1. Field of the Invention
The present invention generally relates to sustainable water conservation practice and, more particularly, is concerned with a downspout water diversion and overflow device and a water collection and overflow system employing the device.
2. Description of the Prior Art
There is increasing interest by both water consumers and suppliers to use less water and use it more efficiently and sustainably. Water utility companies and city water departments emphasize conservation and encourage less use with education, suggestions, financial incentives, and even restrictions when shortages are forecast. In response to the growing need, devices have been disclosed that capture and collect free water, such as rainwater, in order to augment utility water sources and displace some of their cost. The collected free water may have exterior uses, such as for gardening, as well as interior uses, such as for toilet tanks and laundry.
Most designs involve a barrel connected to an eave gutter system and provided with an outlet for dispensing the stored water. These designs typically either lack broad application because they are too simple or they are too complex and difficult to install. The more complex designs typically require substantial modifications to the existing residential structure, to the plumbing or electricity configuration, or some combination thereof. Frequently, to handle the modifications and installation of the more complex devices, skills of professional plumbers, carpenters, or electricians are required. Most residential consumers, as well as incentive-bearing utility companies, shy away from these designs due to their attendant costs and difficulties.
Thus, innovation is needed to make capture, collection and utilization of free water more effective and affordable for residential consumers.
The present invention is directed to a downspout water collection and overflow system which satisfies the aforementioned need. The system of the present invention may be installed for use with an existing gutter downspout system on a building to collect water runoff from the roof of the building and store the collected water so as to make it available to dispense for other uses.
Accordingly, one aspect of the present invention is a downspout water diversion and overflow device which includes a body for displacing a section of an existing downspout and a plate supported in the body. The body is hollow and has upper, lower and side portions defining top, bottom and side openings such that the upper and lower portions align with remaining upper and lower sections of the existing downspout and the side portion extends laterally from the upper and lower portions and is adapted for establishing flow communication with a water storage tank. The plate is supported in the body to extend laterally across the body between the upper and lower portions thereof for blocking flow of water directly from the top opening to the bottom opening and instead diverting the water flow to the side opening of the body. The plate also is aligned with and extends through the side portion of the body so as to divide the side opening into upper and lower passages and respectively allow inflow of water from the upper portion of the hollow body through the upper passage above the plate to the storage tank and overflow of water from the storage tank through the lower passage below the plate to the lower portion of the hollow body.
Another aspect of the present invention is a downspout water collection and overflow system which includes a water storage tank and a downspout water diversion and overflow device. The storage tank for collecting, holding and dispensing water can be situated in proximity to the exterior of a building laterally offset from an existing downspout thereon. The downspout water diversion and overflow device displaces a section of the existing downspout. The device has a body being hollow and open at opposite ends and at a side of the body where the body is interconnectable to the storage tank. The device also has a plate supported in the body for blocking flow of water directly down the existing downspout through the open opposite ends of the body and instead diverting the water flow to the storage tank. The plate divides the body so as to define an upper passage above the plate through the body from an existing downspout section above the device to the open side of the body such that water is allowed to inflow through the upper passage above the plate to the storage tank and define a lower passage below the plate through the body from the open side of the body to an existing downspout section below the device such that water is allowed to overflow from the storage tank through the lower passage below the plate.
A further aspect of the present invention is a downspout water collection and overflow system which includes a water storage tank for collecting, holding and dispensing water and for situating in proximity to the exterior of a building laterally offset from an existing downspout thereon, a downspout water diversion and overflow device for displacing a section of the existing downspout, and a conduit connectable with the device and storage tank for enabling flow of water between the device and storage tank. The device has a body being hollow and a plate supported in the body for blocking flow of water directly down the existing downspout through the body and instead diverting the water flow from the body to the storage tank via the conduit. The plate divides the body so as to define an upper passage above the plate through the body from an existing downspout section above the device to the conduit such that water is allowed to inflow through the upper passage above the plate to the storage tank via the conduit and define a lower passage below the plate through the body from the conduit to an existing downspout section below the device such that water is allowed to overflow from the storage tank via the conduit through the lower passage below the plate.
These and other features and advantages of the present invention will become apparent to those skilled in the art upon a reading of the following detailed description when taken in conjunction with the drawings wherein there is shown and described an illustrative embodiment of the invention.
