Pool/spa waterfall apparatus with an interchangeable outlet cap

Information

  • Patent Grant
  • 6450418
  • Patent Number
    6,450,418
  • Date Filed
    Friday, June 16, 2000
    24 years ago
  • Date Issued
    Tuesday, September 17, 2002
    21 years ago
Abstract
The present invention provides a new waterfall apparatus water reservoirs such as pools, spa's and the like. It comprises a manifold having a water inlet connected to the a water supply, preferably the water supply from the reservoir's plumbing. The manifold has internal baffles to remove turbulence from the water, which is then directed to a spillway water outlet. The spillway has a through slot that allows water to flow out from the manifold. It also has a removable outlet cap which forms the water into a particular waterfall shape. Another embodiment of the invention for spas, has a tubular body and a outlet that is in the form of a longitudinal slot in the body. The outlet cap is then mounted in the slot. In both embodiments the outlet cap can be easily removed to clean the apparatus if debris becomes lodged within it. It can also be removed if the spillway becomes damaged or it the pool/spa owner would like to change the type of waterfall produced by the apparatus.
Description




BACKGROUND OF THE INVENTION




1. Field of the Invention




This invention relates to an apparatus for producing waterfalls in pools, spas, tubs, and the like.




2. Description of the Related Art




Reservoirs of water such as pools, spas, and tubs can be constructed with one or more waterfalls running from the reservoir's edge to the surface of the water below. The waterfall is visually appealing and provides a soothing sound. Conventional waterfall apparatus are connected to the water supply from the reservoir's plumbing and have internal structures that convert the relatively turbulent water from the plumbing into a smooth laminar flow appropriate for a waterfall.




U.S. Pat. No. 4,881,280 to Lesikar discloses a pool waterfall unit that is mounted on the pool's edge and produces a smooth sheet of water which is directed away from the side of the pool to the water below. The unit has an interior baffle for directing the turbulent plumbing water evenly out of the unit. When installed, most of the unit is hidden behind the edge of the pool where it is connected to the pool plumbing and the only visible portion is the unit's horizontal spillway.




U.S. Pat. No. 5,249,744 to Ruthenberg also discloses a waterfall apparatus for swimming pools. A natural waterfall is simulated by introducing water into an inlet box that includes a spreader for dividing the incoming stream into two laterally flowing streams. They are reflected off the side walls of the inlet box and collide against each other to suppress the turbulence of the incoming stream. The inlet box has an outlet to create the waterfall, with most of the unit hidden behind the pool's edge.




U.S. Pat. No. 5,537,696 to Chartier, discloses a self contained waterfall module installed in the sidewalls or decks of a pool. It is connected to the pool's plumbing system and has an apertured conduit for introducing water from the plumbing system into the unit. The conduit also converts the turbulent water supply to water appropriate for a laminar sheet waterfall. The unit has a short compact emitter with the conduit transversing the relatively large manifold chamber.




Jandy® Industries also produces a series of pool and spa waterfall apparatus called Sheer Descent® Falls. The waterfalls can take the form of rain, curtain, or arc, depending on the chosen model. The waterfalls have a horizontal opening that ranges from eight inches to eight feet in width and the water can fall up to three feet with a minimal disruption of the waterfall. The apparatus have a water inlet for attaching to a pool/spa's plumbing system and have internal baffles to remove most of the incoming water's turbulence.




One disadvantage of conventional waterfall apparatus is that they are provided as a complete, sealed unit. Each apparatus can only produce one type of waterfall, such as rain, curtain, arc, etc. Once installed, the type of waterfall can only be changed by removing and replacing the entire apparatus. In most instances, the same waterfall will be provided through the life of the unit (or the pool), providing the same visual and auditory impact. This can become monotonous and result in boredom for the pool owner/occupants.




Another disadvantage is that debris can be introduced into the apparatus during use, permanently disrupting the waterfall flow. During installation of the pool's plumbing system and waterfall apparatus, care must be taken to prevent rocks and other debris from entering the system. Debris that does enter the system can be fed into the apparatus, disrupting the uniform flow of the waterfall. Sheer Descent® Falls provides the additional precaution of a rock trap that can be installed in the pool's plumbing to trap rocks and other debris before it enters the apparatus.




Despite these precautions, debris often enters the apparatus and, once inside, it is very difficult to remove. One method recommended by Sheer Descent® Falls is to use a credit card or similar object and generally position it inside the outlet opening while the waterfall is on. The device is then slid along the opening to the point where the debris is located. The debris is then pulled through the opening. However, if the debris is too large to exit the outlet opening, it will be stuck within the unit and permanently disrupt the waterfall.




