Patent Grant
7010888
The present invention relates to windows and other architectural elements that are coupled into a aperture in a partition by a surrounding frame. The present invention relates particularly to frame structures for such windows that are intended to capture a portion of the partition as well as the window between two confronting frame sub-assemblies.
In many situations it is desirable to mount a window or other planar segment within an aperture in a wall, panel, or other partition. An example is the mounting of windows in panel doors such as garage doors, or other normally solid doors. Another example is the mounting of vents in the solid walls of trailers or campers.- Still another example is the mounting of displays within apertures in solid panels.
In any of these applications the frames for holding the window or other structure within the aperture of the panel must be rugged and easy to assemble. In many instances, low cost is especially important. In some manufacturing situations, speed of assembly is also quite important as is minimizing the variety of inventory necessary to achieve the desired structure. In some other applications a pleasing or decorative appearance is essential. Unfortunately, there are many drawbacks in the conventional devices commonly employed for the installation of windows and the like within solid panels.
Koll, U.S. Pat. No. 2,645,827 discloses a frame requiring a complex cut-out in order to accommodate a plurality of tongues which are used to hold a mounting frame to the surrounding panel. As a result, the mounting of windows using this system is time-consuming and difficult. Further, if the precise pattern and the notches is not achieved, substantial difficulties can develop.
Hansen, U.S. Pat. No. 5,369,922 discloses a two-piece frame using a simple aperture cut out pattern, thereby avoiding the drawbacks of the Koll device. The Hansen frame has a first frame member including a plurality of pairs of ribs connected by a strip to form elongated openings. A second frame includes elongated tongues having serrations arranged in a longitudinal direction around the frame. The two frames clip together from opposite sides of the wall or panel in which the window or other structural element is to be mounted. The second frame, and the side teeth on each tongue cooperate with the teeth on a complementary or confronting pair of ribs on the first frame to hold the two frames together. The strength of this arrangement is that it is highly tamper resistant. However, the two frames of Hansen require being molded in two different molds. It is not possible to clip two of the first frame members together from opposite sides of the wall or panel, nor is it possible to clip two of the second frame members together from opposite sides of the wall or panel. The Hansen frame must be formed from the combination of one first frame and one second frame.
Leonelli, U.S. Pat. No. 5,577,355 discloses a window frame formed of first and second frame pieces, which are generated from a single extrusion and then separated at a bridge extending between the frame pieces. Each frame piece produced in this manner has its own bridge part. The first frame piece is provided with a side recess aligned with its bridge part to receive fasteners for mechanically securing the two frame pieces to one another from opposite sides of a window pane through the respective bridge parts of the first and second frame pieces. While a frame constructed according to the disclosure of Leonelli requires only a single mold, the frame is an extruded section that must be cut and assembled from a number of pieces. Additionally the frame of Leonelli requires the use of separate fasteners and the head of the fasteners must be hidden using a separately molded recess covering strip.
Neilly, U.S. Pat. No. 5,644,881 discloses a window frame assembly having a pair of injection molded window frame halves each including a plurality of screw bosses intended to receive screw fasteners. The screw bosses are arranged to align in male/female pairs when the frame halves are brought together in proper alignment. The mating male and female screw bosses are frictionally fitted together to releasably secure the frame halves during storage, transportation, and installation. To complete the installation, screw fasteners are inserted through the mating male and female screw bosses so that the mating pairs are no longer separable. There is no provision in the Neilly disclosure for the completion of an installation without the use of screw fasteners. There also no suggestion in Neilly that the pair of injection molded window frame halves could be made with a single mold. There is no suggestion in Neilly that two of the first frame members might be secured together from opposite sides of the wall or panel, or that two of the second frame members might be secured together from opposite sides of the wall or panel, using the frictionally fitted screw bosses.
