This invention relates to gutter debris preclusion devices for rain gutters and similar structures for keeping leaves and other debris out of the rain gutters. More particularly, this invention relates to de-freezing rain gutter debris preclusion devices.
There are many types of conventional gutter debris preclusion devices (gutter guard systems). These gutter guard systems generally span the opening of a gutter and are designed to keep leaves and debris from entering a gutter while allowing the water to pass through to the gutter. One problem experienced by all different types of gutter guard systems in certain environments is that when freezing temperatures are encountered, water on and adjacent the gutter guard will freeze, and preclude water from passing into the gutter. When such gutter guard performance is inhibited, freeze and thaw cycles can result in dangerously large icicles forming off of edges of the gutters or other portions of the roof. Furthermore, the weight of the snow and ice on the gutter guard can potentially damage the gutter or gutter guard, or at least require that it be designed to withstand high loads, increasing the complexity, and cost of the gutter guards. Gutter guards that experience these freezing issues are called non-de-icing gutter guards.
Another problem with non-de-icing gutter guards is “ice dams” can form. Particularly, the heat from the inside of a building can transfer out to the roof and begins melting snow. The melted snow run-off goes down the roof and when melted snow then encounters the portion of the roof overhanging the building, which is general of a freezing temperature, the melted snow begins to freeze again. This creates a build up of a wall of frozen water. Then the water begins to pool above the ice dam and then the melted snow, with nowhere else to go, will tend to find its way through the roof and into the home, causing damage.
There are many various prior art gutter guard systems that attempt to address this problem, such as a system described in U.S. Pat. No. 7,448,167 and the devices described in U.S. Pat. Nos. 8,079,183 and 8,438,787. Each of these patents are incorporated herein in their respective entireties. Each of these systems and devices and other conventional devices, which attempt to de-ice have certain drawbacks. And the present invention overcomes these drawbacks.
The following presents a simplified summary in order to provide a basic understanding of some aspects of the claimed subject matter. This summary is not an extensive overview, and is not intended to identify key/critical elements or to delineate the scope of the claimed subject matter. Its purpose is to present some concepts in a simplified form as a prelude to the more detailed description that is presented later.
Various embodiments describe a heat cable cover for gutter guard systems.
For example, one aspect of the disclosed embodiments, a heat cable cover comprising: a body being operably configured to attach to at least one of the gutter debris preclusion and the gutter, wherein the body includes a lip being operably configured to extend beyond an outer edge of the gutter when the cover is in use; a front member; a middle portion disposed between the body and the front member; and, a channel defined by the middle portion and at least the front member, wherein the channel is operably configured to receive the heat element. In some exemplary embodiments, the body, the middle portion and the front member are made from a unitary piece of material. Still further in other embodiments, the lip includes an angle relative to the body. Yet a further embodiment of the invention the channel has a cross-sectional shape of a partial rectangle. In other exemplary embodiments, the channel has a cross-sectional shape of a partial ellipse. Still further, in other exemplary embodiments, the channel has a cross-sectional shape of a partial sinusoidal curve. The cover in other exemplary embodiments further includes a surface of the body. In some exemplary embodiments, the body includes a fastener area operably configured to receive a fastener. In other exemplary embodiments, the front member includes a bottom portion, wherein the bottom portion extends toward the channel.
In another aspect of the present invention, a cover is disclosed for use with a gutter debris preclusion device attachable to a gutter, comprising: a body being operably configured to attach to at least one of the gutter debris preclusion device and the gutter, wherein the body includes a lip being operably configured to extend beyond an outer edge of the gutter guard when the cover is in use; a front leg; a middle portion disposed between the body and the front leg; a heat element; and, a channel defined by the middle portion and at least the front member, wherein the channel is operably configured to receive the heat element.
In yet another aspect of the disclosed embodiments, the device described above is provided, wherein the channel has a cross-sectional shape of a partial rectangle. In other embodiment, the device described above is provided, wherein the channel has a cross-sectional shape of a partial ellipse. Still in further embodiments, the device described above is provided, wherein the channel has a cross-sectional shape of a partial sinusoidal curve. In other exemplary embodiments, the device described above is provided wherein the front member includes a bottom portion, wherein the bottom portion extends toward the channel.
In another aspect of the present invention, a device is disclosed for use with a heat cable and gutter guards, comprising: a cover having a body and a front leg, the body being operably configured to attach to the gutter debris preclusion device, wherein the body includes a lip being operably configured to extend beyond an outer edge of the gutter when the cover is in use; wherein a channel is defined by the body and the front leg; and, wherein the channel is operably configured to receive the heat cable when the device is in use.