Conventional waterfall apparatus can also suffer damage to their outlet during or after installation, which can also disrupt the uniform or laminar look of the waterfall. Sheer Descent® Falls provides a protective tongue for the outlet to protect it during installation, but this measure does not protect it during use. If the outlet opening is damaged, the apparatus must be repaired at its installed location, or the entire apparatus must be removed from the pool and plumbing system. Both of these procedures are difficult, costly and time consuming, and it is unlikely that they could be completed by the average pool owner.




SUMMARY OF THE INVENTION




The present invention provides an improved pool/spa waterfall apparatus having a cap on its outlet that can be removed and replaced. The type of cap determines the type of waterfall emitted by the apparatus. This allows the new waterfall unit to produce different types of waterfalls by using different types of outlet caps. In the event that debris is caught in the apparatus or its outlet, it is easily cleaned by simply removing the outlet cap, removing the debris, and replacing the cap. If the outlet cap is damaged during or after installation, it can be quickly and easily replaced by the pool owner.




In one embodiment, the new waterfall apparatus consists primarily of a rectangular shaped and elongated manifold body having a water inlet for connection to the pool/spa's plumbing system. When the system water enters the unit it is relatively turbulent. To remove most of this turbulence, the apparatus has two internal baffles that the water passes as it fills the manifold body. The apparatus also has an outlet that provides a path for water out of the manifold. In one embodiment, the outlet comprises a slender horizontal spillway extending from and running along the top edge of the apparatus, opposite the inlet. The spillway has a through slot running down it's longitudinal centerline providing a passageway for the water to flow from the manifold. An outlet cap is mounted on the end of the spillway to form the water into a waterfall. Depending on the spillway cap used, different types of waterfalls can be formed, including a clear laminar sheet, rain drops, arc, fountain, double arc, pulsating, or any combination thereof. The waterfall apparatus can also include lighting to illuminate the waterfall. The outlet cap can be removed and pulled out of the spillway, and later replaced.




Another embodiment of the invention is particularly applicable to producing waterfalls in spas. It comprises a tubular shaped manifold body with a water inlet directed down to receive water from the spa's plumbing system. The water turbulence is removed by two internal baffles that the water passes as it enters the body. The body's outlet is in the form of a longitudinal slot. An outlet cap is mounted within the slot, such as by screws. As the body fills, water spills from the body through the outlet cap in the form a waterfall. The type of waterfall is dependent upon the type of outlet cap which can be easily removed and replaced.




These and other further features and advantages of the invention will be apparent to those skilled in the art from the following detailed description, taken together with the accompanying drawings, in which:











BRIEF DESCRIPTION OF THE DRAWINGS





FIG. 1

is a perspective view of one embodiment of the new waterfall apparatus;





FIG. 2

is a perspective exploded view of the apparatus show in

FIG. 1

;





FIG. 3

is a sectional view of the apparatus shown in

FIG. 1

, taken along section lines


3





3


;





FIG. 4



a


is a plan view of a spillway cap that provides a clear laminar sheet waterfall;





FIG. 4



b


is an elevation view of the spillway cap shown in

FIG. 4



a;







FIG. 4



c


is a sectional view of the spillway cap shown in

FIG. 4



b


, taken along section lines


4




c





4




c;







FIG. 5



a


is a plan view of a spillway cap that provides a raindrop waterfall;





FIG. 5



b


is an elevation view of the spillway cap shown in

FIG. 5



a;







FIG. 5



c


is a sectional view of the spillway cap shown in

FIG. 5



b


taken along section lines


5




c





5




c;







FIG. 6



a


is a plan view of the plug spillway cap;





FIG. 6



b


is an elevation view of the spillway cap shown in

FIG. 6



a;







FIG. 6



c


is a sectional view of the spillway cap shown in


6




b


taken along section lines


6




c





6




c;







FIG. 7

is a perspective view of a waterfall apparatus particularly applicable to spas;





FIG. 8

is an exploded view of the spa apparatus shown in

FIG. 7

;





FIG. 9

is a sectional view of the apparatus shown in

FIG. 7

taken along section lines


9





9


; and





FIG. 10

is a perspective view of a pool/spa system using the new waterfall apparatus.











DETAILED DESCRIPTION OF THE INVENTION




A new waterfall apparatus constructed in accordance with the invention is shown in

FIGS. 1-4

. Most of its components are formed from a water impervious plastic such as ABS. It is particularly adapted to be positioned at the edge of a reservoir of water such as a pool, spa, and the like. It is connected to the water supply in the reservoir's plumbing, and the waterfall emitting from its outlet falls to the surface of the water within the reservoir.




