The present invention relates to sectional door assemblies. More particularly the present invention relates to safety bottom brackets for sectional doors.
Upward acting sectional doors commonly are counterbalanced by spring assemblies, which in turn are connected by a cable to either side of the door. The cables act to balance the door weight as the door is raised and lowered. The door sections are further supported by a series of rollers mounted to each section which are guided by a track structure. The cables are typically fastened to the bottom door section at the lower left and right hand corners by means of a bottom bracket (also known as a bottom fixture). The bottom bracket on a typical sectional door functions as the cable attachment as well as the bottom roller attachment.
Sectional doors periodically require maintenance. Maintenance to sectional doors may include replacing the bottom roller or may include some other type of repair to the door assembly. During such maintenance, it may be necessary to remove the bottom bracket. With conventional bottom brackets, removal of the bottom bracket is only safe after tension has been removed from the spring cable counterbalance system. Conventional bottom brackets are typically mounted to the door by lag screws or other removable fastening devices. If the cable tension has not been removed, when the last fastener has been removed, the springs unwind suddenly causing fasteners, the bracket, the roller, the cables and/or springs to become hazardous flying objects creating a dangerous situation for the repairmen, homeowner, or other persons or property nearby.
Due to the listed deficiencies in conventional methods for safe maintenance of sectional door assemblies, there exists a need within the industry for a bottom bracket that is safer than the conventional bottom bracket. Furthermore, an improved bottom bracket should be highly manufacturable and cost effective to produce.
One aspect of the invention provides a safety bottom bracket which inhibits individuals from removing the bottom bracket while the bottom bracket is connected to a cable under tension, and thereby reduces the potential for injury to the persons who are performing maintenance on the sectional door.
One aspect of the invention provides a safety bottom bracket having one or more protrusions which function to impede access by tools to at least one fastener which secures the bracket to the sectional door. In some embodiments, the bracket may be substantially a one-piece bracket, which is simpler and more easily manufactured compared to two-piece brackets. In some embodiments, the bracket may be universal and installs easily to most commercially available sectional doors without any unique requirement for interconnection or interlock with the end stile of the bottom section or the bottom door section itself.
One aspect of the invention provides a safety bottom bracket that has a number of attachment apertures including a number of holes or slots. At least one slot functions as an initial attachment point for the bracket. The slot may comprise a tool-accessible portion and a tool-inaccessible portion. One or more protrusions may be provided on or near the edges of the tool-inaccessible portion of the slot. Once the initial fastener is assembled, the slot orientation allows the bracket to be slidably moved upwards by hammer or other forceful means, into the final installed position. In this position, the protrusions function to physically impede access by common mechanical tools to the fastener. Other fasteners may then be attached to further secure the bracket to the door.
According to this aspect of the invention, access to at least one fastener is inhibited while there is tension on the cable. When and only when the cable tension is removed, can the bracket be slidably moved downwards, aligning the fastener from the tool-inaccessible portion of the slot to the tool-accessible portion of the slot, which allows access to the last remaining fastener. Thus, the sectional door bottom bracket is prevented from detaching from the door when the bracket is attached to a cable under tension and all the other accessible fasteners are removed. As such, one aspect of the present invention provides an improved safety bottom bracket which reduces the likelihood of injuries for individuals working on or otherwise tampering with sectional door assemblies.
The safety bottom bracket may be provided with other features which permit other functions of the bottom bracket. These features may include a suitable means to attach the spring loaded cable, as well as means for attaching the roller.
One aspect of the invention provides a safety bottom bracket for a sectional door. The safety bottom bracket comprises a frame; a cable attachment member coupled to the frame for attaching a cable to the bracket; a slot in the frame for securing the bracket to the sectional door via a fastener passing through the slot, the slot having a tool-accessible portion and a tool-inaccessible portion; and one or more protrusions extending from or near the edges of the tool-inaccessible portion of the slot. In some embodiments, the frame comprises a generally L-shaped flange having a back planar surface and a side planar surface.
One aspect of the invention provides a sectional door assembly that comprises a safety bottom bracket that prevents removal of the bottom bracket from the sectional door assembly when the bottom bracket is connected to a cable under tension.
One aspect of the invention provides a sectional door assembly which comprises a plurality of interconnected sectional door panels; a pair of tracks for guiding the movement of the sectional door panels; one or more springs; a pair of cables connected to and operatively tensioned by the springs; a plurality of rollers attached to the sectional door panels and rollably received in the tracks; and a pair of safety bottom brackets that can be fastened to a bottom sectional door panel and releasably connected to the cables.
One aspect of the invention provides a method for performing maintenance on a sectional door. The method comprises releasing tension from a tension cable coupled with a sectional door; sliding a bottom bracket attached to the cable from a tensioned position to an untensioned position to align a fastener that secures the bottom bracket to the sectional door from a tool-inaccessible portion to a tool-accessible portion in a slot located on the bottom bracket; and loosening the fastener with a tool to remove the bottom bracket from the sectional door.
In drawings which illustrate non-limiting embodiments of the invention,
Throughout the following description, specific details are set forth in order to provide a more thorough understanding of the invention. However, the invention may be practiced without these particulars. In other instances, well known elements have not been shown or described in detail to avoid unnecessarily obscuring the invention. Accordingly, the specification and drawings are to be regarded in an illustrative, rather than a restrictive, sense.
The sectional door 12 has a plurality of interconnected sectional door panels 18, including a bottom panel 19. The sectional door assembly 10 is provided with a plurality of rollers (not clearly visible in
The counterbalance system 14 applies an upward force to the sectional door 12 by application of a spring force to the sectional door 12. The counterbalance system 14 comprises one or more springs 24 and a pair of cables 26 attached to the springs 24. Each cable 26 is connected to one of the bottom brackets 16. The springs 24, which may be extension springs or torsion springs, operatively tension the cables 26 which in turn pull on the bottom bracket 16 and thus the sectional door 12. The bottom bracket 16 in
A cable attachment member 42 is provided on frame 31 of the bottom bracket 30 for attaching the cable 26 to the bottom bracket 30. In the
A roller mount 44 (or equivalent device) is provided for attaching a roller 46 to the bottom bracket 30. In the
In the
The embodiment shown in
As illustrated in
If more extensive maintenance is required, the cable tension must be released for safe maintenance of the door. An individual may remove fasteners 61, 62, 63, 64, but protrusions 54a, 54b function to inhibit or prevent any access to the fastener 58. After tension is released from the spring counterbalance system, the cable will become slack. This allows the bracket to be slidably moved downward from the tensioned position in
The protrusions on the bottom bracket can be created by a number of suitable methods. For example, the protrusions can be made by a progressive stamping die tooling which punches or pierces the bottom bracket and bends the protrusions into position. This can be done in one single step or in a series of steps. The protrusions can also be made by welding and/or depositing a suitable material (e.g., steel) on one of the surfaces of the bottom bracket to build up or form a protrusion, or by taking small pieces of a suitable material (e.g., steel) and inserting, welding, or riveting them onto the bottom bracket.
As will be apparent to those skilled in the art in the light of the foregoing disclosure, many alterations and modifications are possible in the practice of this invention. Accordingly, the scope of the invention is to be construed in accordance with the substance defined by the following claims.
Number | Date | Country | |
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61382369 | Sep 2010 | US |