The present invention relates to door rail systems conventionally used to hold door panels, such as plate glass panes or panels, either in a doorway opening or for use as a wall partition. Typically, the rail system runs along one or more edges of the panel and secures the panel at its edges. In some conventional designs, the rail system is permanently attached to the glass pane; however in other designs, the pane may be detachably removed by way of a clamping mechanism inside the rail housing.
In prior art door rail systems, a problem exists when trying to create an extended door rail height, such as a 10″ door rail, from an existing conventional door rail, such as a 4″ or 6″ door rail. Currently, if a vendor wants to create a 10″ door rail from a 6″ door rail, for example, the vendor will use a false cladding on the top of the rail, causing the customer to have to buy an additional 4″ piece of glass, and requiring significant additional tooling and cost. This technique often also results in issues with tolerances.
A need exists for a customizable modular rail assembly that allows for the creation of a larger door rail from an existing smaller rail, and which is adaptable to an existing pane of glass with requiring additional tooling and glass hardware.
Bearing in mind the problems and deficiencies of the prior art, it is therefore an object of the present invention to provide a customizable modular rail assembly including a rail build-up or extension piece that allows for the creation of a larger door rail from an existing smaller rail.
It is another object of the present invention to provide a modular door rail for a glass door which eliminates the need to purchase a new, larger piece of glass when a larger glass door is required.
A further object of the invention is to provide a modular door rail extension which is securable to an existing glass door rail and extends the door rail for panels shorter than the door frame to which the door is to be installed.
It is yet another object of the present invention to provide a modular door rail extension for field installation which is easily secured to an existing door rail.
Still other objects and advantages of the invention will in part be obvious and will in part be apparent from the specification.
The above and other objects, which will be apparent to those skilled in the art, are achieved in the present invention which is directed to a modular rail assembly for securing a panel in a door or window. The modular rail assembly comprises a rail framing member having vertically-oriented sides interconnected by a partition plate to form first and second receiving channels on opposite sides of the partition plate, the second receiving channel defined at a top side by the partition plate and on opposing sides by receiving channel walls, and a rail base extension slideably secured within the rail framing member second receiving channel. The rail base extension includes vertically-oriented sides interconnected by a partition plate, and the rail base extension sides have mating surfaces on opposing external surfaces thereof for mating with internal surfaces of the rail framing member second receiving channel walls when inserted therein. A fastener, such as a steel set screw, secures the rail base extension to the rail framing member, and a panel may be secured along an edge thereof in the first receiving channel of the rail framing member.
One of the rail base extension mating surfaces or the rail framing member receiving channel walls may comprise an elongated groove and the other of the rail base extension mating surfaces or the rail framing member receiving channel walls may include an elongated protrusion capable of being slidably received in the elongated groove when the rail base extension is slidably inserted within the rail framing member second receiving channel. The rail base extension mating surfaces and the rail framing member receiving channel walls may also each include at least one corresponding discontinuity for providing additional mating surfaces when the rail base extension is slidably inserted within the rail framing member second receiving channel.
When the modular rail assembly is fully-assembled, the external surfaces of the rail framing member and rail base extension form a substantially flush continuous surface when viewed in a direction normal to a plane formed by the panel.
The rail base extension may further comprise channel walls defining an accessory channel space defined at a top side by the rail base extension partition plate, the accessory channel space for holding various door-related accessories, such as tumbler locks, end-loading arms, side-loading arms, pivots, sweeps and dust barriers. The rail base extension channel walls may further include at least one of a protrusion and a discontinuity on an interior surface thereof for securing one or more door-related accessories within the accessory channel space.
The rail base extension may further comprise a horizontally-oriented linking plate at a top end thereof, the linking plate including in an elongated groove for receiving the fastener securing the rail base extension to the rail framing member. In an embodiment, the fastener may be a set screw which abuts a detent in the rail framing member partition plate to secure the rail base extension to the rail framing member.
In another aspect, the present invention is directed to a method of assembling a rail assembly for securing a panel in a door or window. The method comprises providing a rail framing member having vertically-oriented sides interconnected by a partition plate to form first and second receiving channels on opposite sides of the partition plate, the second receiving channel defined at a top side by the partition plate and on opposing sides by receiving channel walls; providing a rail base extension adapted to be received within the rail framing member second receiving channel, the rail base extension including vertically-oriented sides interconnected by a partition plate, the rail base extension sides having mating surfaces on opposing external surfaces thereof for mating with internal surfaces of the rail framing member second receiving channel walls; and providing a fastener for securing the rail base extension to the rail framing member. The method further comprises slideably inserting the rail base extension within the rail framing member second receiving channel such that the rail base extension mating surfaces cooperate with the internal surfaces of the rail framing member second receiving channel walls, and securing the rail base extension to the rail framing member using the fastener.