In the following detailed description, reference will be made to the attached drawings in which:
Basic Downspout Water Collection and Overflow System—
Referring to the drawings, and particularly to
More particularly, the water storage tank 14 may be disposed in an upright orientation, situated in proximity to an exterior wall of the building, and offset laterally of a conventional downspout 18 of the gutter downspout arrangement 16. The storage tank 14 may be made from lightweight plastic or other suitable material. It may also be made into other suitable forms, though the tubular structure shown in
The water storage tank 14 may also include a plurality of openings for handling water inflow and outflow. For example, nearer a lower portion 24, the storage tank 14 has a dispensation outlet 26 for dispensing water stored therein. Nearer the upper portion 28, the storage tank 14 has a replenishment inlet 30 for receiving replenish water to refill the storage tank 14. A water replenishment mechanism (such as shown in
Referring still to
The device 12 also has a plate 60 stationarily disposed and supported in the body 40 in any suitable manner intermediate between the upper and lower portions 42, 44 thereof so as to block flow of water traveling from upstream to downstream portions 54, 56 of the downspout 18 directly from the top opening 48 to the bottom opening 50 of the device 12. The plate 60 is generally flat in configuration, although it may have other configurations, such as corrugations and the like. The plate 60 is mounted to the body 40 in a stationary position relative thereto and includes a first portion 60A disposed between the upper and lower portions 42, 44 of the body 40 and a second portion 60B disposed through the side portion 46 of the body 40. The plate 60, having a shape conforming to the cross-sectional shape of the body 40 through the side portion 46, may be disposed level although preferably it is disposed in an inclined orientation sloping downward from the first portion 60A to the second portion 60B thereof. As shown, the plate 60 is aligned with and slopes gradually downward through the side portion 46 of the body 40 into the upper portion 28 of the storage tank 14. By way of example and not as a limitation, the plate 60 can be disposed at an angle of inclination relative to a horizontal reference of between, for example, approximately one and fifteen degrees. The plate 60 divides the side opening 52 of the side portion 46 of the body 40 and defines upper and lower passages 62, 64 through the side portion 46 respectively above and below the plate 60.
The upper passage 62 allows the inflow of water to the interior portion 58 of the storage tank 14 through the water side inlet 32 from the upper portion 42 of the body 40 of the device 12 above the plate 60. The upper portion 42 of the body 40 couples (via an intervening air gap) to the lower end 66 of the upstream portion 54 of the downspout 18 and receives water flowing from the upstream portion 54 of the downspout 18 through the top opening 48 of the device 12. From the upper portion 42, the water then flows down onto the plate 60 and laterally through the upper passage 62 and the water side inlet 32 past the inner edge 60C of the plate 60 to the interior portion 58 of the storage tank 14.
The lower passage 64 allows the overflow of excess water from the interior portion 58 of the storage tank 14 through the water side inlet 32 to the lower portion 44 of the body 40 below the plate 60. The lower portion 44 of the body 40 couples to the upper end 68 of the downstream portion 56 of the downspout 18 and receives excess water from the interior portion 58 of the storage tank 14. When the water level in the interior portion 58 of the storage tank 14 rises above a bottom surface 70 of the side portion 46 of the device body 40, the excess water overflows out through the water side inlet 32 and the lower passage 64 to the lower portion 44 and through bottom opening 50 of the device 12 where the excess water can now discharge into the downstream portion 56 of the downspout 18 below the device 12. It will be observed that the storage tank 14 and device 12, constructed as described hereinabove, have no moving parts.
Referring now to
In order to connect the system 10 to a conventional toilet tank 78, a series of steps may be taken. The storage tank 14 is installed in proximity to the downspout 18, and the water diversion and overflow device 12 should be installed in the place of a displaced section of the downspout 18 and connected to the storage tank 14. Two holes (not shown) may be drilled near the toilet tank 78 that allow access to the exterior of the building. A section of the replenishment hose 72 and dispensation conduit 82 are flexibly fed through the respective holes from the exterior to the interior of the building. A water source valve 94 on the water source 74 that is feeding the original toilet tank water inlet 76 under a toilet tank 78 is turned off. The end of the replenishment hose 72 that is now on the interior of the building and in proximity to the toilet tank 78 is then connected to the water source 74 via an opened shut-off valve 96. The end of the dispensation conduit 82 that is also now on the interior of the building and in proximity to the toilet tank 78 is then connected to the other inlet 86 of the toilet tank 78 to the water fill valve 88 provided therein. Another shut-off valve 98 may be provided on the conduit 82 which is open during normal use but may be shut off to facilitate repairs and the like. Additional components (not shown) may include a backflow prevention unit and a water filtration and/or chlorination unit.
