The present disclosure is directed to draft arresters for overhead retractable doors and, more particularly, to non-contact draft arresters for roll-up overhead retractable doors.
Exemplary embodiments include a draft arrester for an overhead door. An exemplary embodiment may include a flexible draft curtain extending between a ceiling structure and a wound-up portion of the overhead door. The draft arrester may include a follower assembly, which may include one or more wheels arranged to roll against the overhead door. An exemplary embodiment may include a repositionable arm arranged to press the wheels against the wound-up portion of the door.
In an aspect, a draft arrester for a roll-up door may include a draft curtain including a lower end and an upper end; a first pair of spaced-apart wheels operatively coupled to the lower end of the draft curtain, the first pair of spaced-apart wheels biased against a portion of the roll-up overhead door; and a curtain support coupled to the upper end of the draft curtain and adapted to be mounted above the first pair of spaced-apart wheels.
In a detailed embodiment, the first pair of spaced apart wheels may be mounted approximate a first end of a first repositionable arm, and the first repositionable arm may be pivotable about a pivot located proximate a second end of the first repositionable arm. In a detailed embodiment, a draft arrester may include a spring component arranged to bias the first end of the first repositionable arm towards the portion of the door. In a detailed embodiment, at least one of the wheels may be weighted, and the weighted wheel may be arranged to bias the pair of spaced-apart wheels towards the portion of the door. In a detailed embodiment, a draft arrester may include a second pair of spaced-apart wheels operatively coupled to the first end of the draft curtain, the second pair of spaced-apart wheels being biased against the portion of the door. In a detailed embodiment, a draft arrester may include a substantially horizontal rail extending along the lower end of the draft curtain and interposing the first pair of spaced-apart wheels and the second pair of spaced-apart wheels. In a detailed embodiment, the draft curtain may be substantially flexible.
In an aspect, an overhead door assembly may include a rotatable roller; an overhead door windable onto the rotatable roller, the door being arranged to at least partially cover an opening having a width, a height, and at least one overhead boundary; a first wheeled follower biased against a portion of the overhead door wound around the rotatable roller; and a draft curtain extending vertically between the wheeled follower and the overhead boundary, while at the same time the draft curtain extends horizontally approximately the width of the opening.
In a detailed embodiment, the overhead boundary may be a ceiling. In a detailed embodiment, the draft curtain may be substantially flexible. In a detailed embodiment, the first wheeled follower may include a first pair of spaced-apart wheels mounted proximate a first end of a first repositionable arm, and a second end of the first repositionable arm may include a pivot. In a detailed embodiment, the first wheeled follower may include a spring component arranged to bias the first pair of spaced-apart wheels against the portion of the overhead door wound around the rotatable roller. In a detailed embodiment, at lease one of the wheels may be weighted, and the weighted wheel may be arranged to bias the first pair of spaced-apart wheels against the portion of the overhead door wound around the rotatable roller. In a detailed embodiment, an overhead door assembly may include a substantially horizontal rail extending from the first wheeled follower and along the draft curtain. In a detailed embodiment, an overhead door assembly may include a second wheeled follower biased against the portion of the overhead door wound around the rotatable wheel, and at least a portion of the substantially horizontal rail may interpose the first wheeled follower and the second wheeled follower.
In an aspect, a draftless overhead door may include a flexible overhead door; a rotatable roller adapted to have at least a portion of the flexible overhead door wound therearound; a motor operatively coupled to the rotatable roller to wind and unwind the flexible overhead door, where unwinding of the flexible overhead door lowers the flexible overhead door and winding of he flexible overhead door raises the flexible overhead door; a vertical door track arranged to guide movement of the flexible overhead door; a wheel biased against a portion of the flexible overhead door wound around the rotatable roller; and a curtain extending vertically between an upper structure and the wheel, while at the same time extending horizontally proximate a width of the overhead flexible door.
In a detailed aspect, an overhead door may include a spring component arranged to bias the wheel towards the rotatable roller. In a detailed embodiment, the wheel may be mounted to a first end of a repositionable arm, and a second end of the repositionable arm may include a pivot. In a detailed embodiment, the wheel may include a pair of spaced-apart wheels. In a detailed embodiment, the door may have a width, and the draft curtain may extend substantially the entire width of the door.
The detailed description refers to the following figures in which:
Exemplary embodiments described and illustrated herein include apparatus and methods for inhibiting drafts over roll-up retractable doors. It will be apparent to those of ordinary skill in the art that the exemplary embodiments discussed herein are exemplary in nature and may be reconfigured without departing from the scope and spirit of the present invention. However, for clarity and precision, the exemplary embodiments as discussed herein may include optional steps, methods, and features that one of ordinary skill should recognize as not being a requisite to fall within the scope of the present disclosure as defined by the claims.
