US3018491A

US3018491A - Water circulating system for cleaning swimming pools

Info

Publication number: US3018491A
Application number: US837398A
Authority: US
Inventors: Robert L Read
Original assignee: Individual
Current assignee: Individual
Priority date: 1959-09-01
Filing date: 1959-09-01
Publication date: 1962-01-30
Anticipated expiration: 1979-01-30

Description

R. L. READ Jan. 30, 1962 WATER CIRCULATING SYSTEM FOR CLEANING SWIMMING POOLS Filed Sept. 1, 1959 ROBERT L. READ 14x0): & 1410a:

3,018,491 WATER CIRQULATING SYSTEM FOR CLEANING SWIMMING POOLS Robert L. Read, 10751 Louisa Drive, La Mesa, Calif. Filed Sept. 1, 1959, Ser. No. 837,398 7 Claims. (Cl. 4-172) The present invention relates generally to swimming pools and more particularly to a water circulating system for cleaning swimming pools.

The primary object of this invention is to provide a water circulating system for a swimming pool which causes a rotary motion of the water about the drain and includes means for bringing the water from other parts of the pool into the area of rotary motion.

Another object of this invention is to provide a water circulating system including an impeller driven rotating scoop in the drain which sweeps the area in the vicinity of the drain and prevents the accumulation of debris around the drain.

Still another object of this invention is to provide a water circulating system in which the various elements are incorporated into small panel units and can be built into many difierent types and shapes of pools.

A further object of this invention is to provide a water circulating system in which the elements are substantially flush with the pool structure to avoid interference with swimmers.

Finally, it is an object to provide a water circulating system of the aforementioned character which is simple, safe and convenient to install and operate and which will give generally efiicient and durable service.

trite States Patet With these and other objects definitely in view, this invention consists in the novel construction, combination and arrangement of elements and portions, as will be hereinafter fully described in the specification, particularly pointed out in the claims, and illustrated in the drawing which forms a material part of this disclosure, and in which:

FIGURE 1 is a top plan view, partially cut away, of a pool incorporating the water circulating system;

FIGURE 2 is an enlarged fragmentary sectional view taken on the line 2-2 of FIGURE 1; and

FIGURE 3 is a top plan view of the rotary scoop.

Similar characters of reference indicate similar or identical elements and portions throughout the specification and throughout the views of the drawing.

The swimming pool 10 is of conventional type having a deep end 12 and a shallow end 14, the excavation being lined by a side wall 16 and a floor 18. The pool may be of virtually any size and shape and lined with any suitable material such as concrete, block, tile, plastic, or the like, the particular construction being unimportant. In the deep end 12, preferably at the lowest portion thereof, is a drain assembly 20 inset in the floor 18 in an opening 24 provided therein, the drain assembly being connected to a conventional drain pipe 26 leading to a conventional swimming pool plumbing system with recirculating pump. heater, drain connection and the like. For purposes of illustration a simple system is shown diagrammatically in FIGURE 1, in which the water from the drain is drawn through a filter 28 and recirculated by a pump 30.

In the wall 16 around the deep end 12 are several primary inlet pipes, usually including an inlet pipe 22 for fresh replenishment and the inlet pipes 32 for recirculated water, these primary inlet pipes being downwardly inclined and vertically staggered in an interrupted spiral pattern leading downwardly toward said drain assembly 20, said primary inlet pipes being disposed and positioned so that the influx of water therethrough causes a downof the pool. In other words, the primary inlet pipes 32, and preferably the fresh water inlet 22 as well, are arranged to create a vortex substantially centered on the drain assembly 20, as indicated by the directional arrows in FIGURE 1. Each primary inlet pipe 32 is mounted in a panel 34 which can be fitted into the wall 16 as a part of the wall, each panel having a concavity 36 surrounding the inlet pipe, so that the water tends to flow into the concavity and add to the effectiveness of the current from the inlet pipe by initiating the flow directly from the surface of the wall 16. The primary inlet pipes 32 are all connected to the recirculating pump 30 and return filtered water to the pool.

At the shallow end 14 are further or secondary inlet pipes 38, two being illustrated as an example, although any number can be used. The secondary inlet pipes 38 are in the wall 16 and are directed toward the deep end 12 to cause a bottom flow of water from the shallow end to the deep end, said secondary inlet pipes also being connected to the pump 30. The secondary inlet pipes 38 may also be in the upper one-half portion of the wall and directed slightly downwardly, although this is not essential. In swimming pools of free form or complex shapes, the various inlet pipes may be arranged as needed to create a vortex around the drain and to bring water from radiating branch-like parts of the pool into the area of the vortex.

