1. Field of the Invention
The present application relates to a draft blocker and more particularly to a draft blocker which engages the bottom of a window or door and prevents drafts from entering beneath the door in a doorway or window.
2. Background of the Disclosure
Homes are generally provided with several doors and windows allowing occupants to enter and leave the home and also to allow sunshine and air into the home at appropriate times. However, in very cold weather and very hot weather, it is desirable to limit or eliminate the flow of air into and out of a home through windows and doors. Flow of air through and around windows and doors during particularly cold weather is often perceived as drafts. Such drafts sometimes cause discomfort. This may lead to an occupant raising the set point of a thermostat and can add to the costs of heating a home. Similarly, in very warm weather, air entering in and around doors and windows creates warm air drafts increasing cooling costs and decreasing comfort.
The elimination or minimization of unwanted air flow or drafts is addressed in many ways. Modern windows, doors and door frames significantly reduce drafts when compared to older designs. However, even with modern windows and doors, drafts are sometimes created after windows and doors age or for other reasons. Home occupants can address some drafts through and around windows with caulks, weather stripping and the like. Numerous products addressing these needs are available commercially.
Doors present special issues in excluding drafts. Doors are normally hinged in door frames. A door has an outer surface, an inner surface, two side edges, a top edge and a bottom edge. The two side edges and the top edge face generally flat surfaces in the door frame. Moreover, the outward facing side or the inward facing side of the door often abuts a narrow surface in the door frame. Weather stripping of various sorts can be applied to the door frame on these narrow surfaces facing the door or on the door frame surfaces facing the door edges. The bottom edge of the door presents difficulties in weather stripping as the bottom edge of the door faces the threshold or door sill. The door sill or threshold is frequently trod upon.
Doors are normally capable of being opened. There is frequently a gap between the bottom of the door and the door sill. Without a gap, if the fit is too tight, the door may stick. Moreover, the bottom of the door must be sufficiently high so that the door may pass over adjacent rugs, mats, flooring and the like. Door frames sometimes deviate from square either when it is installed or as the framing in a house ages. For these and other reasons, the bottoms of doors are frequently worn upwardly or sometimes cut upwardly to accommodate misalignment or floor coverings.
The door sill or threshold is subject to abuse when heavy items are moved into or out of a home. The door sill or threshold is frequently subject accumulations of dirt, accumulations of water, and other abuse. Weather stripping is therefore frequently not a reasonable option for excluding and otherwise sealing the gap between the bottom of the door and the door frame.
Not all home occupants are home owners. Many people rent. People who are not home owners may not be authorized to permanently affix structures to doors or door thresholds. Home owners and non-owning occupants may sometimes wish to apply temporary draft prevention structures to a door. One improvised draft prevention structure is a bunched towel at the base of a closed door. With this approach, one must reposition the towel every time the door is opened and reclosed.
In accordance with the present disclosure, a draft blocker adapted for use on a door or window is provided having an envelope with two linear cavities, each cavity having two closed ends, and a web interconnecting the linear cavities in spaced parallel relationship. The linear cavities are provided with openings allowing insertion of flexible linear elements. The draft blocker is used by installing it adjacent the bottom of the door with the web under the bottom door edge and the linear elements in the linear cavities engaging the inner and outer surfaces of the door itself. The draft blocker thus moves with the door when the door is opened or closed and prevents drafts through the gap between the door bottom and door sill.
Further in accordance with the disclosure, the envelope of the draft blocker is constructed of flexible sheet material with the closed ends of the linear cavities connected to one another by flexible straps.
Still further in accordance with the disclosure, at least a portion of the draft blocker envelope is elastic (stretchy) whereby the door blocker may be stretched in the process of application to a door bottom and thereafter snuggly engage the door bottom holding the draft blocker tightly in place.
Yet further in accordance with the invention, the envelope is sufficiently elastic to allow the draft blocker to snuggly fit doors of various widths by adjusting (cutting) the linear elements only.
Further in accordance with the disclosure, the draft blocker envelope is provided with at least one closure element selectively closing the opening to the linear cavity.
Still further in accordance with the invention, the closure element is a flap.