An exemplary door draft arrester 10 is shown in
In an exemplary embodiment, a door frame 28 may be inset within the interior of the building proximate the opening. The door frame 28 may include opposing vertical members 30, 32 that may be mounted respectively to the left and right side walls 22, 24. Each vertical member 30, 32 may include a pair of channel guides 34 that cooperate to define a vertical channel 36 into which lateral ends 38 of a repositionable door 12 may extend. In exemplary form, a channel guide 34 may comprise a vertically oriented angle iron segment 42 having a deflector 44 mounted to its proximal end. An exemplary deflector 44 is adapted to be angled outward away from the channel 36 so that adjacent deflectors 44 cooperate to provide a tapered mouth feeding into the channel 36. In this fashion, as the door 12 is repositioned from a retracted position toward a barrier position, the free horizontal end of the door may contact one of the deflectors 44, which may route lateral ends 38 of the door 12 into the channel 36. The precise dimensions of the angle iron segments 42 and deflectors 44 may be a matter of design choice. Likewise, the angle at which the deflectors 44 are oriented may be a matter of design choice; the greater the angle, the less gradual the taper.
In an exemplary embodiment, a horizontal header 46 that spans the complete widthwise dimension of the opening may be mounted on the interior side of the opening. In an exemplary form, the header may comprise a Lexan or metal boxed framework that mounts directly to the header wall 26 to provide a partial enclosure for a repositionable curtain assembly 48. The curtain assembly 48 may be mounted to the framework 46 by way of a generally horizontal molding 50, which may extend substantially the entire width of the opening, using a plurality of fasteners 52. A curtain 54 may be mounted to the header 46 by the molding 50. The curtain may be fabricated from the same material as the door 12. Nevertheless, it is to be understood that other materials could be utilized to fabricate the curtain 54 depending upon the end application. The curtain 54, in exemplary form, may be generally rectangular with its widthwise dimension dominating its lengthwise dimension. Specifically, it is the lengthwise dimension that may span between the molding 50 and a horizontal rail 56 mounted to a pair of opposing arms 58 mounted to corresponding perpendicular plates 60 extending from the upper portions of the left and right side walls 22, 24 and adjacent header wall 26. Each arm 58 may include a pair of wheels 62, 64 that may be interposed by the horizontal rail 56. Collectively, each arm 58 having pair of wheels 62, 64 may be referred to as a “wheeled follower.” Each wheel, 62, 64 may be adapted to ride upon the exterior of the door 12 as it is rolled up responsive to the arm 58 being forced against the door roll. However, as the diameter of the door roll changes, whether increasing as the door is refracted or decreasing as the door is deployed, the arm 58 may force the wheels 62, 64 against the door roll to substantially maintain a constant axial gap between the horizontal rail 56 and door roll.
In an exemplary embodiment, the door 12 may be repositioned between a retracted position and a barrier position using a motor assembly 66. In exemplary form, one end of the door 12 may be mounted axially to a horizontal roller which may be turned either clockwise or counterclockwise by the motor assembly. The motor assembly 66 may include an electric motor 70 coupled to an output pulley 72 that repositions a belt 74 engaging a input pulley 76 coupled to the roller 68. It is too be understood, however, that various drive mechanisms could be utilized, such as using the output shaft of the motor 70 to directly engage the roller 68 or one could easily devise a set of gears to interface between the roller 68 and the motor 70 to accomplish a similar result. In an exemplary embodiment, as the roller 68 is rotated to move the door 12 toward its retracted position, the door 12 may wind around the roller 68 to provide a cylindrical roll (i.e., a “door roll”) that gradually increases in diameter as the door is retracted until a maximum diameter is reached corresponding to substantially the entire door being wound around the roller 68. It should be noted, however, that it may not be necessary to wind the entire door around the shaft to allow egress of automobiles through the opening as in an exemplary carwash.
The present disclosure contemplates that a problem experienced with conventional roll-up doors is the occurrence of a draft between the header and the door roll. In some conventional door systems, the gap between the door roll and the header may vary and may be quite substantial to allow air to freely pass therebetween and create a draft that in certain instances is operative to allow liquids and other flowing materials within the interior of the building to escape or conversely to allow external fluids and debris to enter the building even while the door is in its barrier position. Exemplary embodiments described herein, however, may overcome these drawbacks by arresting the draft using the repositionable curtain assembly 48 to substantially decrease fluid flow between the horizontal shaft and header, thereby substantially decreasing any draft.
