Magnetic drapery track

Abstract

A Magnetic drapery track without mounting hardware (brackets). An extruded aluminum and or extruded thermoplastic track having single or multiple channels. Various properties and number of magnets along said channel having opposed flat surfaces defining north and South Pole surfaces. Back said surface is attracted to a ferrous material so that the drapery track can be (releasable). Ferrous material being but not limited to a concealed corner bead/lath, generally installed during the construction phase, that surrounds a drywall/plasterboard (gypsum) opening. Any opening that may contain but not limited to a sliding glass door, windows and doors and contains ferrous materials. It is because of the concealed corner bead/lath and or exposed metal moldings and trims at the header and its surrounding opening that the magnetic drapery track can adhere without mounting hardware (brackets).

Description

STATEMENT REGARDING FEDERALLY SPONSORED RESEARCH OR DEVELOPMENT

NOT APPLICABLE

REFERENCES TO SEQUENCE LISTING, A TABLE, OR A COMPUTER PROGRAM LISTING COMPACT DISC APPENDIX

NOT APPLICABLE

BACKGROUND OF THE INVENTION

In the construction of openings being but not limited to windows and sliding doors and doorways it has been desirable to have coverings such as textiles to shield not only the elements but for privacy reasons. Most times vertical blinds and or drapery are suspended from some form of track. These tracks require direct mounting by screws, brackets and/or clips that are referred to in the industry as having to be either an inside or outside mount of an opening and therefore needed in order to mount the track, as is one such device shown in U.S. Pat. No. 4,120,474 to A. Hurley for “Drapery Support Assembly”. Another prior art device is shown in U.S. Pat. No. 3,871,082 to Pflum “Combination Drapery Support”. These tracks are difficult to install, many times needing the help of a professional installer with many tools as is referenced in the article at http://www.dwconline.com/DWC/April'96?BigPicture.html.

The improved drapery track may include one or more channels in which either channel can house various magnets and the other channel houses the carrier members of which there are many. The track length determines the number of magnets of which can span infinite lengths. Said channel of magnets along said track enables the magnetic drapery track to adhere to any drywall/plasterboard (gypsum) or any other opening that has a concealed ferrous corner bead/lath at the header and generally around its perimeter installed during the construction phase. Also note that other said openings generally have exposed metal moldings and or trim that the magnetic drapery track can adhere to without the need of mounting hardware.

BRIEF SUMMARY OF THE INVENTION

This invention relates to a drapery track. It relates to an improved drapery track utilizing a plurality of magnets each having opposed flat surfaces defining north and South Pole along a said channel thereby eliminating the need for mounting hardware (screws, brackets and or clips). The improved drapery track is attracted to the concealed ferrous corner bead/lath that is generally installed at a header opening and generally around its perimeter at the time of construction of a window, door or other opening.

Mounting hardware is often cumbersome to install because the hardware is so small. Installing the mounting hardware often requires numerous tools and many times a ladder. Often the hardware is installed incorrectly and therefore, damages the drywall/plasterboard (gypsum).

Thus, a magnetic drapery track will result in the drapery track being easier to install and makes it portable.

BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWINGS

FIG. 1 is a perspective cross-section showing the magnetic drapery track of the present invention attracted to the hidden ferrous corner bead/lath at the header of a window or sliding glass door opening.

FIG. 2 is an alternate perspective cross-section showing the magnetic drapery track of the present invention attracted to the hidden ferrous corner bead/lath at the header of a window or sliding glass door opening.

DETAILED DESCRIPTION OF THE INVENTION

Referring to FIG. 1, a magnetic drapery track without mounting hardware 10 is formed as an elongated aluminum extrusion or extruded thermoplastic track which has infinite lengths. The track 10 is generally a rectangular cross-sectional configuration and includes at least two channel formations 18, 19. The drapery carrier members are of many types 17 being illustrated. Carrier members 17 slide within said track 10 along flanges 12, 13 to receive supporting fasteners and also run the gamut. These fasteners attach to the heading hem of a drapery panel and can include fabrics and or materials of different weights. FIG. 1 illustrates two channel formations 18, 19 extending the length of track 10. The channels 18, 19 are defined by parallel facing sidewalls 14, 15. Each adjacent sidewall 14 and 15 is formed with right angle flanges 12, 13 along channel 18. Where carrier members 17 traverse either by manually pulling cords, wands or remote control along said track 10. There is a transverse wall 16 across the width of track 10 that separates channel 18 from 19 respectfully.

