Embodiments of the present invention relate generally to door systems and, in particular, to door systems incorporating multiple door panels.
Panels in many multi-panel door systems are offset, i.e., the outer or inner surfaces of the panels do not align within a plane. In addition, in many door systems the panels are recessed with respect to the door frame using fixed stops physically placed between the panels and the frame. The fixed stops are secured to the interior facing surfaces of the frame to secure the panels in their recessed positions. Replacing the panels in these systems is difficult and cumbersome.
According to some embodiments, a multi-panel door system includes a fixed panel placed between a door jamb and an astragal of the door frame. The fixed panel is secured to the astragal by securement members driven through a middle section of the astragal and into the fixed panel. The multi-panel door system also includes an active panel placed between the opposite door jamb and the astragal. The active panel is pivotally coupled to the astragal using hinges fixed to the astragal by the securement members. The fixed panel and the active panel are coplanar. Hinge support plates are placed between the hinges and the astragal and communicate forces transmitted through the securement members into deeper portions of the astragal.
While multiple embodiments are disclosed, still other embodiments of the present invention will become apparent to those skilled in the art from the following detailed description, which shows and describes illustrative embodiments of the invention. Accordingly, the drawings and detailed description are to be regarded as illustrative in nature and not restrictive. Unless specified otherwise, all measurements in the description and the illustrations are in inches.
While the invention is amenable to various modifications and alternative forms, specific embodiments have been shown by way of example in the drawings and are described in detail below. The intention, however, is not to limit the invention to the particular embodiments described. On the contrary, the invention is intended to cover all modifications, equivalents, and alternatives falling within the scope of the invention as defined by the appended claims.
According to some embodiments, and as shown in several figures, including
In order to align the first panel 104 and the second panel 106 within a single plane, in some embodiments the first panel 104 is placed between the first side jamb 108 and the astragal 114 where it is fixed in place using securement members 130, such as screws, nails, etc., driven through specific locations in the astragal 114. In particular, and as shown in
The first filler stick 132 acts as a pivot point so that the fixed panel 104 rotates into position between the first side jamb 108 and the astragal 114, as shown in
In some embodiments, the first insert member 132 is placed within a rout 133 in the first side jamb 108 and/or fits within a rout in the fixed panel 104 when the fixed panel 104 is rotated into the door frame 102. Similarly, the second insert member 134 may be placed within a rout 135 in the fixed panel 104 and/or within a rout in the astragal 114 when the fixed panel 104 is rotated into the door frame 102. In this manner, the insert members 132, 134 form tongue-in-groove joints that add stability to the multi-panel door system 100, particularly in directions perpendicular to the outer surface 124 of the fixed panel 104. At the same time, the insert members 132, 134 facilitate the removal of the fixed panel 104 because the securement of the fixed panel 104 does not require additional securement members driven into the side jamb 108, sill 112, or header 113 of the door frame 102. At the same time, in some embodiments, additional securement members, such as staples, may be used to supply supplemental securing forces in a manner that does not substantially hinder panel removal. In some embodiments, the second panel 106 and/or the second side jamb 110 have routs, similar to the routs 133, 135, that are used to mount locking hardware or other components. In those embodiments, the arrangement of routs creates panels 104, 106 having similar or identical grooved patterns.
As further shown in
In some embodiments, and as further shown in several of the figures, such as
Thus, the securement members 130 align the first panel 104 and the active panel 106. As a result, the outer surface 126 of the active panel 106 is coplanar with the outer surface 124 of the first panel 104 (i.e., within the outer panel plane 128) when the active panel 106 is in a closed position. The hinges 140 enable the active panel 106 to pivot into an open position, in which the outer surface 126 of the vent panel 106 is no longer coplanar with the outer surface 124 of the first panel 104 (i.e., the outer surface 126 lies within a plane forming an angle with the outer panel plane 128). Spacers may also be placed between the door frame 102 and the panels 104, 106 in order to create a more uniform spacing.
The multi-panel system 100 shown in
In some embodiments, and as shown in several figures, such as
Securing the panels 104, 106 to the astragal 114 using securement members 130 driven through the middle portion 136 of the astragal stem 160 enables an aesthetically pleasing design and increased access for panel replacement. However, forces on the multi-panel door system 100 (e.g., forces from operation of the active panel, impact of external objects, wind loads, etc.), might place undesired levels of stress on particular sections of the astragal 114. To address that issue, in some embodiments the door assembly 100 includes hinge support brackets 150 that disperse forces transmitted through the securement members 130 into a larger portion of the astragal 114. Specifically, hinge support bracket 150 includes a first portion 152 and a second portion 154 that forms an angle 156 with the first portion 152. For example, in the hinge support bracket 150 shown in
As shown in
In some embodiments, the astragal 114, also referred to as the astragal assembly 114, is formed by two components: a stem 160 and a cap 162, also referred to as the astragal stem 160 and the astragal cap 162, respectively. The stem 160 and the cap 162 may be formed of two distinct materials. In particular, the stem 160 may be formed of a material selected for its strength, durability, cost, and/or aesthetic appeal. The cap 162 may also be selected of a different material for its strength, durability, cost, and/or aesthetic appeal. For example, interior facing stem 160 may be formed of a more expensive wood, such as mahogany, while the cap 162 may be formed of a less expensive wood to reduce the overall cost of the door system 100. In addition, the cap 162 may be cut to a specific size so that the exterior surface 164 aligns with a screen plane 166, whose position depends on the depth of the door frame 102 (e.g., the depth of the first side jamb 108 and/or the second side jamb 110). In particular, and as shown in
As shown in several of the figures, in particular
As best shown in
One advantage of the sill screen track 174 is that it enables a smaller sill profile while still enabling the egress of water. For example, in some embodiments the height 197 of the sill assembly 198 is less than two inches, in particular, approximately 1.5 inches. Other systems, in contrast, use a series of apertures, which requires a sill block with a higher profile, e.g., two inches or more, so that pressure from water buildup behind the screen track pushes moisture through the apertures. The higher profile creates a more hazardous construction as users are more prone to trip as they pass over the sill 112 or the threshold of the door.
According to various embodiments, the multi-panel door system 100 includes more than two (e.g., 3, 4, or more) panels. For each panel, the stops that fix the panel to the frame are hidden between the side or sides of the panel and the jambs and/or astragal(s) of the frame. The hinge support plates are also hidden from view (e.g., by the hinge plate and the seals) and do not require additional steps to install or activate once the multi-panel door system is installed.
Various modifications and additions can be made to the exemplary embodiments discussed without departing from the scope of the present invention. For example, while the embodiments described above refer to particular features, the scope of this invention also includes embodiments having different combinations of features and embodiments that do not include all of the described features. Accordingly, the scope of the present invention is intended to embrace all such alternatives, modifications, and variations as fall within the scope of the claims, together with all equivalents thereof.
This application claims the benefit of U.S. Provisional Patent Application No. 61/941,270, entitled DOOR SYSTEM AND METHOD OF MAKING, filed on Feb. 18, 2014, the content of which is incorporated by reference in its entirety for all purposes.
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