As shown in

FIG. 1

, the new waterfall apparatus


10


includes an elongated manifold


11


having a water inlet


12


to receive a standard water supply from a pool/spa plumbing system. The water enters the manifold


11


through the inlet and fills the manifold with water. An outlet in the form of a slender spillway


14


is preferably formed integrally with the upper portion of the manifold


11


, which supplies it with water. The upper walls of the spillway


14


and manifold


11


are preferably continuous.




The spillway


14


has a through slot


29


(shown in

FIG. 2

) running substantially its entire length. The slot passes through to the manifold


11


and provides a path for water to flow from the manifold


11


. A removable outlet cap


16


is mounted on the end of the spillway


14


and forms water flowing through the outlet into a particular type of waterfall. Some of the different waterfall types include laminar sheet, rain drops, arc, pulsating, fountain, double arc, or any combination thereof.





FIG. 2

is an exploded view of the apparatus


10


showing its separate components. The manifold


11


has an open back and a back plate


22


is affixed within the opening with a water tight seal. The back plate


22


carries the water inlet


12


and also a baffle


26


that extends internally into the manifold


11


when the back plate


22


is installed. Water entering the manifold


11


from the plumbing system is relatively turbulent; to provide a uniform or laminar waterfall, most of the turbulence should be removed. The baffle


26


is positioned horizontally within the manifold


11


such that water passed the baffle


26


as the manifold


11


is filled. The baffle


26


has several series of slots


26




a


in the direction of water flow, which help to remove much of the turbulence as the water passes. The manifold


11


also includes a second horizontal baffle


41


(shown in

FIG. 3

) that cooperates with the first baffle to remove much of the remaining water turbulence.




After the water passes the baffles, it enters the slot


29


in the spillway


14


, passes through the outlet cap


16


, and falls to the water surface below in the form of a waterfall. The cap


16


fits within the spillway slot


29


and has a sealing gasket


32


that is seated between the cap's lip


34


in the end surface


36


of the spillway


14


. Screws


38


mount the cap to the spillway with each screw passing through a respective cap hole


39


and gasket hole


38


a and screwed into a respective threaded hole


40


around the perimeter of the spillway


14


; tabs are provided around the peripheries of the cap, gasket and spillway to provide space for their holes. The screws


38


are turned until snug, compressing the gasket between the cap lip


34


and spillway edge


36


to provide a water tight seal between the two.




Referring now to

FIG. 3

, the water inlet


12


is connected to the pool/spa plumbing system by seating a water supply PVC pipe (not shown) within the inlet, preferably with an adhesive that provides a secure water tight seal. As described above, water flowing into the apparatus fills the manifold


11


and encounters the baffle


26


, which removes much of the its turbulence. In this embodiment, the baffle


26


terminates short of the manifold's front wall, leaving space for water to flow around the inner end of the baffle. However, if desired the baffle


26


could be extended so that its end reaches the manifold's front wall, forcing the water to pass through the slots


26




a


and thereby remove much of its turbulence.




After the water passes baffle


26


it is directed back towards the rear of the manifold by the baffle


41


, which is preferably formed as a rearward extension of the lower wall of spillway


14


, with its rearward end overlapping and spaced somewhat above the forward end of baffle


26


. The water flows in a serpentine path around the forward end of baffle


26


and the rearward end of baffle


41


and the back plate's inner surface


42


, to reach the spillway


14


. This serpentine fashion path through the manifold


11


removes most of the water turbulence. The water flowing in the spillway has a uniform flow that is suitable for producing a waterfall. Other embodiments of the invention can have one baffle or more than two baffles arranged to remove turbulence from the water.





FIGS. 4



a


through


4




c


show one embodiment of the new spillway cap


50


that produces a clear laminar sheet waterfall from the water flowing in the spillway


14


. It has eight holes


52


in the tabs around its perimeter for screws to pass through and fasten the cap to the threaded holes in the end of the spillway. A slot


54


extends substantially along its full width. At the cap's rear


55


, the slot


54


has substantially the same height and width as the spillway slot


29


(See FIG.


2


), allowing water to flow freely from the spillway to the slot


54


. It then tapers toward the cap's front


56


such that it is narrowest at its front. The cap


50


also has a longitudinal ramp


57


on its front and that extends from immediately below the slot


54


, and is directed up and out from the cap's front surface such that said water flowing from the cap


50


flows up an over the ramp. This provides a spacing between the waterfall and the cap's front surface that prevents the front surface from interfering with the laminar sheet of water.





