US3665942A - Swimming pool cleaning device - Google Patents

Abstract

A swimming pool cleaning device having a floating head which is placed upon a pool surface and adapted to be supplied with water from a floating flexible hose, the floating head having cleaner hose attachments and an impeller all receiving a portion of the water supplied to the head, the impeller and a rudder being carried by a hollow swivel through which water is supplied to the impeller and being so constructed and arranged as to propel and guide the head around the pool in a random manner.

Description

United States Patent Moore 1451 May 30, 1972 54] SWIMMING POOL CLEANING DEVICE 3,291,145 12/1966 Arneson ..134/167 3 315 692 4/1967 Arneson ....134/l67 I t W D. D 1 [72] a1 Tex 3,496,901 2/1970 Stanfield at al ..115/12 [731 Assignees: Marty Ross; Danny Henderson, Las Vegas,

- Primary Examiner-Edward 1.. Roberts [22] Filed, No 17, 1971 AttorneyHarry W. F. Glemser, et al.

[ pr 199,644 57 ABSTRACT A swimming pool cleaning device having a floating head Cl 1 115/12 R which is placed upon a pool surface and adapted to be sup- [51 1 Int. Cl ..B08b 3/02 plied with water from a floating flexible hose, the floating head [58] Field of Search 15/ 1.7; 134/167 R, 168 R; having cleaner hose attachments and an impeller a" receiving 1 15/12 R; 210/169 a portion of the water supplied to the head, the impeller and a rudder being carried by ahollow swivel through which water is [56] References Cited supplied to the impeller and being so constructed and ar- UNITED STATES PATENTS ranged as to propel and guide the head around the pool in a random manner. 3,032,044 5/1962 Pansini .....l34/l68 X 3,170,180 2/1965 Winston ..15/1.7 11 Claims, 5 Drawing Figures PatentedMa 30, 19-12 3,665,942

. 2 Sheets-Sheet 1 Patented May 30, 1972 2 Sheets-Sheet 2 SG POOL CLEANING DEVICE BACKGROUND OF THE INVENTION This invention relates to an improved swimming pool cleaning device which is simple in construction and which will automatically move around the entire pool area without entrap ment against pool edges or in corners.

Virtually all modern swimming pools, whether private ones at homes, motels or apartments or large municipal pools are built with a filtering and cleaning system installed as standard equipment. In this system, pool water is drawn into a pump from outlets on the surface and usually from a bottom drain. The pump forces the water through a filter, from whence it is returned to the pool.

For practical reasons of engineering and economy, it is not practical for this system to keep the entire pool contents stirred up sufficiently to prevent the settling of the larger dirt and dust particles, leaves, etc. Therefore, it is necessary to clean the pool periodically to remove the debris which the filtering system does not removed. This is usually done by vacuuming the bottom and sides with a vacuum head on a pipe which is manually moved over the bottom. Its suction is water going directly to the pool pump in the filtering system. For a normal home pool, the operation requires 2 to 4 hours, and is normally performed once a week.

Observation of any outdoor pool will show that weekly cleaning is insufficient to keep the pool clean all the time. Dirt settles enough in one day to be visible in most locations. But due to the onerous and time-consuming task of vacuuming, very few pools are cleaned more often than weekly, if that often.

Therefore, a need exists and has existed for an automatic pool cleaning device which will obviate the necessity of manual vacuuming the pool.

Many attempts have been made to construct such a device with varying degrees of success over the last 20 years and more. Almost all of these devices have depended on the stirring-up action of water ejected from flexible tubes or hoses long enough to reach the pool bottom. The recurring problem is not how to stir up the dirt so that the filter can remove it. The problem is transporting the stirring tubes around the pool so as to cover its entire area. Most attempts have utilized floating heads with the tubes attached to the head. Units have been made with the head attached to complicated machinery on the side of the pool which is geared or programmed to extend in and out, move from side to side, or both in order to cover all the area. The most prevalent type of device utilizes a floating head with one or more fixed position nozzles around its perimeter to drive it across the water surface by the force of the water ejected from said nozzle(s). One of these contains a complicated gear train and internal valve set-up driven by a water turbine so that water is ejected from two or more nozzles in rotation. Thus, if the head becomes trapped in a comer, eventually the noule which drove it there will be stopped, and another nozzle will start ejecting water-hopefully in a direction which will result in the head moving out of the comer to resume travel around the pool surface. Another device gives up on solving the programmed floating head problem, and consists of a head with four flexible tubes attached which sinks to the bottom of the pool and stays there until removed, with its attached tubes snaking around stirring up the debris. This head does not move at all, resulting in spotty and inadequate coverage for cleaning.

