The present application relates generally to hinges for doors and windows, and more specially to butt hinges for swinging doors and windows.
Swinging door and window assemblies are well known in the art. Swinging door and window assemblies commonly employ one or more door or butt hinges used to pivot the door or window when opening or closing the door or window. Conventional door or butt hinges are composed of two leaves pivotably coupled to one another by a pivot pin and interlocking sleeve, knuckle, or pintle. One leaf is fixedly coupled to the door edge or window sash, while the other leaf is fixedly coupled to the door or window frame. A drawback to existing door or butt hinges, however, is that they typically require additional sealing to prevent water from seeping through the attachment points and infiltrating the frame after installation.
What is needed in the industry is a butt hinge for windows and doors that is self-sealing to reduce or prevent infiltration of water into the frame after installation.
Embodiments of the present disclosure meet the need of the industry for a door or butt hinge that is self-sealing to reduce or prevent infiltration of water into a window or door frame after installation.
An embodiment of the present invention is a hinge for coupling a window to a window frame. The hinge includes a frame interface assembly, a sash leaf, and a pin assembly. The frame interface assembly is adapted to attach to the window frame. In an embodiment, the frame interface assembly is adapted to attach to the window frame at one or more attachment points, and includes a frame leaf and a sealing member. The frame leaf defines a mounting face adapted to attach to an exterior of the window frame and a plurality of spaced apart knuckles. The sealing member defines an attachment point liquid barrier sealing face adapted to attach to an interior of the window frame opposite the mounting face. In an embodiment, the sash leaf can be adapted to attach to the window sash, and defines one or more knuckles. A pin assembly includes a hinge pin extending through the plurality of spaced apart knuckles of the frame leaf and the one or more knuckles of the sash leaf to operably couple the frame leaf and the sash leaf.
In another embodiment, the hinge couples a door to a door frame. In such an embodiment, the sash leaf can alternatively be referred to as a door panel leaf. The structure of the hinge is otherwise consistent with the hinge described above, and the various embodiments of the self-sealing hinge described in this disclosure.
One function of the self-sealing hinge is to reduce or prevent liquid, such as water, from entering the interior of the frame through the attachment points, when the self-sealing hinge is attached to the frame. The hinge is self-sealing and eliminates the need to apply additional silicone sealant during installation, thereby increasing the reliability of weather proofing and improving the efficiency of installation of the self-sealing hinge to an existing frame or the manufacture of windows and doors employing the self-sealing hinges. In addition to the aforementioned benefits, a sealing member can also be employed to reduce the thickness of the frame at the hinge attachment points. A reduction in the thickness of the frame can reduce the weight, required materials for construction, and cost of windows and doors employing the self-sealing hinge.
According to an embodiment of the invention, a hinge for coupling a movable element to a frame that receives the movable element includes a frame interface assembly adapted to attach to the frame at one or more attachment points. The frame interface assembly includes a first leaf and a sealing member, the first leaf defining a mounting face adapted to abut an exterior surface of the frame and a plurality of spaced apart knuckles, the sealing member defining an attachment point liquid barrier sealing face adapted to abut an interior surface of the frame opposite the mounting face. The hinge further includes a second leaf adapted to attach to the moveable element, with the second leaf defining one or more knuckles, and a pin assembly including a hinge pin extending through the spaced apart knuckles of the first leaf and the one or more knuckles of the second leaf to operably couple the first leaf and the second leaf. In embodiments of the invention the sealing member may be made from metal or a resilient material such as plastic or rubber. In further embodiments, the sealing member may include a gasket made from silicone or rubber material. The sealing member may include an installation tab, which may be detachable from the sealing member.