Yet further in accordance with the disclosure, the draft blocker envelope is constructed of a fabric sheet material joined by sewing and at least a portion of the fabric sheet material is a coated fabric sheet material.
Still further in accordance with the invention, the coated fabric sheet material comprises raised coated islands on said fabric sheet material.
Further in accordance with the disclosure, the linear elements contained in the linear cavities are cylindrical, flexible, foam elements.
In accordance with a alternate draft blocker of the disclosure, at least two flexible linear elements are provided as well as at least two envelope elements. A first envelope element has two linear cavities and a web interconnecting the two linear cavities. Each of the linear cavities has a closed end and an open end. Each of the linear cavities is adapted to accept one of the linear elements. A second envelope element also has two linear cavities and a web interconnecting the two linear cavities. Each of the linear cavities has an open end and the second envelope element is adapted to telescope over the first envelope element with the open ends of the respective linear cavities passing around/into each other. The second ends of the linear cavities in the second envelope element may be open or closed. If closed, the two envelope elements create an adjustable length pair of linear cavities accommodating the flexible linear elements and forming a complete door bottom draft blocker. If the second envelope element has open linear cavity second ends, then a third envelope element similar in construction to the first envelope element is provided to telescope into the second end of the second envelope element. In this manner, an adjustable length pair of linear cavities is created accommodating the linear flexible element and forming a complete under door draft blocker. Fasteners hold the envelope elements together.
It is the principle object of the present disclosure to provide an under door draft blocker which is easily installed, easily removed, and which will not damage the door to which it is applied.
It is yet another object of the present disclosure to provide a draft blocker which is adjustable in length to accommodate different size doors.
It is yet another object of the present disclosure to provide a draft blocker which can be sold as a single product but which is adjustable to fit doors of different widths.
It is another object of the present disclosure to provide a draft blocker which is durable, attractive, easily cleaned by a consumer, easily removed, and easily reinstalled.
It is still another object of the present disclosure to provide a draft blocker which fits snuggly against the bottom of the door, moves easily with the door when one is opening and closing the door, and will not interfere with the door's ability to easily open and close.
These and other objects of the disclosure will become apparent in the following description of the exemplary embodiments taken together with the accompanying drawings.
The disclosure may take physical form in certain parts and arrangements of parts, examples of which will be described in detail and which are illustrated in the accompanying drawings which form a part hereof and wherein:
With reference to
The bottom of the door 12 slides along the floor 16 when the door is opened or closed. In many homes and businesses, the floor 16 may be covered with carpet, rugs, or other floor covering. In some doorways, there is a raised threshold at the base of the door frame 14 on the floor 16. In other doorways, there is no raised threshold. Rather, the floor continues from one room into another room as a flat surface with no raised portion. In such situations, carpeting may be on one or both sides of the doors or other floor covering may be on one or both sides of the door.
The door 12 has a bottom 20. The door 12 also has a hinge edge 22 and a free edge 24. The thickness of the door 12 may vary over its extent but is generally uniform around its edges. The thickness of doors in general is not fixed. Frequently, the thickness of doors around their edges is from one to two inches. Doors thinner than one inch are sometimes encountered. Doors thicker than two inches are sometimes encountered.
The width of doors, that is the length of the door bottom and the door top, also varies. Doors may be 20 inches wide or less. Doors may be 36 inches wide. Some door frames are wider than 36 inches and accommodate two doors, one on each side of the frame, with the doors closing or opening independently of one another. Doors from the interior of a house to the exterior vary in width. Doors connecting apartments and condominiums to common space hallways also vary in the width. However, home entryway doors are frequently in the range of widths from 30-40 inches.
The bottoms of doors are generally flat but are not always parallel to the floor above which they move. Some doors, particularly entryway doors between the outside and the interior of a home slant with a bigger gap between the door bottom and the floor on one side then the other. The slant sometimes is provided to facilitate engagement of a door bottom to a door seal on a threshold. Door bottoms and the floors for thresholds under door bottoms are subject to wear and sometimes become different shape than the flat surface originally intended. Door bottoms are gouged, trimmed and otherwise changed over their lifetime.
