This disclosure relates to a water feature for landscaping applications and more particularly to a system where water issuing from a device flows to a bed where the water forms a surface stream and then flows downwardly within the bed so as to minimize or eliminate surface accumulation or pooling.
Water features have become increasingly popular as landscaping tools.
Many water features include a pool, pond, reservoir or other accumulator for surface water and may include at least one waterfall, fountain or the like from which water flows into a pond. The pond is usually stocked with fish and may include vegetation.
In general, people have found these water features to be relaxing and soothing due to the appearance and sound of flowing water. However, in some situations, for example in public settings, it is desirable to avoid pooling or the accumulation of surface water. By avoiding or minimizing surface accumulation, safety and liability concerns, if any, can be minimized.
There is described herein a water feature for landscaping use which employs a device from which water issues or flows to a stream bed, a system for collecting water from the bed and a recirculating system. The water in the bed forms a shallow surface stream (usually less than a few inches), flows downwardly into the bed and does not pool so that surface accumulation is minimized. In other words, a pond or other surface accumulator is not present and safety and liability concerns are minimized.
The system includes a device which discharges water such as a waterfall, fountain or the like. With respect to a waterfall, it is positioned at an elevated level and discharges water to the bed, preferably of gravel, therebelow. The water flows on the bed so as to form a surface stream and flows into the bed so it does not accumulate on the surface of the bed. The water percolates downwardly into the bed to an elongated perforated, generally horizontally positioned, and tubularly-shaped collection module. An elongated vertically oriented and tubularly shaped vault or stack, which defines a sump at its lower end, is provided which is coupled at its lower end to the module, extends to a position adjacent the surface and provides a housing for a pump. Water from the bed enters the module and flows through the module to the vault and sump. The pump then delivers the water to the waterfall or other discharge device. The cycle is then repeated.
Referring now to
The waterfall construction 12 includes a box-like member 13 which is open at the top 18 and forms a lip 20 from which water falls or is discharged. The waterfall construction includes an inlet 21 at the bottom of the waterfall box 13 so that water can be received in the waterfall construction. Water enters the box 13, flows upwardly through filters provided therein (not shown) and exits via the lip 20. In a landscape setting, the waterfall construction is blocked from view by surrounding soil, vegetation and/or rock formations so that only the downwardly flowing or cascading water is seen. It will be appreciated that other water-issuing devices, like a fountain can be used in place of the waterfall.
Streams of water such as 22 and 24 cascade downwardly from the waterfall construction 12 to the gravel bed 14. The gravel bed forms an elongated and sometimes meandering surface path or stream 26 from the waterfall construction.
The water forms a surface stream which is usually shallow and since it is on a gravel bed, the water percolates downwardly. Thus as shown in the figures and described herein water received from the waterfall construction percolates downwardly through the bed. The depth of the bed per se depends upon landscape considerations and on water collection considerations. Usually the bed is shallow near the waterfall construction and substantially deeper (e.g. 4 feet) in a position downstream from the waterfall construction 12. The stream of water 26 is seen at the base of the waterfall construction and flows on the bed surface. At the deeper portion 14a of the bed, the surface water (as shown by arrows such as 27, 28 and 30) appears to be lost or fall into the bed.
The bed includes gravel of different sizes. The gravel generally varies in size from small gravel 32 at the top to large gravel or stones 34 (sometimes referred to as cobbles) at the bottom. Brick or other aggregate materials can be used instead of gravel.
In other words, water flows from the waterfall along the bed surface, down into the bed and disappears into the bed. Thus, a child can play in the stream on the gravel, get his or her feet wet, experience flowing water and still hear a gurgling or flowing noise.
The bed is formed by an excavation which is lined by a water impervious material 36, such as a rubber, ethylene propylene diene monomer, concrete or the like. In fact, the liner is under the entire water feature so as to retain the water in a closed system. This includes the waterfall construction 12, the gravel bed 14 and the water collection and recirculation system 16.
The water collection and recirculation system 16 includes an elongated tubular and perforated water collection module 38 which is positioned below the bed surface (usually at the bed bottom) and at a generally horizontal attitude. The module includes water inlet apertures such as 40 and 42 by which water percolating through the gravel bed enters the module. It should be noted that large size gravel 34, sometimes referred to as cobble stones, is positioned adjacent the module thereby minimizing the risk of the apertures becoming clogged with the smaller gravel such as 32. The apertures, such as 40 and 42 are spaced along the length of the module.
One end 44 of the module is closed. The other end 45 of the module is open, forms a fluid coupling and is connected to an elongated, tubular, vertically oriented vault or stack 48. The stack has a sump 49 at its lower end. The sump is connected or coupled to the collection module 38. The top end 50 is closed with a cap 51 and positioned adjacent the surface of the bed. A connection opening 52 is provided in the side of the stack for use in the recirculation. In the sum 49 there is a pump 54 which receives water collected by the collection module 38 and discharges the collected water collected by the collection module 38 and discharges the collected water into a conduit 56 that directs collected water to the waterfall inlet 21. As can be seen in
The conduit 56 includes a discharge pipe 58 that extends from a fluid outlet 54b of the pump 54 and is positioned in the sump 49. As can be seen in
In
The inlet to the waterfall system employs a bulkhead connection system 64. Generally, the connection system includes a threaded fitting 66 and a gasket 68 on the inside of the waterfall construction wall 70. A second gasket 68a is provided on the outside. A nut 72 secures the fitting 66 to the wall 70. The inside of the threaded fitting 66 is threaded (but in the reverse direction) and receives a threaded slip 74 which can be tightened. The slip has an opening to receive and seal to the conduit or tubing 62. The end of conduit 62 is slipped into the slip 74 and sealed thereto.
Referring now to
Each stack section includes a boss-like projection such as 82 (sometimes referred to as a hose tail) that can be cut open to provide for the connection or opening 52. Each section also includes a cap or extender engaging nibs or small projections 84 and 86 which are used to secure with an extender or cap to the main stack.
The collection module 38 although generally horizontal, is slightly sloped or tipped so that entering water flows to the sump 49.
Referring now to
Referring now to
Referring now to
Modifications and changes can be made to the foregoing without departing from the spirit and scope of the invention.
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Number | Date | Country | |
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20050098488 A1 | May 2005 | US |