In further embodiments, a hinge for coupling a window sash to a window frame includes a frame interface assembly adapted to attach to the window frame at one or more attachment points. The frame interface assembly includes a frame leaf and a sealing member, with the frame leaf defining a mounting face adapted to abut an exterior surface of the window frame and a plurality of spaced apart knuckles. The sealing member defines an attachment point liquid barrier sealing face adapted to abut an interior of the window frame opposite the mounting face. A sash leaf is adapted to attach to the window sash, the sash leaf defining one or more knuckles. The hinge further includes a pin assembly including a hinge pin extending through the spaced apart knuckles of the frame leaf and the one or more knuckles of the sash leaf to operably couple the frame leaf and the sash leaf. In embodiments of the invention the sealing member may be made from metal or a resilient material such as plastic or rubber. In further embodiments, the sealing member may include a gasket made from silicone or rubber material. The sealing member may include an installation tab, which may be detachable from the sealing member.
In further embodiments, a hinge for coupling a door panel to a door frame includes a frame interface assembly adapted to attach to the door frame at one or more attachment points. The frame interface assembly includes a frame leaf and a sealing member, with the frame leaf defining a mounting face adapted to abut an exterior surface of the door frame and a plurality of spaced apart knuckles. The sealing member defines an attachment point liquid barrier sealing face adapted to abut an interior of the door frame opposite the mounting face. A door panel leaf is adapted to attach to the door panel, the door panel leaf defining one or more knuckles. The hinge further includes a pin assembly including a hinge pin extending through the spaced apart knuckles of the frame leaf and the one or more knuckles of the door panel leaf to operably couple the frame leaf and the door panel leaf. In embodiments of the invention the sealing member may be made from metal or a resilient material such as plastic or rubber. In further embodiments, the sealing member may include a gasket made from silicone or rubber material. The sealing member may include an installation tab, which may be detachable from the sealing member.
In embodiments of the invention, an assembly for creating an opening in the exterior envelope of a structure includes a movable element operably coupled to a frame with a hinge. The frame defines an opening that receives the movable element. The hinge includes a frame interface assembly adapted to attach to the frame at one or more attachment points. The frame interface assembly includes a first leaf and a sealing member, with the first leaf defining a mounting face adapted to abut an exterior surface of the frame and a plurality of spaced apart knuckles. The sealing member defines an attachment point liquid barrier sealing face adapted to abut an interior surface of the frame opposite the mounting face. The hinge further includes a second leaf adapted to attach to the movable element, the second leaf defining one or more knuckles, and a pin assembly including a hinge pin extending through the spaced apart knuckles of the first leaf and the one or more knuckles of the second leaf to operably couple the first leaf and the second leaf. The moveable element may be a door panel or a window sash.
The summary above is not intended to describe each illustrated embodiment or every implementation of the present disclosure. The figures and the detailed description that follow more particularly exemplify these embodiments.
The disclosure can be more completely understood in consideration of the following detailed description of various embodiments of the disclosure, in connection with the accompanying drawings, in which:
a-3c are isometric views of sealing members in accordance with an embodiment of the disclosure;
While the disclosure is amenable to various modifications and alternative forms, specifics thereof have been shown by way of example in the drawings and will be described in detail. It should be understood, however, that the intention is not to limit the disclosure to the particular embodiments described. On the contrary, the intention is to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the disclosure as defined by the appended claims.
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In one embodiment, frame interface assembly 102 attaches to frame 108 at one or more attachment points 110, and includes a first or frame leaf 112 and sealing member 114. Frame leaf 112 defines a mounting face 116 adapted to attach to the exterior of the frame 118. Frame leaf 112 also defines a plurality of spaced apart knuckles 120. Sealing member 114 defines attachment point liquid barrier sealing face 122 adapted to attach to the interior of frame 124, opposite mounting face 116. In one embodiment, a second or sash leaf 104 defines one or more knuckles 126. Pin assembly 106 includes hinge pin 128 extending through the plurality of spaced apart knuckles 120 and the one or more knuckles 126 to pivotably couple the frame leaf 112 to the sash leaf 104.
A function of self-sealing hinge 100 is to reduce or prevent liquid, such as water, from entering the interior of frame 108 through attachment points 110, when self-sealing hinge 100 is attached to frame 108. Self-sealing hinge 100 is self-sealing and eliminates the need to apply additional silicone during installation, thereby increasing the reliability of weather proofing and improving the efficiency of installation of self-sealing hinge 100 to existing frame 108 or the manufacture of windows and doors employing self-sealing hinges 100.