Leonard, et al. U.S. Pat. No. 6,101,772 discloses a two-piece frame using a first frame and second frame. The first frame has a base structure and a plurality of connector studs extending substantially perpendicular to the base structure. Each of the connector studs has a hook structure extending perpendicular to a major plane of the connector stud. The second frame is formed by a substantially U-shaped channel member having, in cross-section, two capital portions. The capital portions of the second frame can overlap either the window or the wall in which the window is mounted. The second frame also has a plurality of apertures arranged on the arms to receive the hook structures on the ends of the connector studs. When coupled together, the connector studs of the first frame extend between the window and the wall in which the window is mounted to engage the apertures in the second frame. When so engaged, a deflection of the capital portions of the u-shaped second frame members exerts a spring-like pressure against the window and the wall in which the window is mounted. However, the two frames of Leonard, et al., require being molded in two different molds. It is not possible to clip two of the first frame members together from opposite sides of the wall or panel, nor is it possible to clip two of the second frame members together from opposite sides of the wall or panel. The Leonard, et al., frame must be formed from the combination of one first frame and one second frame.
There is still a need for a frame formed of two parts and can be easily assembled together, avoiding the use of separate fasteners, from opposite sides of the wall or panel in which a window or other architectural element is sought to be installed, yet can be formed in a single mold thereby reducing capital costs involved in the production of the frames.
This need is satisfied by a frame assembly of the present invention. The frame assembly is formed of two molded sub-assemblies, each sub-assembly being identical to the other. Each sub-assembly includes a wall defining a perimeter around an opening, the wall having an inner surface facing the opening and an outer surface adapted to face a edge of an aperture in a partition in which a window or other architectural element is to be installed. A first edge joins the inner and outer surfaces of the wall of each sub-assembly, the first edge being adapted to confront one surface of the window or other architectural element. A flange projects outward from the outer surface of the perimeter wall having a first surface joining a second edge of the wall inner surface that forms the dominant visual portion of the frame. The flange also has a second surface opposite the first surface that joins the perimeter wall outer surface. A plurality of joining elements are fixed to and project normally from the second surface of the flange. Each of the joining elements including an alignment element for aligning confronting joining elements of two confronting sub-assemblies. Each of the joining elements also includes a locking surface adapted to engage a similar locking surface on an aligned joining element of a confronting sub-assembly. The joining elements are arranged around the outer surface of the perimeter wall in a pattern that permits any two sub-assemblies made in the same mold to be permanently snapped together from opposite sides of the partition or panel in which a window or other architectural element is sought to be installed without the use of any separate fasteners.
The frame sub-assemblies of the present invention employ alignment elements that assure the proper coupling of the joining elements when two of the sub-assemblies are pressed together in a confronting relationship. The alignment elements can be in the form of a first element having a projecting distal end and a confronting second element including a cavity sized to receive the projecting distal end of the first element. The projecting distal end of the first alignment element can include an enlarged portion supported by a flexible portion allowing some relative lateral movement between joining elements of the confronting sub-assemblies, yet biasing the joining elements into engagement to assure the permanent retention of two sub-assemblies to each other when once joined in a confronting relationship. The alignment elements can be included as an integral portion of the joining elements. The alignment elements can also include a plurality of panel locating members including distal ends projecting beyond and outside of the first edge of perimeter wall to locate the windowpane unit or other architectural element in relation to the frame assembly. A plurality of positioning tabs can also be included on each of the frame sub-assemblies, each tab having an outer surface adapted to be received within the aperture in the partition in which the window or other architectural element is to be installed for positioning the subassembly with respect to the partition aperture.
One feature of the present invention is the selected arrangement of alignment elements and joining elements around the outside of the perimeter wall so that two identical sub-assemblies can be joined together permanently by merely positioning the two sub-assemblies in a confronting relationship on opposite sides of a partition aperture and a desired architectural element, and pressing the two sub-assemblies together. The alignment elements assure proper alignment of the sub-assemblies so that the architectural element is suitably captured at the desired location within the partition aperture. The alignment elements also assure a retaining engagement is achieved between the joining elements so that the frame assembly and the architectural element, such as a window, is permanently retained in the partition aperture without need for any separate fasteners of any kind. This feature has the advantage of allowing very quick assembly of framed windows and other elements into partition apertures, particularly in assembly line situations.
