This application is a National Phase Patent Application that relies for priority on PCT/EP2006/050015, filed on Jan. 3, 2006, which in turn relies for priority on German Patent Application No. 10 2005 001 985.4, filed on Jan. 15, 2005, and on German Patent Application No. 10 2005 006 313.6, which was filed on Feb. 11, 2005, the contents of all of which are incorporated herein by reference.
The invention relates to a hinge/tilt window including an electromotive drive having a feed chain.
German Patent Document DE 103 00 654 A1 by the same applicant discloses a hinge/tilt window, which may be swung about a vertical axis of rotation. As should be appreciated from the disclosure, the window is also displaceable about a horizontal axis into a tilted position. This document shows a hinge/tilt window with an electromotive drive having an electric motor which acts by way of a gear upon a shear-resisting, shear-proof, or semi-shear-proof driving chain, also referred to as a feed chain. The electromotive drive automatically moves the window from the closed position into a tilted position. The chain is designed such that, during movement out of the chain case, it presses the casement in a shear-proof manner into its tilted position and, when the casement is closed, the chain is moved into the chain case. According to this document, the drives are placed on the casement or are milled at corresponding points into the groove of the casement frame.
Fittings, whose axes of rotation are situated outside the window frame and the casement frame and are defined by a hinge, are provided as fittings for the hinge/tilt function, as described in German Patent Document DE 103 00 654.
The partially pressure-resistant or pressure-resistant feed chains act either upon the main tilt-out arm of the hinge/tilt shank or, from the vertical groove, upon the shank hinge and, thereby, directly upon the pivot. In this case, the feed chain acts directly upon a fitting in the manner of a tilt-out device between the window frame and the casement or upon a hinge on the window frame and/or casement.
It is, therefore, one aspect of the invention to present hinge/tilt windows comprising an electromotive drive for implementing the tilting function in a simple manner.
The invention provides a hinge/tilt window having a window frame and a casement comprising a casement frame, which casement can be tilted about a horizontal axis of rotation as well as rotated about a vertical axis of rotation with respect to the window frame. The hinge/tilt window includes a hinge/tilt shank for opening and closing the casement, the hinge tilt shank having a main arm hinged to the casement frame for tilting the casement and a gear with multiple articulations which is hinged to the main arm and to the window frame in order to rotate the casement about the vertical axis of rotation. The hinge/tilt window further includes an electromotive drive device comprising a feed chain for opening the casement into its tilted position and for closing the casement from the tilted position. In a particularly preferred manner, the feed chain is applied to the main shank arm. Even more specifically, the feed chain is applied to the main shank arm in its end area facing the gear with multiple articulations.
The invention further develops the hinge/tilt window according to the above-mentioned type such that, also in the case of a rotational opening of the window, the drive does not have to be uncoupled from the hinge/tilt fitting or from the hinge/tilt shank. This construction is made possible at least in part because, starting with the closed position of the window, the drive securely locks the fitting during rotational opening of the window casement in the most simple manner at the casement and, thereby, virtually fixes the main arm during the rotation. Here, the use of the gear with multiple articulations for ensuring the rotational mobility about the vertical axis provides advantages.
In addition to hinge/tilt mountings with a defined pivot (axis point), as they are disclosed in German Patent Document DE 103 00 654, for example, hinge/tilt mountings are also known in the art which are arranged in a covered manner between the window frame and the casement frame. In this arrangement, the hinge/tilt mountings include gears with multiple articulations. In such cases, the casement is swiveled open in the rotational position. Such a multiple-articulation gear is disclosed, for example, in German Patent Document DE 21 13 665 C3. The above-described significant advantage of the locking of the window of the invention by using a multiple-articulation gear especially in combination with an electromotive drive comprising a feed chain is not described by the prior art. Additionally, by locating a feed chain in the end area of the main shank arm, especially in an area of at least the last 20% of the length of the window frame, it is not necessary to unlock the chain during rotation. At least for these reasons, among others, the invention improves upon the art and addresses failing in the art not previously addressed.
In the following, the invention will be described in detail by means of embodiments with reference to the drawing.
A hinge/tilt shank 6 is slidably held in a shank housing 7 at the upper casement frame wing 8 and is swivelably held by way of an additional arm 9.