In addition to the aforementioned benefits, sealing member 114 can also be employed to reduce the thickness (t) of frame 108 at hinge attachment points 110. In hinges of the prior art, the portion of hinge 100 that attaches to frame 108, attaches only to frame 100. By contrast, in an embodiment of the present disclosure, frame 108 is sandwiched between frame leaf 112 and sealing member 114. Accordingly, the profile thickness (t) of frame 108 can be thinner than the prior art, as the frame 108 need not be the sole structure for retaining fasteners 111 at attachment points 110. A reduction in the thickness (t) of frame 108 can reduce the weight, required materials for construction of frame 108, and cost of windows and doors employing self-sealing hinge 100.
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In one embodiment, sealing member 114 can include gasket 132. Gasket 132 is constructed of a rubber or silicone material. Gasket 132 is configured to surround the plurality of indentations 130. In one embodiment, gasket 132′ (
In one embodiment, sealing member 114 includes installation tab 134. Tab 134 may be used when attaching sealing member 114 to frame 108. The function of tab 134 is to assist in the location and positioning of sealing member 114 during installation. Once sealing member 114 is attached to frame 108, tab 134 can be removed. For example, tab 134 can be coupled to the main body 136 of sealing member 114 by a perforated or weakened joint or connection point that can readily break or tear upon a twisting, bending, shear or tensile force, thereby separating tab 134 from main body 136. In one embodiment, tab 134 includes an aperture 138 to assist in the location, positioning, installation, or removal of tab 134.
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Referring to FIGS. 4 and 6-7, at step S2 sealing member 114 is mounted to the interior of the frame 124. In one embodiment, sealing member 114 is mounted to frame 108 via fasteners 111. In one embodiment, fasteners 111 are screws. In other embodiments, fasteners 111 may be bolts, rivets, pins, nails, or the like. Sealing member 114 is mounted so that attachment point liquid barrier sealing face 122 is aligned with apertures 140 on the interior of the frame 124. In one embodiment, two fasteners 111 are used to fixedly couple or secure sealing member 114 to frame 108. In one embodiment, the fasteners 111 pass through the second 140b and fourth 104d apertures. Each fastener 111 passes through aperture 140 and into the main body 136 of sealing member 114. In some embodiments, as depicted in
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Referring to FIGS. 4 and 11-12, at step S6 hinge pin 128 is inserted into the sash leaf bore 148, the bushing bore 146, or the frame leaf bore 144, thereby pivotably coupling sash leaf 104 to frame leaf 112. Referring to
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Referring to FIGS. 4 and 15-16, at step S8, cover plate 164 is mounted to sash leaf 104. In one embodiment, one or more rails 170 defined on cover plate 164 can slide into one or more tracks 166 defined in sash leaf 104. Cover plate 164 can be affixed in place via an adhesive or can be friction fit into track 166. In one embodiment, rail 170 includes one or more ribs 168, non-linear, or textured areas, to increase friction between cover plate 164 and sash leaf 104. In one embodiment, no cover plate 164 is required for complete assembly.
In one embodiment, a sealing member 114 can be employed on in conjunction with the sash leaf in addition to or in the alternative to employment in conjunction with the frame leaf.
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Embodiments of the disclosure are discussed in detail above. In describing embodiments, specific terminology is employed for the sake of clarity. However, the present disclosure is not intended to be limited to the specific terminology so selected. A person skilled in the relevant art will recognize that other equivalent parts can be employed and other methods developed without parting from the spirit and scope of the disclosure.
For purposes of interpreting the claims for the present invention, it is expressly intended that the provisions of 35 U.S.C. §112(f) are not to be invoked unless the specific terms “means for” or “step for” are recited in the subject claim.
The present application claims the benefit of U.S. Provisional Application No. 62/034,379 filed Aug. 7, 2014, said application being hereby incorporated herein in its entirety by reference.
Number | Date | Country | |
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62034379 | Aug 2014 | US |