System Enhancements—
Turning now to
Additionally, the enhanced system 10A, as shown in
The foreign matter collection chamber 108 is located downstream of the discharge end portion 60C of the plate 60 of the device 12. The side portion 46 of the device body 40 is extended to accommodate the presence of the chamber 108 below it so as to enable collection of foreign matter, such as dust, bird droppings, chemicals, etc, that may accumulate on the roof between rain events and then wash off the roof at the start of each new rain event. A float ball 116 is installed at the top of the chamber 108 below a top opening thereto and a slow drip valve 118 (with a filter 118A) is installed at a bottom of the chamber 108 to foster a slight downward flow of the water in the chamber 108 and thereby a settling of such foreign matter in the chamber 100, enabling the flushing of it from the chamber 108, and consequently the prevention of it flowing into the storage tank 14. It should be noted that a lower inner edge 46A of the side portion 46 of the device body 40 is at a lower level than a lower outer edge 46B thereof. This will ensure that the chamber 108 as it fills with water will overflow into the storage tank 14, and not flow into the lower portion 44 of the device 12, until the storage tank 14 reaches the overflow stage. The capacity of the chamber 108 need only be a few gallons for it to serve its intended purpose. It can be lengthened or enlarged to accommodate local conditions.
Referring now to
The collection chamber 108 in the system 10B of
Should more water storage be desired, auxiliary storage tanks may be added and connected to the original storage tank 14. The storage tank 14 also may be disposed in a different orientation relative to the building that is more desirable for a given application. The storage tank 14 also may be assembled from a plurality of sections (not shown) or may be installed in a substantially one-piece construction. For example, as mentioned above the storage tank 14 may be multi-compartmented to include a first portion 14A arranged in a substantially vertical orientation and a second portion 14B arranged in a substantially horizontal orientation and connected to the first portion 14A at a lower half thereof and connected to the conduit 120. For most installations, the first or vertical portion 14A and second or horizontal portion 14B of the storage tank 14 may be secured or anchored to the building by restraining straps 122. The conduit 120 may include a pair of ells or L-shaped sections 120A, 120B connected in a reverse relationship to one another such that the device 12 is disposed above the second portion 14B of the storage tank 14. The device 12 will divert all of the water received from the gutter downspout arrangement 16 until the water level rises and overflows into the portion of the upper L-shaped section 120A which is at the same height as the bottom of the side portion 46 of the body 40 of the device 12.
System Advantages & Benefits
The above-described embodiments of the systems are simple, affordable and easy to understand, install and maintain by an average person who knows how to use basic tools, such as an electric drill, crescent wrench, tin snips or saw and change a toilet float and flexible water line to a toilet tank. It can be shipped in one-piece or easily assembled sections that are lightweight and can be installed by a novice on site. The system 10 does not distract from the building's appearance. The systems, being tall, round and narrow in configuration, resembles a large drain pipe and can also be painted to match the building's exterior, making it blend into the background like most utilities attached to the building. By way of example but not limitation, the first (vertical) portion 14A of the tank 14 may be three to four feet in height and eight to fifteen inches in diameter; the second (horizontal) portion 14B of the tank 14 may be eight to ten feet in length and eight to fifteen inches in diameter.
The systems have essentially no moving parts except a standard floatation valve found in any typical household toilet tank and the float valves in the storage tanks, all of which are easy to replace. The systems work effectively off of gravity but can also accommodate use of a pump. There is no need for the services of an electrician, there being no electrical connections or electronic components to install, wire, adjust or break in the future. Further, there is no need for a carpenter, since nothing needs to be built or altered to accommodate the system 10. There is only minimal wall penetration in that one needs to drill two holes in the building between the existing downspout to the base of the toilet where the existing water line feeds into the toilet and run two flexible tubes to the toilet base. There is no need for a plumber either. The various components and materials of the systems can be handled with minimal plumbing skills, standard parts and do not require proprietary or special tools. Making the connection to the downspout only involves cutting and removing a small section of the existing downspout and inserting a preassembled downspout adapter, namely, the device 12. The systems require minimal maintenance but if needed, they are designed for easy disassembly, repair and reassembly. The system capacity is readily expandable by adding auxiliary tank components of various dimensions with a simple connection to the original tank components. Last, but not least, the systems serve the desire of using rain water to satisfy conservation goals.
It is thought that the present invention and its advantages will be understood from the foregoing description and it will be apparent that various changes may be made thereto without departing from the spirit and scope of the invention or sacrificing all of its material advantages, the forms hereinbefore described being merely exemplary embodiments thereof.
This patent application claims the benefit of U.S. provisional application No. 61/461,231 filed Jan. 14, 2011. The disclosure of said provisional application is hereby incorporated herein by reference thereto.
Number | Name | Date | Kind |
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4726151 | Vitale | Feb 1988 | A |
5114594 | Rosebrock et al. | May 1992 | A |
5533303 | Harvey | Jul 1996 | A |
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6526699 | Foglio, Sr. | Mar 2003 | B1 |
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7395633 | Baeta | Jul 2008 | B2 |
Number | Date | Country | |
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61461231 | Jan 2011 | US |