In yet another aspect of the disclosed embodiments, the device described above is provided, wherein the channel has a cross-sectional shape of a partial rectangle. In yet another aspect of the disclosed embodiments, the device described above is provided, the channel has a cross-sectional shape of a partial ellipse. Still further in other exemplary embodiments the device described above is provided, wherein the channel has a cross-sectional shape of a partial sinusoidal curve. In yet another aspect of the disclosed embodiments, the device described above is provided, further including a second body member opposed to the body and wherein the channel is further defined by the second body member. In yet another aspect of the disclosed embodiments, the device described above is provided, wherein the wherein the lip includes an angle relative to the body.
These and other features and advantages of this invention are described in, or are apparent from, the following detailed description of various exemplary embodiments of the devices and methods according to this invention.
Various exemplary embodiment of this invention will be described in detail, with reference to the following figures, wherein:
Referring to the drawings, wherein like reference numerals represent like parts throughout the various drawing figures,
The gutter 10 is any conventional gutter. The gutter 10 is affixed to a building 30. The building will generally include a rafter 32 and a fascia 34 attached to the rafter. Shingles will generally be disposed above the fascia and rafters to shed water off the building. The construction of the building is not determinative for this invention. A building with a gutter and a gutter guard is merely an exemplary intended environment and exemplary application of this invention.
The heat element 180, when energized, will increase in temperature. As the heat element increases in temperature, the generated heat will be transferred to the cover 100. This heat transfer happens via conduction to the cover 100. Heat transfer also happens from the heat element 180 to the gutter guard, when the device is in use, since the cover 100 is in direct contact with the heat element 180 and is holding it in place in the channel 180 and directly against the gutter guard 20. The heat transfer can also occur through convention and radiation from the heat element 180 the cover 100 and the gutter guard 20. The more the cover I 00 is in contact with the heat element 180, the more the heat transfer will increase and thus the overall functionality of the device.
The heat being transferred from the heat element 180 to the cover 100 and the gutter guard will transfer to the surrounding area and throughout the gutter guard 20 and the gutter 10. It will and should be understood and appreciated that the transfer of heat from the heat element 180 will be directly related to the materials of the cover 100 and the gutter guard 20.
As heat is transferred throughout the gutter guard 20 and the gutter 100, snow S will melt. The snowmelt M will fall through the gutter guard 20 and into the gutter 10 as intended by conventional gutter guard devices. Note, the snow melt M is not shown in
The middle member 130 is disposed between the main body 110 and the front member 120. In this exemplary embodiment, the device 130 is a unitary piece of material. The single piece of material forms the main body 110, the front member 120 and the middle member 130.
It is preferred that the cover 100 be made of aluminum. It should be appreciated that the various parts of the cover 100 could be made of differing materials.
In this exemplary embodiment, the cover 100 is preferably made from a flexible material so that it may be bendable along its length. Being bendable along its length will enable the cover 100 to be used on a gutter guard that has a steeper angle relative to the building fascia and not perpendicular as shown in
In this exemplary embodiment a portion of the main body 110 extends beyond the gutter front edge 12. The portion of the main body 110 that extends or overhangs the front edge 12 includes a lip 112 as shown in
In this exemplary the main body 110 is operably configure to attach to the gutter guard 20. The main body 110 in this exemplary embodiment includes a fastening area 116. In this exemplary embodiment the fastening area 116 includes an indent 117 on a surface of the main body 110. The indent is utilized as a guide for inserting fasteners, not shown, through the cover 100 and into the gutter guard 12 and/or the gutter 10. It will be appreciated that a variety of fasteners can be utilized, such as but not limited to screws, rivets, etc. The indent 117 will help an installer visually understand where to place the fastener when attaching the cover 100 to the gutter.
It should be appreciated that in other exemplary embodiments a fastener can be utilized on under surface 118 of the main body 110. As will be shown below in other various embodiments, a double-sided tape is utilized to affix the cover to the gutter or the gutter guard.
The middle portion 130 is a bend in the material of cover 100. The middle portion 130 connects the main body 110 to the front member 120. The cross-sectional shape of the middle portion 130, in this embodiment is generally arched shaped. It is preferred in this embodiment to be a partial sinusoidal curve.
The front member 120 includes a bottom portion 122. The bottom portion 122, when the cover 100 is in use and installed on the gutter 10, is operably configured to be in contact with the gutter guard 20. With this arrangement, the heat element will remain securely within the channel 140. The front member 120, when the cover 100 is in use, will stop the snowmelt M from dripping off the end of the gutter as shown in
In this exemplary embodiment, the front member has a front member angle 124, which is relative to the plane 102 of the main body 110 as shown in
The cover 200 further includes a fastener 250. The fastener 250 is disposed on the surface 218. The fastener is preferred to be any conventional double-sided tape. This embodiment does not include an indent like the indent 117 of the cover 100.