FIGS. 5



a


through


5




c


show another embodiment


60


of a spillway cap which is designed to provide a raindrop waterfall. This embodiment also has a longitudinal through slot


62


that is the same height as the spillway slot


29


at its rear


63


, and tapers toward its front end


64


. However, at the cap's front end


64


, there are series of holes


65


instead of a continuous slot. The water passes from the slot


62


through the holes


65


, with each of the holes establishing a flow of water drops. The cap


60


is fastened to the spillway in the same fashion as the embodiment shown in

FIGS. 5



a


through


5




c.







FIGS. 6



a


through


6




c


show another embodiment of the spillway cap


70


that can be used to both plug the spillway


14


or to protect the spillway's edge. It is also mounted to the end of the spillway by screws. The front end of the cap is closed, blocking the water flow from the spillway


14


and also protecting the end of the spillway


14


.





FIGS. 7 through 9

show another embodiment of a waterfall apparatus


80


that is particularly applicable to spas. It comprises a tubular body


82


with a circular plate


84


affixed at each end to provide a watertight seal, thereby enclosing the body's open ends. The body


82


has water inlet


86


that is directed vertically downward to receive a water supply tube from the spa's plumbing system. It also has a water outlet in the form of a horizontal slot


88


along most of its width. When the apparatus


80


is installed in a spa, its slot


88


is directed toward the interior of the spa.




The slot


88


is designed to receive an outlet cap


90


. The cap slides into the slot


88


and a gasket


92


that is seated between the cap's lip


94


and the slot's perimeter


96


. Two holes


98


are provided opposite the longitudinal slot for screws


100


pass through the holes and mate with threaded holes


101


in the rear of the outlet cap. O-rings


102


are seated between the head of each screw


100


and the surface of the body around each hole


101


. Tightening the screws


100


seats the outlet cap


90


within the slot


88


, and the gasket


92


forms a water tight seals between the cap


90


and the body


82


. The O-rings


102


form water tight seals between their respective screw heads and the body


82


.





FIG. 9

is a cross-section of the spa waterfall apparatus


80


. The water supply pipe from the spa's plumbing is seated within the water inlet


86


and sealed with an adhesive. Relatively turbulent water flows from the plumbing into the tubular body


80


through the inlet


86


. Longitudinal baffles


106


and


107


are positioned to remove most of the turbulence. Water entering the tubular body


80


is directed around the angled baffle


106


and through the space between its end and horizontal baffle


107


, removing much of the turbulence. The water then flows around horizontal baffle


107


, and between its end and the body's inner surface


108


, removing much of the remaining turbulence. The water then flows back toward the longitudinal slot


88


and through the outlet cap


90


, providing a waterfall to the interior of the spa.




Like the previous embodiments, the outlet cap


90


can be removed and replaced if a different type of waterfall is desired. It can also be removed to clear trapped debris, and it replaced if it is damaged. This is accomplished by simply removing the screws


100


from the cap's threaded holes


101


and sliding the cap


90


out of the slot


88


. The same or a new outlet cap


90


can be replaced by sliding it back into the slot


88


and tightening the screws


100


within the cap's threaded holes


101


, with the gasket


92


and O-rings


102


positioned properly.




As shown in

FIG. 10

, multiple waterfall units can be installed in a pool/spa


110


in various locations. The waterfall units


111


are connected to a water pump


113


that circulates water throughout the pool or spa by a series of water conduits


114


. Water flows from the pool/spa to the pump system


113


by a return water conduit


116


. Conduits


114


are affixed to the inlets


117


of the respective waterfall units


111


. Water flows into units and from the units into the pool/spa


110


, completing the loop.




Although the present invention has been described in considerable detail with reference to certain preferred configurations, other versions are possible. Therefore, the spirit and scope of the appended claims should not be limited to the preferred versions described above.



