Static structures (e.g. – buildings) – Wall – ceiling – floor – or roof designed for ventilation or...
Reexamination Certificate
2001-11-06
2003-07-22
Canfield, Robert (Department: 3635)
Static structures (e.g., buildings)
Wall, ceiling, floor, or roof designed for ventilation or...
28, C210S163000
Reexamination Certificate
active
06594966
ABSTRACT:
FIELD OF THE INVENTION
The present invention relates generally to building roof water drainage systems, and more particularly to roof drains for flat roofs.
BACKGROUND OF THE INVENTION
Commercial and industrial buildings are typically constructed with flat or near flat roofs. Because these buildings do not have much if any of a pitch to the roof the collection of water on the roof surface resulting from rain and melting snow could present a serious structural load that could result in collapse of the roofs structure. To avoid this possibility most commercial and industrial building standards require that roofs of this type include drains positioned at locations that ensure that at least the majority of water accumulation may be removed from the roof through a drainage plumbing system.
Typical roof drains are installed on flat roofs by cutting a hole through the roof deck and installing a drain there through. The drain typically connects with drainage plumbing that carries the water away. The drain structure typically includes some form of flashing or collar that, through the application of sealant or other roof material prevents leakage at the site of the drain installation. These typical drain structures also include some form of drain ring and under deck clamping ring or structure that holds the drain in place and prevents its inadvertent removal or dislodgement from its installed position. The opening of the roof drain is typically covered by some form of grating or strainer structure to prevent the ingestion of large objects into the drain plumbing system. In most roof drain structures this strainer or grate takes the form of a hemispherical strainer to prevent or minimize the occurrence of obstruction of the roof drain through the accumulation of leaves and other debris that may accumulate on the roof.
Unfortunately, despite the inclusion of a strainer or other grating structure, many roof drains still become plugged or otherwise obstructed to the point that inhibits their ability to remove the accumulated water from the roof of the building. These obstructions can occur as a result of the collection of debris around or over the grate or strainer structure. Additionally, obstructions may also result in the roof drain system during winter months as a result of icing near the roof level of the open areas of the strainer. In addition to the obvious problems resulting from complete obstruction of the roof drains, minor obstructions that merely result in the reduction in the rate of water removal from the roof may also result in undo stress on the roof structure that may endanger its integrity. Additionally, even unobstructed roof drains may not be able to remove water at a rate to prevent its undue accumulation during periods of heavy storms and intense rainfall.
In recognition of the limitations of a single roof drain system, many building codes and many more contractors are installing backup roof drains connected to separate drainage system to ensure that the load carrying capacity of a roof structure is not exceeded if the primary roof drain system fails to remove the water accumulation at a sufficient rate. These backup roof drains are typically constructed in the same manner as the primary roof drains, but include a structure that prohibits the drainage of water through the backup drainage system until the level of the water reaches a predetermined depth. That is, the entry ports or slots on the backup roof drains are positioned at a height above the roof surface. This height is preferably chosen based upon the roof construction such that the weight of the water at that given height is well within the load carrying of the roof structure. The separate drainage system ensures that failure of the primary roof drain system due to an obstruction in the drainage system downstream from the roof drains will not effect the ability of the backup roof drain system to remove the water that accumulates above a given depth.
While the usage of a primary and backup roof drain system greatly enhances the safety of the roof construction, such also greatly increases the cost of the roof construction. This significant cost increase is a result of the requirement for essential double the number of roof drains that must be installed on the roof. Since typical primary and backup roof drains are of the same construction differing only in the strainer or inlet structure, the cost for such roof drains is essentially double. In addition to the increased cost necessitated by the purchase of twice as many roof drains, each roof drain requires a separate deck penetration or hole to be cut in the roof structure. This essentially doubles the labor cost associated with such a system as twice as many roof penetrations must be cut. Further, depending on the number of primary and backup roof drains that are installed, the overall structural strength of the roof may be weakened due to the large number of deck penetrations that are cut to accommodate both the primary and backup roof drains.
While these factors may be considered in the design of a new construction, and therefore compensated, the cost and structural impact to existing buildings that may wish to or are required to install such a backup roof drain system can be prohibitive. That is, on an existing building the roofs structure and strength are already set, and any impact thereto resulting from the installation of the backup roof drains is not easily compensated. Additionally, the roof surface itself may already be occupied by other equipment that limits the ability to properly position additional backup roof drains to maximize their effectiveness. Further, additional roof penetrations by other system within a building may also limit the ability to install the backup drains at appropriate locations due to clearance requirements dictated by the roof penetrations of the other systems. As a result, the retrofit of an existing building to install the backup roof drain system often is not only expensive but also quite problematic if it can be installed at all.
BRIEF SUMMARY OF THE INVENTION
In view of the above, it is a general aim of the invention to provide a new and improved roof drain for flat roofs. More particularly, it is a general aim of the present invention to provide a new and improved roof drain that provides both primary and backup water drainage for flat roofs. Additionally, it is a general aim of the present invention to provide such a bi-functional roof drain for initial installations on new constructions, and for retrofitting existing structures to include the backup drainage capability. Preferably, this retrofitting may be accomplished without the necessity of cutting additional roof deck penetrations.
In one embodiment of the present invention, a bi-functional roof drain comprises a drain housing having bottom and side walls forming a drain manifold. The drain housing further includes a primary drain outlet in communication with the drain manifold and is adapted to connect to a primary drainage system of a building. A strainer basket is positioned over an open top of the drain housing. Additionally, a backup drain pipe sealingly penetrates the drain housing and extends through the drain manifold and the strainer basket. This backup drain pipe has a top opening positioned a vertical distance above the open top of the drain housing. The backup drain pipe further includes a backup drain outlet adapted to connect to a backup drainage system of a building.
In a further embodiment the backup drain pipe penetrates the bottom wall, and the drain further comprises a gasket positioned-in sealing arrangement between the bottom wall and the backup drain pipe. In one embodiment the backup drain pipe translatably extends through the drain manifold such that the vertical distance from the open top of the drain housing to the top opening of the backup drain pipe is variable. Preferably, the strainer basket includes clamping means positioned to securely retain the backup drain pipe at a given vertical position. In an alternate embodiment wherein the
LandOfFree
Bi-functional roof drain and method of retrofitting a roof... does not yet have a rating. At this time, there are no reviews or comments for this patent.
If you have personal experience with Bi-functional roof drain and method of retrofitting a roof..., we encourage you to share that experience with our LandOfFree.com community. Your opinion is very important and Bi-functional roof drain and method of retrofitting a roof... will most certainly appreciate the feedback.
Profile ID: LFUS-PAI-O-3096678