A. Field of Invention
This application pertains to a dividing system for partitioning a room or closing off one side of the room or doorway and separate the room from another room or from the outside. The system includes one or more panels formed of two frames and an intermediate transparent or opaque member sandwiched therebetween.
B. Description of the Prior Art
Typically, rooms are either subdivided by a system of screens or panels. Many screens and panels have similar structures; they consist of a generally rectangular frame that provides most of the structural strength of the panel and have some sort of indentation used to hold and support a central intermediate element. In the case of screens, the intermediate member is either a stiff material, such as a grill, or a flexible material such as a mesh. On the other hand, the central element of a panel is a relatively rigid material that is frequently transparent, or at least translucent, such as a sheet of glass or plastic.
One problem with existing panels or screens is that the frame of the panel has to be strong and heavy to support the central member. However, esthetically, panels made of lighter and thinner materials are more desirable.
A system of panels is disclosed that can be used as a room divider, as a door, etc. The system includes at least one panel formed of two superimposed frames and an intermediate member sandwiched between the frames. The intermediate member is made from a transparent or translucent material. Alternatively, the intermediate member is made of an opaque member, provided, optionally with decorative cutouts. The frames and the glazing have substantially identical dimensions. Means are also provided to join the frames and the glazing into single integral unit. These locking means include holes and complementary dowels, and/or double sided tapes.
The frames can be made of wood, a wood-based composite material, a plastic material or metal tubing.
The intermediate member may be a glazing made of glass, acrylic, etc, and preferably made with design elements to enhance its esthetic aspects. In one embodiment, panels of a system have different designs which, when superimposed, create a completely new and attractive design.
Preferably, the system can also be provided with a set of hook plates and stop plates attached to the panels. These plates are constructed and arranged so that the panels can be opened and closed selectively in a telescopic action.
The system may also include wheels mounted on the panels, the wheels engaging stationary rails. The system may also be provided with channels, or other guides for controlling the lateral movement of the panels.
Referring now to the drawings, and more particularly
As shown in
The panel 10 is assembled as follows. A template (not shown) is made of stiff material such as MDF and has the required dimensions and ⅜″ holes made about a foot apart and 1½″ from the edge. For the frames, strips are cut from standard stock. The strips are edge-banded, sanded and finished with stain and/or other coating material. Four strips are attached at right angles, or butt-joined, using for example a Hoffman joining machine, to form each frame 12, 14. The frame 14 and the glazing 16 are placed on a worktable with template disposed on top of the glazing 16. The bottom two elements are aligned and clamped to the table. The template is then used to drill holes 20 through the glazing and into the frame 14. Each hole is about ⅝″ deep. The template is then reversed and used in a similar operation to drill holes in frame 12 in a mirror pattern. Alternatively, the glazing can be predrilled with the holes 20 and then used as the template for making the holes in the frames 12, 14.
Next, a protective cover from one side of a double sided 2¾″ tape 24 is removed and the exposed tape is applied all around the frame. The portions of the tape covering holes 20 are burned out (using, for instance, a hot glue gun nozzle) and the tape is then pressed by hand causing its adhesive to wet the frame. Next, dowels 22 with some glue are inserted in all the holes 20. The protective cover from the second side of the tape is removed.
Typically, the glazing 16 is covered with a protective sheet. This sheet is now removed on one side, at least around the glazing perimeter, thus exposing the actual glazing surface. The glazing 16 is then lowered over the dowels 22 so that the glazing surface comes into contact with the tape 24 and is secured in this manner to frame 14. Next, some glue is applied to the dowels 22 and/or holes 20 in frame 12, the protective sheet from the other side of the glazing 16 is removed and tape is applied to the second frame 12. The frame 12 is then lowered over the glazing 16 thereby securing the glazing to the second frame 12 as well. In order to insure proper adhesion, the frames are pressed together by hand and by a 130 psi continuous air clamp (not shown). The air clamp squeezes all the layers together, one side at a time. It may be applied for five seconds on each side. The resulting panel 10 can be shipped, stored or hardware can be applied to it, as described below.