With reference to
The first linear cavity 32 and the second linear cavity 34 are interconnected by a web 36. The web 36 is a flat, flexible, generally rectangular piece of material interconnecting the two linear cavities 32, 34 in a spaced parallel relationship. In the preferred embodiment, the web 36 is two layers of material, a top layer and a bottom layer. In the preferred embodiment, the two linear cavities 32, 34 have circular cross sections with a diameter slightly larger than 1⅜ inches. The web 36 interconnecting the two linear cavities 32, 34 is about one inch in width and has a length equal to the length of the two linear cavities 32, 34.
Sewing is not the only method available joining material to form the envelope 30. Some fabrics and sheet materials can be joined through heat welding or adhesives or other means. Any such means is useful in forming the present draft blocker 10 so long as it is used in a way allowing one to define and create the elements described herein.
With reference now to
The second flexible linear element is constructed of a material similar to or identical to the material used to construct the first linear element 42. The second linear element has a diameter equal to the diameter of the first linear element 42. The second linear element can have a length identical to or different from the length of the first linear element 42.
The first flexible linear element 42 has a first end 46 and a second end 48. The second linear element 44 has first end 50 and a second end 52. As seen in
The flexible linear elements 42 and 44 are removable and reinsertable within the first linear cavity 32. As seen in
The second linear cavity 34 is identical in all respects or the mirror image in all respects of the first linear cavity 32 and accommodates linear elements in an identical fashion.
As can be seen best in
Placement of the draft blocker 10 under a door is illustrated in FIG. la. After the linear elements have been trimmed to an appropriate length, the door 20 is at least partially opened so that access to the free edge 24 of the bottom of the door 20 is available. One end of the draft blocker 10 is placed at the free edge end of the bottom of the door 20 and the draft blocker 10 is pushed toward the hinge edge 22 of the bottom of the door 20. Because the envelope 30 is flexible and stretchy, the envelope 30 and the left strap 72 will deform with the left strap laying down adjacent the web 36. The draft blocker 10 can be slid under the door 12. When the draft blocker 10 is slide fully under the door 12, the left strap 72 will be adjacent the hinge edge 22 of the door 12. The left strap 72 may free itself from under the door 20 or may require some urging by a user. Once the left strap 72 is freed, it becomes upright and engages the hinge edge 22 of the door 12. The right strap 76 engages the free edge 24 of the door 12. The first linear cavity 32 engages one side of the door 12 and the second linear cavity 34 engages the opposite side of the door 12. Because the envelope 30 is elastic and stretchy, and because, in most circumstances, the web 36 is less wide than the thickness of the door 12, the draft blocker 10 fits snugly against both faces of the door and both edges of the door providing a neat, tight fit and draft blocking action. The elasticity of the web 36 will also urge the two linear cavities 32, 34 toward one another causing the linear cavities 32, 34 to rotate downwardly and engage the floor 16 under the door. This engagement will be gentle rather than forceful. This provides sufficient engagement to stop or minimize drafts while allowing light engagement minimizing wear on the envelope 30 and draft blocker 10 in general.
The elastic nature of the envelope 30 also allows the envelope to automatically adjust to different width doors. The user can cut the linear elements to a desired size and insert them into the linear cavities 32, 34. The envelope 30 stretches to accommodate the desired size. The envelope 30 may be partially coated with material such as plastic to improve durability. A plastic coating may be provided in the form of coated dots or islands 38 on the bottom of the envelope 30 only as seen in
Another embodiment of the disclosure is illustrated in
The envelope 30 can be fabricated from one or more pieces of sheet material. As previously described, the preferred material is an elastic fabric material stitched or glued together to form the first linear cavity 32, the second linear cavity 34 and the web 36. Additional pieces of sheet material, preferably elastic fabric material are used to create the left strap 72 and the right strap 76 which are stitched or glued to the envelope 30. One method for creating the first and second linear cavities, 32, 34 and web 36 in the envelope 30, is sewing.