All of the devices described and all which have previously been manufactured have demonstrated inadequacies which result in poor and spotty pool cleaning. Furthermore, the best known of these machines is quite expensive and is overcomplicated and unreliable.

SUMMARY OF THE INVENTION It is an object of this invention to provide a simple, inexpensive and reliable pool cleaner which will cover the entire pool area automatically.

The swimming pool cleaning device of this invention, in a representative embodiment, comprises a floating head which is placed on the pool surface, which is supplied with water pressure via a floating flexible hose, and beneath which are several attachments, each receiving a portion of the available water pressure supply. The attachments are: at least one flexible hose equipped with a nozzle at its bottom end; and a swivel impeller and rudder assembly so constructed that it propels and guides the head around the pool in a random manner.

The actual cleaning of the pool sides and bottom is accomplished by the scouring action of the water ejected from the noules at the bottom ends of the dangling flexible tubes as the head moves around the pool. The scouring action stirs up the dirt and debris, which becomes temporarily suspended in the water long enough to be removed by the pools normal filtering system.

The time for complete pool cleaning varies with the amount and types of soil to be removed, the capacity of the filtering system and the available water pressure and volume which can be used to operate the cleaner. In normal circumstances, this time will average between 4 and 10 hours.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a top plan view of a pool showing the pool cleaning device of the invention in solid lines in one position in the pool and in broken lines in another position.

FIG. 2 is an enlarged top view of the floating head of the pool cleaning device.

FIG. 3 is a sectional view taken on the lines 3--3 of FIG. 2.

FIG. 4 is an enlarged sectional view taken on thelines 44 of FIG. 3.

FIG. 5 is a fragmentary view showing a floating supply hose assembly.

DESCRIPTION OF PREFERRED EMBODIMENT Referring now to FIG. 1, the pool cleaning device comprises floatinghead 10 which is adapted to move about the surface ofpool 12. Thehead 10 is conveniently constructed of foam plastic, but can be made of any material which will float and can take any of the variety of shapes and sizes. In the embodiment shown it is shaped like a life buoy but could be of solid, oval, rectangular or other shape.

Mounted on thehead 10 is awater distributing assembly 14 comprisingpipes 16, 18, 20 and 22,tees 24 and 26elbows 28 and 30 andunion 32. Theunion 32 is connected to a short piece ofpipe 34 which extends from thehead 10 and terminates incoupling 36 to whichflexible supply line 38 is attached. Thesupply line 38 is in turn attached at its other end to a source of water underpressure 40, which may be an outlet from the pool filter system. The pipes and fittings mounted on the floatinghead 10 are conveniently made from rigid plastic to save weight and avoid corrosion problems. Afloat 42 is attached to connectingpipe 34 to add buoyancy to the system.

Preferably thesupply lines 38 is one which will float. This can be accomplished by several means including the attachment of floats at intervals. A preferred embodiment is shown in FIG. 5 wherein an outerfloatable hose 44 of foamed plastic material such as a floating pool vacuum hose encompasses a flexibleinner hose 46 which carries the water under pressure. Vacuum hose of 1 k inch diameter in combination with three-fourths inch vinyl tubing is suitable for this purpose.

As shown in FIG. 3, theelbows 28 and 30 are each equipped with ashort nipple 48 extending downwardly through an opening 50 in thefloating head 10. Aunion 52 secures the assembly in position. A short length ofpipe 54 extends downwardly from theunion 52. In a typical arrangement the floating head may be l820 inches in diameter with theelbows 28 and 30 approximately 16 inches apart on centers. Thepipes 54 may extend approximately 8 inches below the floatinghead 10 before their attachment to the cleaning tubes. These pipe projections serve to prevent thehead 10 from traveling over pool steps and other shallow obstructions which might bump the rotating swivel assembly and interfere with its operation.

Twoflexible tubes 56 and 58 are attached to therespective pipes 54. Each tube is equipped with anozzle 60 of the flat fan spray pattern type with a fixed size orifice at one end of the tube. As water is ejected from the noule, the reaction force of the water jet against the pool water causes the tube to zig-zag or snake from side to side and in circular patterns around the pool bottom, thus stirring up debris for the filter system of the pool to remove. Flatfan spray noules 60 are eminently suitable for tubing that is manufactured in coils, and has a coil set. This natural coil set causes either one side or the other of the tubing to lie on the bottom. The nozzle is set to spray perpendicularly to the coil set of the tubing, so that half the ejected water from the nozzle must impinge against the pool bottom at all times when the nozzle is against the bottom.