The panel may have other configurations as well, and may be assembled by using other techniques. For example, in one embodiment, the glazing is replaced by a core having approximately the same thickness, but being made of an opaque material, such as solid wood, composite wood, plastic or aluminum sheets, and so on. Moreover, the intermediate element is opaque, holes or cutouts may be provided therein, having different geometric shapes.
In a somewhat preferred embodiment, the panel is made by first making the required holes in the intermediate element, be it a transparent or an opaque element. The intermediate element is then used instead of a template to make the holes in the frames 12, 14.
The process for making the panel 10 could be altered in other ways as well. For example, the frames 12, 14 can be made from strips that have been mitered and then joined in a normal manner. Moreover, depending on the materials used for the frames, the frames can be painted, or covered with a low pressure molded laminate skin (not shown).
Once the panel 10 is finished it can be used in various configurations as described in more detail below. If necessary, the panel can be hung on a standard sliding system. For example, as shown in
Alternatively, if the panels are left floating, then they can be provided with some additional hardware that interlocks the panels and allows them to be moved in a telescopic manner. The hardware to accomplish this mode of operation includes a hook-plate 70 and a stop plate 80. As shown in
Stop plates 80 have a generally rectangular shape and have two holes 82. They are also attached to the bottom of the panels 10.
The hook plate 70 and stop plate 80 is made of a ¾″ by 3″ cold rolled steel stock or other similar materials.
The telescoping operation is now described in conjunction with
Next, system can be closed by pulling panel 10C to the right. As the panel 10C moves to the right, it is maintained stable by the member 79 riding in groove 18. The other two panels 10A, 10B remain stationary until the stop 80C1 reaches the hook plate 70B. Once stop 80C1 contacts hook plate 70B, further motion of the panel 10C to the right causes the panel 10B to start moving to the right as well, as shown in
The panels 10C, 10B continue moving to the right until the stop 80B contacts hook 70A. Preferably, panel 70A is anchored in place to keep it from moving. This is the closed position of the system. Each panel maintains each position and does not flop with respect to the other panels because of the engagement between member 79 of the hook plates 70 and the groove 18 of the adjacent panels.
Systems with panels constructed in this manner can be used in various configurations, and for various purposes. Moreover, systems can be made that include from one to six panels, or even more panels, depending on the size and weight of the desired design.
Finally,
The configurations shown in
One of the advantages of the invention is that different esthetic designs can be achieved as the panels are opened and closed. For example,
As shown in
Obviously, numerous modifications may be made to this invention without departing from its scope as defined in the appended claims.
This application claims priority to provisional application Ser. No. 60/531,703 filed Dec. 22, 2003 and incorporated herein by reference.
Number | Name | Date | Kind |
---|---|---|---|
369261 | Roebuck | Aug 1887 | A |
3463218 | Byrens et al. | Aug 1969 | A |
3677322 | Brorson et al. | Jul 1972 | A |
3686795 | La Barge | Aug 1972 | A |
4122633 | Holdiman | Oct 1978 | A |
4496201 | Allgeyer | Jan 1985 | A |
4989381 | De Block et al. | Feb 1991 | A |
5272848 | Maas | Dec 1993 | A |
5546714 | Kenkel | Aug 1996 | A |
5603190 | Sanford | Feb 1997 | A |
5644881 | Neilly | Jul 1997 | A |
5775041 | Tull et al. | Jul 1998 | A |
5802783 | Bayha | Sep 1998 | A |
5894706 | Herbst | Apr 1999 | A |
5908064 | Bruce | Jun 1999 | A |
5941031 | Fullwood | Aug 1999 | A |
6314689 | Hughes | Nov 2001 | B1 |
6367203 | Graham et al. | Apr 2002 | B1 |
6609338 | Hightower | Aug 2003 | B2 |
6964131 | Herrmann et al. | Nov 2005 | B2 |
Number | Date | Country | |
---|---|---|---|
20050183356 A1 | Aug 2005 | US |
Number | Date | Country | |
---|---|---|---|
60531703 | Dec 2003 | US |