The cover 300 further includes a fastener 350. The fastener 350 is disposed on the surface 318. The fastener is preferred to be any conventional double-sided tape. This embodiment does not include an indent like the indent 117 of the cover 100.
It should and will be appreciated that various embodiments of covers made in accordance with the present invention can be utilized with a different types of gutter guards and different shaped gutter guards. Some examples of different shaped and types of gutter guards are illustrated in
The main body 810 includes a top surface 817 and a bottom surface 818. The main body 810 further includes an indent 816. The main body 810 further includes a front lip 812 having a lip angle 814, relative to the plane of the main body 802.
A difference between the cover 800 and the cover 100 is that the cover 800 further includes a second body member 823 attached to the bottom member 822. The second body member 823 includes channel surface 824. The second body member 823 further defines the channel 840. The second body member 823 extends along second body member plane 825. It is preferable that the second body member plane 825 be substantially parallel to the main body plane 802. The second body member 823 extends along the second body member plane 825 toward the lip 812. The channel surface 824 is operably configured to be engaged with the heat element 880 when the cover is in use. The second body member includes an end 826 that extends toward the main body member 810. The end 826 is angled from the plane 825.
A benefit that will be readily appreciated with the cover 800, is that the cover 800 does not push the heat cable 880 against the gutter guard 1420. Further, the life span of the heat element 880 will be increased because the heat element 880 is less exposed to roof sand grind that could over time degrade and/or penetrate a plastic outer jacket of the heat element.
Another benefit with the cover 800 having the second body member 823 is that the channel 840 is capable of better retaining the heat element 880 when in use than in embodiments without the second body member. With the heat element 880 being better retained in the channel 840 by the second body member 823 the cover 800 is more efficiently installed than other covers. An installer will snap or slide the heat element 880 in the channel 840 then when installing the cover 800 on the gutter guard 1420, the installer will not have to hold the heat element 880 while attempting to fasten the cover 800 to the gutter guard 1420 over the heat element 880.
Another benefit of cover 800 is that with the second body member 823 creating a more enclosed channel 840 is that the cover 800 is efficient in radiating heat and has less heat loss than conventional covers. Having the second body member 823 being a solid piece of material will increase heat conduction from the heat element 880.
It should be appreciated that covers made in accordance with various exemplary embodiments of the present invention have channels that will have various cross-sectional shapes among the various embodiments. These various cross-sectional shapes of the channel are preferably configured to be similarly shaped as a heat element that will be utilized with the cover. The more closely fitted the heat element is within the channel, the more effective the heat transfer will be from the heat element to the cover when the heat element is energized.
It should be apparent that the cover can be constructed of other materials such as plastic, expanded metal, perforated metal, slotted metal or louvered metal slits, and so forth.
The present disclosure is not to be limited in terms of the particular embodiments described in this application, which are intended as illustrations of various aspects. Many modifications and variations can be made without departing from its scope, as will be apparent to those skilled in the art. Functionally equivalent methods and apparatuses within the scope of the disclosure, in addition to those enumerated herein, will be apparent to those skilled in the art from the foregoing descriptions. Such modifications and variations are intended to fall within the scope of the appended claims. The present disclosure is to be limited only by the terms of the appended claims, along with the full scope of equivalents to which such claims are entitled. It is to be understood that this disclosure is not limited to particular methods, implementations, and realizations, which can, of course, vary. It is also to be understood that the terminology used herein is for the purpose of describing particular embodiments only, and is not intended to be limiting.
With respect to the use of substantially any plural and/or singular terms herein, those having skill in the art can translate from the plural to the singular and/or from the singular to the plural as is appropriate to the context and/or application. The various singular/plural permutations may be expressly set forth herein for sake of clarity.
While various aspects and embodiments have been disclosed herein, other aspects and embodiments will be apparent to those skilled in the art. The various aspects and embodiments disclosed herein are for purposes of illustration and are not intended to be limiting, with the true scope being indicated by the following claims.
This application claims the benefit of and is a divisional of U.S. patent application Ser. No. 15/049,372 filed Feb. 22, 2016 (issuing as U.S. Pat. No. 10,501,940 on Dec. 10, 2019), which claims the priority and benefit of U.S. Provisional Patent Application No. 62/119,009, filed Feb. 20, 2015, the contents of which are hereby incorporated by reference in their entirety.
Number | Date | Country | |
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62119009 | Feb 2015 | US |
Number | Date | Country | |
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Parent | 15049372 | Feb 2016 | US |
Child | 16708371 | US |