Theflexible cleaning tubes 56 and 58 are preferably of different lengths. For example, one of the tubes may be 15 feet long, causing it to range far away from the floating head and to reach the deepest parts of the pool. The other tube may be feet long, and touches the bottom in the shallow end only. However, it serves to keep sediment suspended at all times, and cleans the side walls of the pool when it is brought within reach by the head.

Attached to tee 24 is a swivel impeller and drive assembly generally designated at 62. As best shown in FIGS. 3 and 4, this comprises a downwardly extendingpipe 64 carrying a ho]- low swivel joint 66 from which depends another short length ofpipe 68 closed bycap 70. All of these parts may be conveniently made of plastic. Ametal impeller tube 72 communicates with thepipe 68 through thecap 70. On the other side of cap 70 a flat plastic ormetal rudder 74 is secured by means ofcap screw 76. Thetee 24 and its dependingswivel drive assembly 62 may be offset from the geometrical center of the floating head so as to facilitate irregular directional movement of the device around the pool.

Theswivel drive assembly 62 is the heart and brain of the cleaning device of this invention since it impels and guides the floatinghead 10 around the pool surface. Its principle is new but simple. The lower part of the assembly rotates freely around the hollow supportingpipe 64. The assembly has only two essential parts besides the swivel itself; animpeller tube 72 bent at an angle of e.g., 3-l0 from a radial line drawn horizontally from the swivel center which causes counterclockwise swivel rotation when water is ejected through thetube 72 under pressure; and the flat metal orplastic rudder 74 fastened to the same part of the swivel as the impeller tube, set vertically and projecting to one side of swivel center opposite to the angle bend of thetube 72. Thisrudder 74 has little effeet on the swivel action when thehead 10 is stationary, thus allowing thebent tube 72 to cause CCW swiveling action, but when thehead 10 is moving across the water, therudder 74 tends to cause clockwise swivel actionopposing the action of thetube 72. Thus, the drive jet will always cause the assembly to swivel when thehead 10 is stalled, but may not swivel at all or swivel in the opposite direction when thehead 10 is moving, depending on the speed of movement, since the pool water exerts more force against the rudder the faster it is propelled through the water. The result is random travel of the head but programmed to prevent entrapment.

The manner in which the impeller and rudder assembly will swivel around upon entrapment of thehead 10 is illustrated at the lower right hand corner of FIG. 1. Here the device shown in broken lines has been driven into the corner of the pool. The impeller action of thetube 72 has caused the drive assembly to rotate counterclockwise from the angular position of the device shown in solid lines at the center of the pool. The action of the impeller will new drive the device out of the comer to again randomly proceed across the pool surface.

From the foregoing, it will be seen that the invention embodies a new and unique method of propelling floating cleaner head around the pool surface via a swiveling drive impeller which swivels when the head is stopped for any reason until it reaches a position to drive the head away from the trapped position, no matter what caused it or where it is on the pool surface. When the head begins to travel across the surface slowly, the swivel does not rotate. At higher speed of travel, the impeller and swivel tend to rotate in a direction opposite to that evidenced when the head is not moving.

As a result, the novel pool cleaning device travels completely around the perimeter of any shape pool, cannot be trapped by any corner or obstruction, and makes occasional side trips out into the middle of the pool, sometimes crossing over from side to side or end to end, sometimes lingering in an area performing a roughly oval oscillating movement, finally returning to its travel around the pool perimeter. Over a few hours time, the head will traverse all the area of the pool surface several times. It may be placed in the pool in the evening and allowed to run all night. Results have been perfect, in that it never stalls or becomes trapped, it covers the entire surface and bottom areas and cleans the pool bottom and sides to the point where no debris is visible the following morning. Manual vacuuming is no longer required.

It will be understood that the device of the invention is adapted to many modifications within the spirit of the invention and range of equivalents to which it is entitled. The description of materials and dimensions are for illustrative purposes and are not intended to be limitative of the scope of the invention. The principle of swivel impeller and rudder may be incorporated in any device which is adapted to float upon and automatically travel over the surface of any body of liquid. Thus, it may be used in pond aerators, pond treaters, distributing devices for insecticides, chemicals and the like and even in toy ships and amusement devices.