Channel 19 houses a magnet 20 or a combination of magnets within track 10. The number of magnets 20 needed equals the distance necessary for the maximum attraction of said track 10. Various properties and number of magnets 20 along channel 19 and having opposed flat surfaces defining north and South Pole. Back said surface is attracted to the concealed ferrous corner bead/lath 22 by said magnets 20 so that said surface can be releasable.

Said track 10 that houses said channel 19 is attracted to a ferrous material. Ferrous materials being but not limited to a concealed corner bead/lath 22 that covers a drywall/plasterboard (gypsum) 23 corner opening. Said track 10 that houses magnet and or magnets 20 in said channel 19 attracts itself to a header opening normally covered in drywall/plasterboard (gypsum) 23 to include but not limited to a sliding glass door, window and or door openings. Note some openings have exposed metal moldings and trim that the magnetic drapery track can adhere to without the need for mounting hardware.

Although channel 19 is separate made possible by transverse wall 16 it still shares parallel facing sidewalls 14 and 15. Note that sidewall 14 extends past flange 13. This is designed to eliminate the need for a separate valance and additional hardware. The valance is often used to hide the sometimes unattractive carrier members 17 from view. Please note that sidewall 14 also extends past/above drywall header so as to give a clean site line and that sidewall 15 may also extend past flange 12 (but is not shown in FIG. 1) in order to hide carrier members from an outdoor perspective.

Referring to FIG. 2, an alternative embodiment of the present invention is illustrated wherein magnet 20 is wrapped around drywall/plasterboard (gypsum) 23 header at a 90 degree angle so as to allow for additional holding power of track 10. Positioning magnet 20 or magnets along channel 19 within track 10 at a 90 degree angle thereby increases the flux along the length of the track 10.

This design/invention shall not limit the application to horizontal ferrous materials and can also be used on vertical surfaces within a drywall/plasterboard (gypsum) 23 opening that contains concealed corner bead/lath 22 and or exposed metal trim at the corner openings.

The present invention has been described with some preferred embodiments thereof and it is understood that many changes and modifications in the described embodiments can be carried out without departing from the scope and the spirit of the invention that is intended to be limited only by the appended claims.

BRIEF DESCRIPTION OF THE PRIOR ART

Drapery tracks utilize some form of mounting hardware in order to be fastened to the sidewalls and or headers of a drywall/plasterboard (gypsum) opening. To include but not limited to a drapery track (of which there are many) and numerous textiles made into drapery, curtains and panels. These are often inside or outside mounts above window openings such as sliding glass doors, windows and sometimes doors. Mounting hardware is often cumbersome because the hardware is so small. Installing the mounting hardware often requires numerous tools and many times a ladder. Often the hardware is installed incorrectly and therefore, damages the drywall/plasterboard (gypsum). Drapery tracks are expensive and most are made of standard sizes four, six, and eight foot lengths particularly for sliding glass doors. Many homeowners simply leave them behind because of the damage and work involved to remove them. Thus, a magnetic drapery track will enable the said invention easier to install and makes it portable.

Claims

1. Said track being of extruded aluminum and or ferrous material powder coated and or extruded thermoplastic impregnated with color. Said track consisting of at least two channel formations generally but not limited to the H or I-beam design.

2. The apparatus of claim 1, wherein either side of channel is accepting of numerous magnets and of various properties each having opposed flat surfaces defining north and South Pole surfaces.

3. The apparatus of claim 1, wherein either or both sides of channel includes flanges to hold said magnets and or traverse said carrier members.

4. The apparatus of claim 2 whereby back said surface is attracted to a ferrous material by said magnet members and can be releasable from a ferrous surface (concealed corner bead/lath and or exposed metal trim) installed during the construction phase that surrounds a drywall/plasterboard (gypsum) opening.

5. The apparatus of claim 1, wherein parallel facing side walls of said track may extend past said flanges in claim 3 so as to hide carrier members from an interior or exterior view.