Another feature of the present invention is the selected arrangement of alignment elements and joining elements around the outside of the perimeter wall so that a frame assembly of the present invention can be constructed from two sub-assemblies formed in the same mold. Thus only one mold need be made to form all the necessary parts for the formation of a complete frame assembly. This single mold origin of the two sub-assemblies lowers the capital costs that are involved in the mold necessary to form the sub-assemblies of the present invention. The single mold origin of the two sub-assemblies also eliminates any mold-to-mold discrepancies that can contribute to part mismatch. It will be appreciated that in some circumstances, this same mold origin feature might be omitted when the first surfaces of the outwardly extending flanges are desirably of a different appearance, as changes in appearance of the first surfaces of the outwardly extending flanges are a matter of design choice, but the structural relationships of the present invention can still be used in such situations.
Further features and advantages of the invention will become apparent to those skilled in the art from the following discussion of the preferred embodiments as depicted in the accompanying drawings.
A frame assembly 10 of the present invention, shown in
Each sub-assembly 12 is shown in
A plurality of joining elements 42 are fixed to and project normally from the second surface 40 of the flange 34. As shown in
The joining elements 42 also include locking surfaces 54 adapted to engage a similar locking surface 56 on an aligned joining element 48 of the confronting sub-assembly. The locking surfaces 54 and 56 are generally complementary and have greater resistance to relative movement in one direction. That is, the shape of the locking surfaces 54 and 56 should be formed to permit easy assembly of two confronting sub-assemblies, but preferably the shape of the locking surfaces 54 and 56 should resist the disassembly of the sub-assemblies once they are joined together. A preferred shape for the locking surfaces 54 and 56 is a row of serrated or saw-shaped teeth on each side of the alignment element 44 as shown in
A plurality of panel locating members 58 are also provided to locate the windowpane or other architectural element 14 in relation to the surface 28 of the frame sub-assemblies 12. The panel locating members 58 include distal ends 60 projecting beyond and outside of the first edge 28 of perimeter wall 20 including cushion element 32 extending from groove 30. The panel locating members 58 preferably include tapered internal surfaces 62 that directly interact with an outer edge 15 of the architectural element 14 to assure proper alignment of the element 14 with the sub-assemblies 12 as shown in
A plurality of positioning tabs 64 are preferably included on each of the frame sub-assemblies 12. Each tab 64 has an outer surface 66 adapted to be received within the aperture 16 in the partition 18 in which the window or other architectural element 14 is to be installed. The outer wall 66 of each tab 64 interacts with surface 17 of the partition 18. The positioning tabs 64 can have the form of a planar element as shown in
The arrangement of the joining elements 42 and 48 around the outside of the perimeter wall 20 is such that two identical sub-assemblies 12 can be joined together permanently by merely positioning the two sub-assemblies in a confronting relationship on opposite sides of a partition aperture 16 and a desired included architectural element 14, and pressing the two sub-assemblies 12 together. The alignment elements 44 and 58 assure proper alignment of the sub-assemblies 12 so that the window or other architectural element 14 is suitably captured as shown in
The alignment elements 44, 50 and 58 and joining elements 42 and 48 are arranged around the outside of the perimeter wall 20 so that a frame assembly 10 of the present invention can be constructed from two sub-assemblies 12 formed in the same mold. Thus only one mold need be made to form all the necessary parts for the formation of a complete frame assembly 10. This single mold origin of the two sub-assemblies 12 lowers the capital costs that are involved manufacturing the assemblies 10 of the present invention. Of course, this same mold origin feature might be omitted when the first surfaces 36 of the outwardly extending flanges 34 are desirably of a different appearance, as changes in appearance of the first surfaces 36 of the flanges 34 are a matter of design choice, but the structural relationships of the confronting portions of the present invention can still be used.
The foregoing description of the illustrated preferred embodiments is to be regarded as illustrative of the present invention, rather than limiting. The present invention is further identified in the following claims, including all equivalents, which are intended to define the spirit and scope of this invention.
This application is related to and claims all available benefits from U.S. Provisional Application Ser. No. 60/423,133, filed Nov. 1, 2002, which is hereby incorporated by reference in its entirety
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| Number | Date | Country | |
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| 20040083678 A1 | May 2004 | US |
| Number | Date | Country | |
|---|---|---|---|
| 60423133 | Nov 2002 | US |