What I claim is:

1. In a swimming pool cleaning device comprising a movable floating head carrying at least one cleaner hose, a water jet impeller and means for supplying water to said cleaner hose and impeller, the improvement comprising a swivel carrying said impeller and also carrying a rudder, the impeller being arranged and directed to cause rotation of the swivel and the rudder tending to counteract such rotation whereby said impeller and rudder cause the floating head to move in an irregular pattern around the pool and to move away from pool walls and comers it may engage.

2. The device of claim 1 wherein the swivel is offset from the geometric center of the floating head to facilitate the irregular pattern of movement of the floating head.

3. The device of claim 1 wherein the impeller comprises a pipe extending horizontally from the swivel at an angle to the rudder and wherein said pipe is bent at a slight angle away from the direction in which the rudder extends.

4. The device of claim 3 in which the impeller pipe is bent at an angle of from about 3-lO.

5. The device of claim 1 including a floatable flexible water supply hose for supplying water from a source at pool-side to the movable floating head for distribution to the cleaner hoses and water jet impeller.

6. The device of claim 6 wherein said floatable water supply hose comprises an outer hose of flexible foamed plastic and a flexible water carrying hose within said inner hose.

7. The device of claim 1 wherein there are cleaner hoses of different lengths.

8. The device of claim 1 wherein at least one cleaner hose has a coil set and the terminal end of said cleaner hose is provided with a nozzle directed perpendicular to the coil set so as to direct cleaning water against the pool bottom.

9. A swimming pool cleaning device comprising, a floating head adapted to move upon the surface of the pool; a pipe extending downwardly from said floating head; a swivel joint in said pipe; water distributing means carried by said floating head, said water distributing means including first connecting means for a flexible water supply hose, second connecting means for at least one flexible cleaner hose and means connecting said first connecting means with the second connectdownwardly from said floating head to a position below said impeller and rudder to prevent them from engaging shallow pool obstructions.

11. The device ofclaim 10 wherein the means extending downwardly from the floating head comprise short pipes to which the flexible cleaner hoses are adapted to be attached, said pipes comprising part of said second connecting means.

Claims (11)

1. In a swimming pool cleaning device comprising a movable floating head carrying at least one cleaner hose, a water jet impeller and means for supplying water to said cleaner hose and impeller, the improvement comprising a swivel carrying said impeller and also carrying a rudder, the impeller being arranged and directed to cause rotation of the swivel and the rudder tending to counteract such rotation whereby said impeller and rudder cause the floating head to move in an irregular pattern around the pool and to move away from pool walls and corners it may engage.

2. The device of claim 1 wherein the swIvel is offset from the geometric center of the floating head to facilitate the irregular pattern of movement of the floating head.

3. The device of claim 1 wherein the impeller comprises a pipe extending horizontally from the swivel at an angle to the rudder and wherein said pipe is bent at a slight angle away from the direction in which the rudder extends.

4. The device of claim 3 in which the impeller pipe is bent at an angle of from about 3*-10*.

5. The device of claim 1 including a floatable flexible water supply hose for supplying water from a source at pool-side to the movable floating head for distribution to the cleaner hoses and water jet impeller.

6. The device of claim 6 wherein said floatable water supply hose comprises an outer hose of flexible foamed plastic and a flexible water carrying hose within said inner hose.

7. The device of claim 1 wherein there are cleaner hoses of different lengths.

8. The device of claim 1 wherein at least one cleaner hose has a coil set and the terminal end of said cleaner hose is provided with a nozzle directed perpendicular to the coil set so as to direct cleaning water against the pool bottom.

9. A swimming pool cleaning device comprising, a floating head adapted to move upon the surface of the pool; a pipe extending downwardly from said floating head; a swivel joint in said pipe; water distributing means carried by said floating head, said water distributing means including first connecting means for a flexible water supply hose, second connecting means for at least one flexible cleaner hose and means connecting said first connecting means with the second connecting means and with said pipe; a water jet impeller extending horizontally from the lower part of said swivel joint and arranged to deliver a stream of water in a direction tending to rotate said part, and; rudder means carried by the lower part of said swivel joint and tending to counteract rotation of said part, whereby said impeller and rudder cooperate to cause said float to move in an irregular pattern around the pool and to move away from pool walls and corners it may engage.

10. The device of claim 9 wherein means extend downwardly from said floating head to a position below said impeller and rudder to prevent them from engaging shallow pool obstructions.

11. The device of claim 10 wherein the means extending downwardly from the floating head comprise short pipes to which the flexible cleaner hoses are adapted to be attached, said pipes comprising part of said second connecting means.

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