A variation on the embodiment shown in
In order to allow easy access to the linear cavities 32, 34 through the slit 84, two rectangular stitch patterns 86 are used to define the web 36. As seen in
Another embodiment of the disclosure is seen in
One end of the tube created is sewn shut forming a closed end.
As can be seen in
A strap 172 preferably made from elastic sheet material interconnects the closed ends 154,174 of the first linear cavity 133 and the second linear cavity 134.
The second envelope element 130 is very similar in structure to the first envelope element 128. The second envelope element 130 has a first linear cavity 133, a second linear cavity 134, and a web 136. The first linear cavity 133 has a closed end 154. The second linear cavity has enclosed end 174. A strap 172 interconnects the closed ends 154,174 of the two linear cavities. The ends of the linear cavities 133, 134 opposite the closed ends are open.
With respect to the elements of the second envelope element 130 thus far described, the second envelope element 130 and the first envelope element 128 are identical.
Longitudinal stitch lines 132 separate the first linear cavity 133, the second linear cavity 134 and the web 136 from one another. A difference between the second envelope element 130 and the first envelope element 128 is the length of the longitudinal stitch lines 132. On the second linear envelope element 130, the longitudinal stitch lines 132 do not extend all the way to the open end of the linear cavities 133, 134. Rather, a portion of the second envelope element 130 adjacent the open ends of the linear cavities 133, 134 is left free.
A first half 192 of a hook and loop fastener is positioned adjacent the end of the web 136 remote from the strap 172 on the first envelope element 128. A second half of a hook and loop fastener is positioned on the inside of the upper layer of the web 136 of the second envelope element 130.
Flexible linear elements 142 are positioned in the first linear cavity 133 and second linear cavity 134 of the second envelope 130.
The first envelope element 128 is joined to the second envelope element 130 in a telescoping manner as seen in
Another embodiment of the disclosure is seen in
The second envelope element 228 is also fabricated from flexible sheet material, preferably a fabric. Two lines of longitudinal stitching 232 (only one of which is visible in the figure) separate the second envelope element into a first linear cavity 333, a second linear cavity 334 and a web 336. The first linear cavity 333 has two open ends. The second linear cavity 334 also has two open ends. The longitudinal stitching 232 does not extend all the way to the ends of the web 336. Rather, the two ends of the web 336 adjacent the open ends of the linear cavities are left unstitched so that the two layers of the web 336 can be separated one from the other. The second halves 294 of two hook and loop fasteners are fixed to the interior surface of the upper layer of the web 336, one fastener half adjacent each end of the web 336. In use, the end user will measure the door to which the draft blocker 210 is to be applied. He will trim the flexible linear elements 242 to have an appropriate total length for the door involved. The linear elements 242 are inserted into the various envelope elements, 226, 228, 230. The three envelope elements are then telescoped together with the second halves 294 of the hook and loop fasteners overlaying the first halves 292 of the hook and loop fasteners on the first and third envelope elements. When fully assembled, the various flexible linear elements 240 abut one another as seen in
It is not necessary that six linear elements be used in the embodiment of
The three envelope elements 226, 228, 230 can be separated from one another and washed in a washing machine if they become soiled. After washing, the linear elements 242 are reinserted, the envelope elements joined as described above, and the draft blocker 210 reinstalled under the door of choice.
In the embodiments using hook and loop fasteners, the lengths of the hook and loop fastener elements are sufficient to provide significant length adjustment for the assembled draft blocker.
All of the embodiments described above provide a draft blocker which is easily sized to match a door of choice, easily installed and uninstalled by the end user, easily washed upon soiling, free of loose flaps and unnecessary layers and attractive and easy to use.
The exemplary embodiment has been described with reference to the preferred embodiments. Obviously, modifications and alterations will occur to others upon reading and understanding the preceding detailed description. It is intended that the exemplary embodiment be construed as including all such modifications and alterations insofar as they come within the scope of the appended claims or the equivalents thereof.
This application is a continuation of U.S. application Ser. No. 12/538,217, filed Aug. 10, 2009, the entire contents of which is herein incorporated by reference.
Number | Date | Country | |
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Parent | 12538217 | Aug 2009 | US |
Child | 13343876 | US |