One of the rail base extension mating surfaces or rail framing member receiving channel walls may comprise an elongated groove and the other of the rail base extension mating surfaces or the rail framing member receiving channel walls may include an elongated protrusion, and the step of slideably inserting the rail base extension within the rail framing member second receiving channel may further comprise slideably receiving the elongated protrusion within the elongated groove.
In an embodiment, the rail base extension mating surfaces and the rail framing member receiving channel walls may each include at least one corresponding discontinuity for providing additional mating surfaces when the rail base extension is slidably inserted within the rail framing member second receiving channel, and the step of slideably inserting the rail base extension within the rail framing member second receiving channel may further comprise mating the corresponding discontinuities.
The rail base extension may further comprise a horizontally-oriented linking plate at a top end thereof, the linking plate including in an elongated groove, and the step of securing the rail base extension to the rail framing member may further comprise inserting the fastener within the linking plate elongated groove and driving the fastener into the rail framing member partition plate. The fastener may be a set screw which abuts a detent in the rail framing member partition plate to secure the rail base extension to the rail framing member.
The method may further comprise securing a panel within the rail framing member first receiving channel, the panel secured along an edge thereof.
The features of the invention believed to be novel and the elements characteristic of the invention are set forth with particularity in the appended claims. The figures are for illustration purposes only and are not drawn to scale. The invention itself, however, both as to organization and method of operation, may best be understood by reference to the detailed description which follows taken in conjunction with the accompanying drawings in which:
In describing the embodiments of the present invention, reference will be made herein to
Certain terminology is used herein for convenience only and is not to be taken as a limitation of the invention. For example, words such as “upper,” “lower,” “left,” “right,” “horizontal,” “vertical,” “upward,” and “downward” merely describe the configuration shown in the drawings. For purposes of clarity, the same reference numbers will be used in the drawings to identify similar elements.
The modular rail system of the present invention relates to door rail systems conventionally used to hold plate glass panes or panels, either in a doorway opening or for use as a wall partition, wherein the rail system runs along one or more edges of the panel and secures the panel at its edges. Typical door rail systems can accommodate a 4″ or 6″ door rail, and if an increased rail height is required, the vendor will use a false cladding on the top of the rail, causing the customer to have to buy an additional piece of glass to accommodate the difference in rail height, and requiring significant additional tooling and cost. The modular rail system of the present invention provides a means to create an extended door rail height, such as a 10″ door rail, from an existing conventional 4″ or 6″ door rail, without requiring additional glass hardware or significant tooling.
The modular rail system of the present invention includes a rail base extension which is adapted to be slideably received and secured within a bottom channel of an otherwise conventional rail framing member. The base extension comprises vertically-oriented sides which are adapted to mate with the side members of the rail framing member above to create an extended flush, solid exterior rail surface, which allows for an extended rail height without the need for false cladding typically used to “extend” the rail height in prior art designs. The base extension further comprises an accessory channel space which can be used to hold various door-related accessories, which are normally hidden within the rail framing member.
One embodiment of the modular rail assembly 100 of the present invention is shown in
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An advantage of the modular system of the present invention is that it is fully customizable. Provided that the customer allows enough time for tooling, a vendor could adapt the door rail to any desired height from a conventional 4″ or 6″ rail, such as creating a 10″ door rail from a 4″ door rail, an 8″ door rail from a 4″ door rail, or a 6″ door rail from a 4″ door rail. Moreover, the modular design of the present invention eliminates the need to purchase additional glass, as well as providing a more solid rail. For example, if the top of the rail is hit where the cladding is positioned, the cladding will not bend due to the fact that there is a solid piece of extruded aluminum behind it, as opposed to sheet metal and tape, as in the prior art designs. The present invention further eliminates the need for false cladding typically used to “extend” the door rail.
Thus, the present invention provides a modular door rail for a glass door which eliminates the need to purchase a new, larger piece of glass when a larger glass door is required. The present invention also provides a modular door rail extension which is securable to an existing glass door rail and extends the door rail for panels shorter than the door frame into which the door is installed. The present invention also provides a modular door extension for field installation which is easily secured to an existing glass door rail. The present invention also provides a customizable modular rail assembly including a rail build-up piece that allows for the creation of a larger door rail from an existing smaller rail.
While the present invention has been particularly described, in conjunction with specific embodiments, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art in light of the foregoing description. It is therefore contemplated that the appended claims will embrace any such alternatives, modifications and variations as falling within the true scope and spirit of the present invention.
Number | Date | Country | |
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62359832 | Jul 2016 | US |