It is important to note that by using this arrangement, the rotating current is concentrated in the critical part of the pool rather than attempting to circulate the entire body of water, so obtaining a greater effect with a minimum of water pressure from the inlets, the non-rotating portion of the water being caused to drift or flow into the rotational area, so that all of the water is eventually recirculated.

For additional cleaning action the drain assembly 20 is fitted with a rotor 40 having a vertical axial shaft 42, which is freely rotatable in a bearing 44 supported inside the opening 24 by a spider 46, or the like. The rotor 40 has a central aperture 48 in which are a plurality of radially extending blades 50, said aperture corresponding generally in size to the opening 24. The blades 50 are shaped so that the efilux of water through the drain pipe 26 causes the rotor 40 to rotate on its axis. The floor 18 has a shallow dish 52 formed therein in which the rotor 40 is substantially recessed, said dish being enclosed by a cover screen 54 of open mesh which is attached to the floor 18 by any suitable means such as screws 56 or clamps. The cover screen 54 is merely to protect swimmers from the spinning rotor 40 and is not primarily intended to retain debris carried in the water.

In most pools, a ring of debris is deposited around the drain due to the relatively still layer of water adjacent the pool fioor in the vicinity of the drain. This ring of debris can form even with some swirling action of the water. In a conventional pool, the debris would normally settle in an area corresponding to the location indicated at 58, within the dish 52. To remove this debris, the rotor 40 is provided with a scoop channel 60 angularly disposed between the periphery of the rotor and the aperture 48, so that the rotation of the rotor causes a sweeping action or influx of water into the scoop channel. Since this scooping action takes place adjacent the surface of the dish 52, the resultant motion of the Water prevents accumulation of debris, which is carried through the scoop channel 60 and into the drain pipe 26. The surface of the dish 52. is preferably polished or similarly treated to produce a smooth surface which discourages adherence of debris. Thus the swirling action of the water brings all of the debris in the pool to the drain and the scooping action of the rotor 40 picks up any residue not carried directly into the drain, the debris I 3 i being extracted from the water by the conventional filter 28.

In this manner, the pool is kept considerably cleaner than by the usual simple recirculation system and even cleaner than is possible with the swirling water action alone. The rotor 40, however, is driven by the efilux of water and no power driven means is required other than the conventional pump 30.

The operation of this invention will be clearly com-prehended from a consideration of the foregoing description of the mechanical details thereof, taken in connection with the drawing and the above recited objects. It will be obvious that all said objects are amply achieved by this invention. It is noteworthy that any surface skimmers provided will be more effective when employed in conjunction with my above disclosed system, in addition to the improved self-cleaning characteristics and improved dissemination of chemicals added to the water.

It is understood that minor variation from the form of the invention disclosed herein may be made without departure from the spirit and scope of the invention, and that the specification and drawing are to be considered as merely illustrative rather than limiting. For example, the pool wherewith this invention is incorporated may be of virtually any desired shapeand certain of the described elements of the invention may be omitted or duplicated. By way of further example, the rotor 40 may be power driven, at the option of the user, by an electric motor or otherwise, and used during flushing operations to create an increased suction and augmented outflow rate, thus further enhancing the self-cleaning characteristics of the pool.

I claim:

1. In a swimming pool having a side wall and a floor: a drain in said floor at substantially the deepest portion of the pool; means for causing the water in said swimming pool to assume a vertically downwardly spiraling circulation that takes the form of a vortex substantially centered on said drain, said means comprising a plurality of primary inlet pipes disposed in said wall around said drain and connected to a source of water; said primary inlet pipes being downwardly inclined and vertically staggered in an interrupted spiral pattern leading downwardly toward said floor, said inlet pipes directing incoming water into the pool in corresponding directions and causing a generally downwardly spiralling flow toward said drain, each inlet pipe discharging inwardly of the pool at an acute angle with reference to an adjacent wall surface portion of the pool. 7

2. In a swimming pool having a side wall and a floor: a drain in said floor at substantially the deepest portion of the pool; means for causing the water in said swimming pool to assume a vertically downwardly spiraling circulation that takes the form of a vortex substantially centered on said drain, said means comprising a plurality of primary inlet pipes disposed in said Wall around said drain and connected to a source of water; said primary inlet pipes being downwardly inclined and vertically staggered in an interrupted spiral pattern leading downwardly toward said floor, said inlet pipes directing incoming water into the pool in corresponding directions and causing a generally downwardly spiralling flow toward said drain, each inlet pipe discharging inwardly of the pool at an acute angle with reference to an adjacent wall surface portion of the pool; a rotor having inclined blades and operably mounted in said drain; to rotate as water is exhausted through said drain; said rotor having a generally radially apertured portion defining a scoop channel leading from the periphery of the rotor inwardly into said drain; said scoop channel engendering a temporally localized, generally radial flow sweeping the area of floor adjacent said drain.