In an exemplary embodiment, the repositionable curtain assembly 48 may comprise a fixed length curtain 54 that may be mounted at one end to the molding 50 and may be mounted at an opposite end to the horizontal rail 56. In exemplary form, the horizontal rail 56 may be substantially in parallel with the door roll and/or roller 68 to maintain a substantially constant spacing between the rail 56 and door roll of approximately two inches. This constant spacing may be accomplished by providing a reactive system that starts with the reactive arms 58.
In an exemplary embodiment, each arm 58 may include a polyethylene unibody construction having a through hole 78 that receives a bolt extending from a corresponding perpendicular plate 60 toward the door roll. The end of the bolt may also receive a series of washers and/or a lock nut to provide play and freedom of movement rotationally between the bolt and the arm 58. In other words, this arrangement may allow each arm 58 to freely rotate/pivot around its corresponding bolt. This rotation may be caused by the change in diameter of the door roll as the door is either retracted or deployed. As discussed previously, each arm 58 may include a pair of wheels 62, 64 adapted to ride upon the exterior of the door as it is rolled up and/or down. In order to maintain the wheels against the exterior of the door roll, the arm 58 itself may be biased towards the door roll. This biasing may be accomplished by using weighted wheels that gravity directs against the door roll or alternatively using a spring biasing structure (not shown) circumscribing the bolt to apply a spring force resisting rotation of each arm 58. However, those skilled in the art will understand that other mechanisms may be used to maintain the wheels 62, 64 against the door roll in accordance with the present disclosure.
As mentioned previously, an exemplary door draft arrester 10 may find application in a carwash facility. By way of illustration, and not limitation, an exemplary draft arrester may be installed at the exit of a carwash. In exemplary form, an electric motor 70 may be electrically controlled by an automated control system (not shown) and at least one position sensor for sensing the presence of an automobile in proximity to the exit. Those skilled in the art are quite familiar with automated controls and a discussion of such a system in detail, with sensors, has been omitted for purposes of brevity. In exemplary operation, the door 12 may be selectively repositioned from a barrier position to a retracted position to allow egress of automobiles through the exit. Specifically, in a carwash, the door's default position may be the barrier position and movement of the door to the retracted position may only occur when the automated system senses an automobile in proximity to the exit or opening 14. At this time, the automated system may engage the electric motor 70 to rotate the roller 68 in the appropriate direction to retract the door from its barrier position (see
In an exemplary embodiment, the curtain 54 may operate to substantially shut off the widthwise opening between the door roll and the header 46. As can be seen by the change in position of the arms 58, the wheels 62, 64 may continue to ride upon the exterior of the door roll and correspondingly pivot each arm 58 as the diameter of the door roll decreases (as the door is deployed) or increases (as the door is retracted). Correspondingly, the horizontal rail 56 mounted to each arm 58 at the rail's axial ends may maintain a substantially constant spacing from the door roll, regardless of the diameter of the door roll. To accommodate the changing door roll diameter, the curtain 54 may floats and/or deform. In an exemplary embodiment, at no time, however, does the deformation of the curtain 54 result in the absence of a barrier arresting drafts between the door roll and the header 46.
The material composition of the components of the instant invention may be a matter of design choice and may be selected from composites, metals, alloys, ceramics, plastics, or other materials. Those skilled in the art will recognize that different applications for an exemplary draft arrester may require selection of differing materials. By way of example, and not limitation, an exemplary repositionable door 12 may be fabricated from any weatherproof material and may include a series embedded horizontal ribs 80 to generally maintain the door in a planar orientation. The door material, by its nature may be flexible and able to be deformed, and may include weights (not shown) attached proximate to the exposed horizontal end of the door nearest the floor. One of the advantages of using a flexible door is that collisions with automobiles cause less damage to the door itself and the automobile.
Following from the above description and invention summaries, it should be apparent to those of ordinary skill in the art that, while the methods and apparatus herein described constitute an exemplary embodiments, the disclosure contained herein is not limited to these precise embodiments and that changes may be made without departing from the scope of the disclosure as defined by the claims (for example, and without limitation, it is within the scope of the invention that the base plate and cover plate take different forms, such as a box and a lid that are separate from each other or even connected by a hinge). Likewise, it is to be understood that it is not necessary to meet any or all of the identified advantages or objects disclosed herein in order to fall within the scope of any claim, since the invention is defined by the claims and since inherent and/or unforeseen advantages may exist even though they may not have been explicitly discussed herein. Finally, it will be apparent that additional claims may be inherent in the disclosure and may not be expressly described herein.
This application claims the benefit of U.S. Provisional Application No. 61/069,969, filed Mar. 18, 2008, which is incorporated by reference.
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