As shown in
In the illustrated embodiment, the main shank arm 10 is not fixed by way of a hinge fitting to the window frame 2, which is the case for the device described in German Patent Document DE 103 00654. Instead, a multiple-articulation gear 11 with several additional arms that can be rotated and/or displaced with respect to one another move the casement frame 4 relative to the window frame 2 into a rotational position about the vertical axis of rotation (see also
In the embodiment where the multiple-articulation gear 11 is disposed in the window frame 2, a drive device is positioned at a corresponding point in the casement frame 4. The drive device 12 includes a drive housing 13 for an electric motor (not shown) and also includes a receiving space. The receiving space accommodates the feed chain 14 in the groove 15 of the vertical casement frame edge (or wing) 16 including the multiple-articulation gear 11. The shear-proof feed chain 14 is guided by the drive device 12 to the main shank arm 10 and, thereby, also to the multiple-articulation gear 11 of the hinge/tilt shank 6 or the tilt-out device.
FIGS 1-3 illustrate the main shank arm 10 of the hinge/tilt shank 6 with the multiple-articulation gear 11. In this illustration, the casement frame 4 has been rotated out relative to the window frame 2 into an opening position that is 90° relative to the closed position.
The hinge/tilt shank 6 is arranged at the top of the window, as shown in
The main shank arm 10 rests against the upper horizontal casement frame spar 8 of the casement frame 4 with the additional arm 9 in a flat position.
A fastening tab 17 extends vertically with respect to the plane of the main shank arm 10 and is molded to the end of the main shank arm 10 in the direction of the multiple-articulation gear. The fastening tab 17 is fastened (for example, hooked) to the feed chain 14 in a simple manner at one end. In turn, the feed chain 14, which is disposed inside the window groove, is guided downward into the drive housing 13 of the drive device 12.
The multiple-articulation gear has two gear arms 18, 19, which are rotatably connected to one another at a joint 20. At one of its ends, the gear arm 18 is displaceably guided by means of an attachment pin 21, which is disposed in a connecting link 22 of the main shank arm 10. At its opposite end, the gear arm 18 is guided by means of an attachment pin 23 in a connecting link 24 of a base plate 25. The base plate 25 is, in turn, fastened to the upper frame spar 27 of the window frame 2.
On a first side of a first end, the second gear arm 19 is connected by way of the joint 20 in an articulated manner with the first gear arm 18. A second side of the first end of the second gear arm 19 is hinged to the main shank arm 10 and a second end of the second gear arm 19 is hinged to the base plate 25 in such a manner that the casement 3 may be rotated in a restrictedly guided manner into the opened and closed positions.
In the illustrated position in
The casement frame 4 is shown as well as the drive device 12 with the drive housing 13. From the drive housing 13, the feed chain 14 is guided to the fastening tab 17 of the main shank arm 10. By means of the swiveling motion of the additional arm 9, the position of the fastening tab 17 remains approximately perpendicular to the window plane. Accordingly, the feed chain 14 also is set approximately perpendicular to the window plane, when the casement frame 4 is in the tilted opening position.
During the tilting operation, this vertical movement also takes place at any point along the main shank arm 10. This is utilized by the invention in that the feed chain 14 is maintained at the fitting with the tilt-out shank 6 and the multiple-articulation gear 11 in relation to the main shank arm 10.
The arrangement of the fastening tab 17 at the free end of the main shank arm 10 offers at least one advantage in that the drive device may be housed in the upper vertical area of the casement 3. One reason that this is advantageous is that sufficient space does not exist in the upper horizontal area of the casement 3, because the actual fitting or the tilt-out device is located in this position.
One further advantage of the invention lies in the placement of the drive device 12 in the groove between the window frame 2 and the casement frame 4. Since this construction avoids the need for recesses in the casement frame 4, additional machining may be avoided.
Number | Date | Country | Kind |
---|---|---|---|
10 2005 001 985 | Jan 2005 | DE | national |
10 2005 006 313 | Feb 2005 | DE | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
---|---|---|---|---|
PCT/EP2006/050015 | 1/3/2006 | WO | 00 | 7/18/2007 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2006/074972 | 7/20/2006 | WO | A |
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4035953 | Bierlich | Jul 1977 | A |
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5081741 | Aumercier | Jan 1992 | A |
5226256 | Fries et al. | Jul 1993 | A |
5802768 | Hammer et al. | Sep 1998 | A |
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Number | Date | Country |
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2113665 | Oct 1972 | DE |
10300654 | Jul 2004 | DE |
0385414 | Sep 1990 | EP |
2581119 | Oct 1986 | FR |
1391723 | Apr 1975 | GB |
Number | Date | Country | |
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20080040978 A1 | Feb 2008 | US |