3. In a swimming pool having a side wall and a floor: a drain in said floor at substantially the deepest portion of the pool; means for causing the water in said swimming pool to assume a vertically downwardly spiraling circulation that takes the form of a vortex substantially centered on said drain, said means comprising a plurality of primary inlet pipes disposed in said wall around said drain and connected to a source of water; said primary inlet pipes being downwardly inclined and vertically staggered in an interrupted spiral pattern leading downwardly toward said floor, said inlet pipes directing incoming water into the pool in corresponding directions and causing a generally downwardly spiralling flow toward said drain, each inlet pipe discharging inwardly of the pool at an acute angle with reference to an adjacent wall surface portion of the pool; at least one secondary inlet pipe in said wall remote from said primary inlet pipes and directed toward that portion of the pool containing said drain; a rotor freely rotatably mounted in said drain; means for causing the efilux of water through said drain to cause rotation of the rotor, said means comprising inclined blades mounted in said rotor; and a scoop carried by said rotor to sweep the area of the fioor adjacent said drain.

4. In a swimming pool having a side wall and a floor: a drain in said floor at substantially the deepest portion of the pool; means for causing the water in said swimming pool to assume a vertically downwardly spiraling circulation that takes the forrnof a vortex substantially centered on said drain, saidmeans comprising a plurality of primary inlet pipes disposed in said wall around said drain and connected to a source of water; said primary inlet pipes being downwardly inclined and vertically staggered in an interrupted spiral pattern leading downwardly toward said floor, said inlet pipes directing incoming water into the pool in corresponding directions and causing a generally downwardly spiralling flow toward said drain, each inlet pipe discharging inwardly of the pool at an acute angle with reference to an adjacent wall surface portion of the pool; and at least one secondary inlet pipe in said wall remote from said primary inlet pipes; said secondary inlet pipe being directed toward that portion of the pool containing said drain.

5. A swimming pool having a floor and a drain therein; a rotor freely rotatably mounted in said drain; means for causing the efliux of water through said drain to cause rotation of the rotor, said means comprising suitably shaped and inclined blades mounted on said rotor; and a scoop mounted on and carried by said rotor to sweep the area of the floor adjacent said drain.

6. In a swimming pool having a side wall and a floor: a drain in said floor at substantially the deepest portion of the pool; means for causing the water in said swimming pool to assume a vertically downwardly spiraling circulation that takes the formof a vortex substantially centered on said drain, said means comprising a plurality of primary inlet pipes disposed in said wall around said drain and connected to a source of water; said primary inlet pipes being downwardly inclined and vertically staggered in an interrupted spiral pattern leading downwardly toward said floor, said inlet pipes directing incoming water into the pool in corresponding directions and causing a generally downwardly spiralling flow toward said drain, each inlet pipe discharging inwardly of the pool at an acute angle with reference to an adjacent wall surface portion of the pool; and at least one secondary inlet pipe in said wall remote from said primary inlet pipes; said secondary inlet pipe being disposed to direct a flow of water toward that portion of the pool containing said drain; said floor having a dished portion surrounding said drain; a rotor freely rotatably mounted in said drain and substantially recessed in said dished portion; means for causing the efllux of water through said drain to cause rotation of the rotor, said means comprising suitably shaped and angled blades positioned in said rotor; and a scoop channel in said rotor and leading from the periphery of said ro-tor into said drain, said scoop channel engendering a temporally localized, generally radial flow sweeping the area of floor adjacent said drain.

7. A swimming pool according to claim 1 wherein each of said primary inlet pipes is mounted in a panel constituting a portion of said wall; each panel having a concave portion surrounding the inlet pipe; and the end of each inlet pipe being recessed below the surface of said wall in the respective concave portion.

References Cited in the file of this patent UNITED STATES PATENTS