surface for affixing the interior portion to the mounting portion of the frame. The interior closure portion 134 of the profile forms part of the complementary interior portion 124 of the frame.
Double-sided tar or other sealing adhesive 135 may be applied to the inward facing surfaces of shoulder 125, extension 132 and to a supporting profile 136, for engaging the outward facing surfaces of the complementary portions of interior portion 124 of the frame. As can be seen, complementary interior portion 124 of the frame includes a portion 140 welded or otherwise affixed to top segment 134 and a bottom segment 139 for holding the window or door. Profile 140 also may be adapted and configured to be affixed to portions of the blind frame in registration therewith.
According to one embodiment of the invention, illustrated in
Alternatively, as shown in
Yet another embodiment is shown in
While the accessory compartment has been described above as being part of a blind frame, it can also stand alone, particularly in a prefabricated wall. The accessory compartment includes a housing having an external surface adapted and configured to support an amount of concrete so as to anchor or embed the housing in the wall, as described above.
According to another embodiment of the invention, there is provided a prefabricated wall having at least one window. In this embodiment, a window accessory compartment is provided, which can be anchored in the wall during pre-cast fabrication, in the same fashion described above for a blind frame. Such a pre-cast wall with a built-in window accessory compartment is illustrated in
It is a particular feature of this embodiment of the invention, that the bottom 194 and side portions of window aperture 192 can be molded to the shape of a blind frame, so as to dispense with the metal profile serving as the blind frame. In this way, only the upper portion, the accessory compartment housing 182, need be formed of metal and affixed in the wall. The window frame profile can then be affixed to the concrete in any suitable fashion, such as by screws.
Once the concrete has hardened sufficiently, removable mold portion 200 is removed, and the prefabricated wall is ready for mounting on a building, as shown in
While the invention has been described with respect to a limited number of embodiments, it will be appreciated that many variations, modifications and other applications of the invention may be made. It will further be appreciated that the invention is not limited to what has been described hereinabove merely by way of example. Rather, the invention is limited solely by the claims which follow.
Number | Date | Country | Kind |
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173940 | Feb 2006 | IL | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/IL07/00250 | 2/26/2007 | WO | 00 | 8/25/2008 |