Claims
  • 1. An apparatus for producing a waterfall, comprising:a manifold body; a water inlet into said body; baffling structures internal to said body to remove turbulence from water entering said body; an elongated water outlet arranged to pass water out of said body; and an elongated removable outlet cap on said outlet to form the water flowing from said outlet into a waterfall.
  • 2. The apparatus of claim 1, wherein said cap is mounted on said outlet by at least one screw.
  • 3. The apparatus of claim 1, wherein said manifold body is elongated and said outlet comprises a slender spillway projecting from the opposite side of said body from said water inlet.
  • 4. The apparatus of claim 3, wherein said spillway further comprises a through slot that allows water to flow from said manifold and out said spillway.
  • 5. The apparatus of claim 1, particularly applicable to spas, wherein said body is tubular shaped and said outlet comprises a longitudinal slot in said tubular body.
  • 6. The apparatus of claim 1, further comprising a reservoir of water and a plumbing system having a water supply, wherein said outlet supplies a waterfall to said reservoir of water, said water inlet connected to said water supply from said reservoir's plumbing system and said waterfall is directed in toward the interior of said reservoir.
  • 7. The apparatus of claim 1, wherein said outlet cap produces a waterfall in the form of a laminar sheet or raindrops.
  • 8. The apparatus of claim 1, wherein said outlet cap produces a raindrop waterfall, said cap having a rear and a front and a slot that is widest at said rear and tapers to its narrowest at said front, said cap further comprising a series of holes along the front of said of said slot that discharge water from said slot as a flow of water drops.
  • 9. The apparatus of claim 1, wherein said outlet cap produces a laminar sheet waterfall, said cap having a rear and a front and a through slot that is widest at said rear and tapers to its narrowest at said front.
  • 10. An apparatus for producing a waterfall, comprising:a manifold body; a water inlet to into said body; a water outlet arranged to pass water out of said body; and a removable outlet cap on said outlet to form the water flowing from said outlet into a waterfall, wherein said outlet cap produces a waterfall consisting of a combination of the waterfalls from the group consisting of a laminar sheet, a raindrop, an arc, a double arc, a fountain, and a pulsating waterfall, wherein said outlet cap further comprises a longitudinal ramp at said cap's front end, starting from below said slot, and directed up and away from said slot, such that water flowing from said cap is directed up and over said ramp to provide a spacing between said waterfall and the front of said cap.
  • 11. A waterfall system, comprising:a reservoir capable of holding water; one or more waterfall units on the edge of said reservoir, each said waterfall unit having a water inlet connected to said pump system and a water outlet; a water pump system that circulates water from said reservoir to said waterfall units; and a removable outlet cap on said outlet to form the water flowing from said outlet into a waterfall, wherein said outlet cap further comprises a longitudinal ramp at said cap's front end, starting from below said slot, and directed up and away from said slot, such that said water flowing from said cap is directed over said ramp to provide a spacing between said waterfall and said cap's front surface.
  • 12. A waterfall system, comprising:a reservoir capable of holding water; one or more waterfall units on the edge of said reservoir, each said waterfall unit comprising: a manifold body; a water inlet into said body; baffling structures internal to said body to remove turbulence from water entering said body; an elongated water outlet arranged to pass water out of said body; and an elongated removable outlet cap on said outlet to form the water flowing from said outlet into a waterfall; and a water pump system that circulates water from said reservoir to said waterfall units, said pump system connected to said water inlet of said waterfall units.
  • 13. The system of claim 12, wherein said outlet is produces a raindrop waterfall, said cap having a rear and a front and a slot that is widest at said rear and tapers to its narrowest at said front, said cap further comprising a series of holes along the front of said slot that discharge the from said slot as a flow of water drops.
  • 14. The system of claim 12, wherein each said waterfall unit further comprises one or more internal baffles to remove turbulence from water flowing through said manifold body.
  • 15. The system of claim 12, wherein said apparatus supplies a waterfall to said reservoir of water, said waterfall directed in toward the interior of said reservoir.
  • 16. The system of claim 12, wherein said outlet cap produces a waterfall in the form of a laminar sheet or raindrops.
  • 17. The system of claim 15, wherein said cap is mounted on said outlet by at least one screw.
  • 18. The system of claim 12, wherein said outlet cap produces a laminar sheet waterfall, said cap having a rear and a front and a through slot that is widest at said rear and tapers to its narrowest at said front.
US Referenced Citations (12)
Number Name Date Kind
1651887 Hawes Dec 1927 A
3292861 Kawamura et al. Dec 1966 A
4881280 Lesikar Nov 1989 A
5115974 Tobias et al. May 1992 A
5201857 Nix Apr 1993 A
5249744 Ruthenberg Oct 1993 A
5271561 Tobias et al. Dec 1993 A
5388285 Belniak Feb 1995 A
5510022 Mullis Apr 1996 A
5537696 Chartier Jul 1996 A
5881401 Saputo Mar 1999 A
6170094 Weise et al. Jan 2001 B1
Non-Patent Literature Citations (1)
Entry
Sheer Descent®, State of the Art Waterfalls, Back Feed System, Installation Manuel, p. 1-15, (1996) Jandy® Industries.